The Gardens’ Bulletin Singapore Vol. 68(1) 2016

The Gardens’ Bulletin

Singapore

ISSN 0374-7859

Singapore Botanic Gardens

THE GARDENS’ BULLETIN, SINGAPORE

The Gardens* Bulletin, Singapore is a peer-reviewed journal publishing original papers and
reviews on a wide range of subjects; plant taxonomy (including revisions), phytogeography,
floristics, morphology, anatomy, as well as horticulture and related fields, such as ecology and
conservation, with emphasis on the plant life of the Southeast Asian-Pacific region.

V

Dr David J. Middleton Dr Jana Leong-Skomickova
(Editor-in-Chief) (Managing Editor)

Felicia Tay Yee Wen Low Chiistina Soh

(Graphics Editor) (Copy Editor) (Business Manager)

Editorial Advisory Board

Professor Sir Peter Crane
Yale University
US. A.

Dr Rogier P.J. de Kok
Honoraty Research Associate
Singapore Botanic Gardens

Dr W. John Kress

National Museum of Natural History
Smithsonian Institution
U.S.A.

Dr Mark Hughes

Royal Botanic Garden Edinburgh
UK.

Dr Kiat W. Tan
Gardens By The Bay
Singapore

Dr Nigel P. Taylor
Singapore Botanic Gardens
National Parks Board, Singapore

Dr Ian M. Turner
Royal Botanic Gardens Kew
UK.

Dr Jan-Frits Veldkamp
National Biodiversity Center
The Netherlands

Dr Jun Wen

National Museum of Natural Histoty
Smithsonian Institution
U.S.A.

Professor Nianhe Xia
South China Institute of Botany
PR. China

Published twice yearly by the National Parks Board, Singapore, the annual subscription for the journal
is Singapore $100.00 including postage. Overseas subscribers should make payment in the form of
bank draft or international money order in Singapore currency, payable to National Parks Board. Please
forward payment to “Accounts Receivable Section, National Parks Board, Headquarters, Singapore
Botanic Gardens, 1 Cluny Road, Singapore 259569”.

Instructions for contributing authors

(more details in http://www.sbg.org.sg/research/instmctions-for-authors.pdf)
Manuscripts should be sent by e-mail to <Gardens_Bulletm@nparks.gov.sg> or posted to
The Editor, Gardens’ Bulletin Singapore, Singapore Botanic Gardens, 1 Cluny Road,

Singapore 259569.

The language used is English. Prior to submission, it may be advisable to have manuscripts checked by
someone fluent or proficient in that language. Contributions must not have been published or be under
consideration elsewhere. There are no page charges. Submitted material cannot be returned.

Authors will receive a pdf reproduction of their contribution, gratis.

Cover letter, submission and copyright. In your cover letter or message, state clearly you are submitting
your manuscript (state title) for publication in tlie Gardens’ Bulletin, Singapore. By submitting the
manuscript(s), authors agree that upon acceptance, copyright of the entire work becomes the property
of the Singapore Botanic Gardens, National Parks Board, Singapore. Authors must ensure all required
permission has been obtained in writing to publish any material they present; proof may be required.
Manuscripts are best submitted in electronic form (Microsoft Word 97-2003 prefened). Use Times New
Roman, 10-point font, 1.5-line spacing. Do not send original artwork unless requested by the Editor.
Number all pages serially including the title and abstract on the first.

(continued on inside back cover)

Instructions for contributing authors (continued)

Title and authorship. The title should concisely describe the contents. If a scientific name is used, its
authority is nonnally excluded, but the family name would be provided. Authors’ names, afliliations
and postal/ e-mail addresses are stated below the title. If more than one author, indicate “corresponding
author”. Avoid footnotes. A short running title (up to six words) should also be provided.

Abstract. The abstract should be less tlian 200 words. It should concisely indicate the article’s contents
without summarising it; mentioning novelties and name changes. Keywords. Suggest at most eight
keywords, in alphabetical order.

Scientific names and author abbreviations. Genus and species names of organisms must be italicised and
followed by the authority (with family name in parentheses) when first mentioned in the text or diagnoses.
Standards for author abbreviations should follow:

IPNI <http;//www.ipni.org/ipni/authorsearchpage.do>

Authors of Fungal Names <http://www.indexfungorum.org/authorsoffungalnames.htm>

Herbarium abbreviations follow

Thiers, B. (2013). [continously updated] Index Herbariorum: A global directory of public herbaria and
associated staff . New York BotaJiical Garden's Virtual Herbarium, <http://sweetgum.nybg.org/ih/>
Journal and book title abbreviations. For journals:

Bridson, G.D.R., Townsend, S.T., Polen, E.A. & Smith, E.R. (eds) (2004). BPH-2: periodicals with
botanical content: comprising a second edition ofBotanico-Periodicum-Hunlianum. Pittsburg: Hunt
Institute for Botanical Documentation.

For books:

Stafleu, F.A. & Cowan, R.S. (eds) (1976-88). Taxonomic Literature. 2nd edition. 7 vols [Regnum Veg.
vols 94, 98, 105, 110, 112, 115, 116].

Stafleu, F.A. & Mennega, E.A. (eds) (1992-). Taxonomic Literature. Supplements [Regnum Veg. vols
125,130,132].

A useful source of verifying names of publications is

<http://asaweb.huh.harvard.edu:8080/databases/publication_index.html>. If m doubt, list full titles.
Other abbreviations and units of measurement. If using standard abbreviations and acronyms, give the
full tenn on first mention. Dates are cited as: 1 Jan 2000. SI (metric) units of measurement are used and
spelled out except when preceded by a numeral; they are abbreviated in standard form: g, ml, km, etc.
Coordinates should be given in the form 1 1°46'44.8"N 109°10'44.5"E.

Tables. Tables are numbered in arabic numerals in the order they are first mentioned in the text and carry
an indicative legend at the head. Tables are given at the end of the manuscript.

Illustrations. All drawings, maps, graphs and photographic images (individually or collected in a plate)
are to be numbered in arabic numerals in the order they are first mentioned in the text, as Fig. 1, Fig. 2,
etc. (plate components would be refened to in the text as Fig. lA, IB, Fig. lA-D, etc.). If relevant, scale
bars should be used to indicate magnification.

When grouping photographs, the maximum page area 19.5 x 13 cm must be heeded. High resolution digital
images may be submitted as separate files (line drawings m black and white at 600 dpi, photographs at
300 dpi) sent electronically or in a CD. Captions on figiu es should be added as a layer so that they can be
further edited or send both captioned and uncaptioned versions. Do not embed images into the main text
file and provide the legends for all figures at the end of the manuscript.

References in the text. Citation in the text should take the form: King & Gamble (1886) or (King &
Gamble, 1886), or King et al. (1886) if more than two authors to a work. Use 2000a, 2000b, etc. if several
papers by the same author(s) in one year are cited.

References listed at the end. There, works mentioned in the text are listed alphabetically as follows:
Dallwitz, M.J., Paine, T.A. & Zurcher, E.J. (1999), User’s Guide to the DEETA Editor, http://
biodiversity.uno.edu/delta/ (accessed on 2 Aug. 2010).

Persson, C. (2000). Phylogeny of Gardenieae (Rubiaceae) based on chloroplast DNA sequences from the
rps 16 intron and //7?L(UAA)-F(GAA) intergenic spacer. Nordic J. Bot. 20: 257-269.

Ridley, H.N. (1930). The Dispersal of Plants Throughout the World. Ashford, U.K.: L. Reeve.

Smith, A.C. & Daivvin, S.P. (1988). Rubiaceae. In: Smith, A.C. (ed) Flora Viliensis Nova, A New Flora
of Fiji 143-193.

References to web-based resources should include either a doi (digital object identifier) specification
or full URL mentioning also the date it was accessed. Use of DNA sequences from GenBank should be
acknowledged and the studies for which the sequences were generated should be cited.

Style of nomenclatural summaries. The following style is required:

Ornithoboea arachnoidea (Diels) Craib, Notes Roy. Bot. Gard. Edinburgh 11: 251 (1920); Burtt, Notes
Roy. Bot. Gard. Edinburgh 22: 294 (1958).

Ornithoboea parishii C.B. Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 148 (1883).

If authors include full bibliographic data for these works in the list of references at the end of the paper,
they should also be mentioned in the text briefly, e.g., “Nomenclatural references researched include
Blume (1849) and Roxburgh (1824).”

Homotypic synonyms should be provided in a block, stating the type at the end.

Front cover picture: Aeschynanthus speciosus (Photo by J. Leong-Skomickova)

The Gardens’ Bulletin

Singapore

VOL. 68(1) 2016 ISSN 0374-7859

CONTENTS

D.J. Middleton

A revision of Aeschynanthus (Gesneriaceae)

in Singapore and Peninsular Malaysia 1

I.M. Turner

Notes on the Annonaceae of the Malay Peninsula 65

K.M. Wong, A.K. Muhammad Ariffin & A.A. Joffre

Novitates Bruneienses, 5. Polyalthia watui (Annonaceae),

a new tree species from Brunei, Borneo 71

D. Girmansyah

Three new species of Begonia (Begoniaceae)

from Sumbawa Island, Indonesia 77

D. Sulistiarini, D. Arifiani & Y. Santika

New records of Orchidaceae from Bali, Indonesia 87

R. Kiew

Olea luzonica (Oleaceae), a new name

for O. obovata from the Philippines 97

T. Phutthai & M. Hughes

A new species and a new record in Begonia sect.
Platycentrum (Begoniaceae) from Thailand

99

J.D. Mood, A.G. Hussain & J.F. Veldkamp

The resurrection of Boesenbergia albosanguinea (Zingiberaceae)
with a new record for Peninsular Thailand

109

J.D. Mood, H.D. Tran, J.F. Veldkamp & L.M. Prince

Boesenbergia siphonantha (Zingiberaceae),
a new record for Thailand and Vietnam

with notes on the molecular phylogeny 125

F. Wen, T.V. Do, X. Hong, S. Maciejewski & Y.G. Wei

Boeica ornithocephalantha (Gesneriaceae),

a new species from northern Vietnam 139

M. Moller, K. Nishii, H. J. Atkins, H.H. Kong, M. Kang,

Y.G. Wei, F. Wen, X. Hong & D.J. Middleton

An expansion of the genus Deinostigma (Gesneriaceae) 145

J.F. Veldkamp

The valid publication of Monolophus (Zingiberaceae) revisited 173

Date of publication: 20 May 2016

Copyright ©

National Parks Board
Singapore Botanic Gardens
1 Cluny Road
Singapore 259569

Printed by Oxford Graphic Printers Pte Ltd

Gardens’ Bulletin Singapore 68(1): 1-63. 2016
doi: 10.3850/S2382581216000016

1

A revision of Aeschynanthus (Gesneriaceae)
in Singapore and Peninsular Malaysia

DJ. Middleton

Herbarium, Singapore Botanic Gardens, National Parks Board,
1 Cluny Road, Singapore 259569
david_middleton@nparks ,gov. sg

ABSTRACT. The genus Aeschynanthus Jack is revised for Singapore and Peninsular Malaysia.
Four species for Singapore and fourteen species for Peninsular Malaysia are recognised, keys
to the species are given, all names are typified, and detailed descriptions of all species are
provided. Conservation assessments are provided for all species. Eleven names are lectotypified
here and one epitype is designated.

Keywords. Conservation assessments, Didymocarpoideae, identification key, lectotypifications

Introduction

Aeschynanthus Jack is a large and variable genus with around 160 species from Sri
Lanka and India through southern China and Southeast Asia to New Guinea and
the Solomon Islands (Weber, 2004; Middleton, 2007). The last complete account of
the genus was by Clarke (1883) who included 64 species. More recently, regional
revisions have been published for China (Wang et ah, 1998), Thailand (Middleton,
2007), Cambodia, Laos and Vietnam (Middleton, 2009), and India (Bhattacharyya &
Goel, 2015). Checklists have been published for Singapore (Turner, 1993; Chong et
ah, 2009), Peninsular Malaysia (Turner, 1 997), Myamnar (Kress et al., 2003), Sulawesi
(Mendum & Atkins, 2003), and Sumatra (Tjitrosoedirdjo et al., 2009). Several of these
checklists are now rather out-of-date due to the discovery of new species and/or due to
the synonymisation of names.

A general background to research on Aeschynanthus was given in Middleton
(2007). For Singapore and Peninsular Malaysia the last comprehensive treatment
was by Ridley (1923), in which 14 species of Aeschynanthus for the Malay Peninsula
were recognised. The checklists for Singapore (Turner, 1993; Chong et ah, 2009) both
included four native species; the checklist for Peninsular Malaysia (Turner, 1997)
included 17 species (one with two varieties).

In preparation for a revision of Gesneriaceae for the Flora of Peninsular
Malaysia the genus has been revised for Peninsular Malaysia and for neighbouring
Singapore. Fourteen species are recognised. All fourteen species are in Peninsular
Malaysia and four of these are also in Singapore. One of the species in Singapore
is presumed extinct there and the other three are considered Critically Endangered
(Chong et al., 2009; Williams, 2014).

2

Gard. Bull. Singapore 68(1) 2016

An infrageneric classification is not followed in this paper pending a more
thorough investigation of the genus using molecular sequence data to compare the
morphological characters. A preliminary study by Denduangboripant et al. (2001)
found that a phylogeny based on ITS data did not reveal monophyletic clades that
corresponded to the existing sections.

All provisional lUCN Conservation Assessments given here, calculated using
the methodology of lUCN (2012), are for the species throughout their range rather
than only for Peninsular Malaysia and/or Singapore. Additional comments are given
under each species when the local situation differs from the global.

Morphological Characters

A more detailed discussion of morphological characters is given in Middleton (2007)
and references given therein. Here is a brief discussion of the range of characters found
in the species in Singapore and Peninsular Malaysia.

All species are epiphytes or occasionally lithophytes. Species such as
Aeschynanthus speciosus Hook., A fulgens Wall, ex R.Br. and A. rhododendron Ridl.
are large with robust stems that arch or hang due to their own weight. Others such as
Aeschynanthus aJbidus (Blume) Steud., A. angustifolius (Blume) Steud., A. fecundus
P. Woods, A. longicaulis Wall, ex R.Br., A. longiflorus (Blume) A.DC., A. obconicus
C.B. Clarke in A.DC. & C.DC. and A. wallichii R.Br. are generally more delicate
and are more pendulous, although usually not loosely hanging (as, for example, is
found in A. gracilis Parish ex C.B.Clarke from Thailand to NE India). Aeschynanthus
dischidiodes (Ridl.) D.J.Middleton has often been reported as growing from ants’ nests
in trees. Aeschynanthus pulcher (Blume) G.Don, A. radicans Jack and probably A.
volubilis Jack either have the habit of the more delicate species previously mentioned,
sometimes with long pendent stems, or creep over tree trunks and branches or rocks,
rooting at the nodes. The erect habit of species such as Aeschynanthus andersonii
C.B.Clarke and A. humilis Hemsl. from Thailand is not found in Singapore or
Peninsular Malaysia.

The leaves of most species are opposite but are always in whorls of three or
more m Aeschynanthus speciosus and A. angustifolius. In Aeschynanthus angustifolius
the leaf blades are extraordinarily variable in shape (see discussion under that species).
In the other species the leaves are generally ovate to elliptic and not particularly
variable in shape and size. In most species the margins are entire but they are distinctly
toothed in Aeschynanthus dischidioides, sometimes slightly so in A. angustifolius, and
strongly undulate in A. speciosus. All species are shortly petiolate and the blades are
mostly coriaceous, more rarely thinner and softer.

The structure of the inflorescence is discussed in Middleton (2007) and references
therein. In Singapore and Peninsular Malaysia all species either lack a peduncle or the
peduncle is so short as to appear absent. The flowers are, therefore, either axillary and
solitary, axillary and appearing fasciculate, or subterminal and clustered. In all species
in Singapore and Peninsular Malaysia the bracts are fairly small, simple and linear.

The calyx consists of five lobes free to the base {Aeschynanthus angustifolius.

Aeschynanthus in Singapore and Peninsular Malaysia

3

A. disch idiocies, A.fecundus, A. longicaulis, A. longiflorus and A. speciosus), or a very
short tube with five long lobes (A. albidus), or of a iiaiTow or somewhat widening tube
that is around half or more of the length of the calyx with either obvious or obscure
lobes at margin {A.fulgens, A. pulcher, A. radicans,A. rhododendron and^. volubilis),
or of an open cup-shaped calyx with obscure lobes at the margin (A. obconicus and^.
wallichii). The colour of the calyx can either be quite fixed within a species (it always
appears to be red in A. obconicus for example) or very variable within a species (dark
purple or red to green in A. pulcher for example). The calyx shape and size is very
variable in a number of species.

The corolla is zygomoiphic, tubular, and weakly to quite strongly curved. The
limb is 2-lipped with the upper lip 2-lobed and the lower lip 3-lobed. Visitation by
animals has not been observed in most species but pollination is assumed to be by
birds for most, possibly all, species (see Middleton (2007) for further discussion). The
corolla is red, orange, yellow or green, or a combination of these colours, in the species
in Singapore and Peninsular Malaysia. Flower colour is highly diagnostic for most
species although is often very subjectively recorded on herbarium specimen labels
when it is described at all.

All Aeschynanthus species are strongly protandrous with the stamens withering
as the style elongates and the stigma enlarges. There are four stamens in two pairs with
the anthers of each pair fused at their tips. In Singapore and Peninsular Malaysia no
species have all four anthers fiised together as is found in Aeschynanthus chiritoides
C.B.Clarke from Vietnam to NE India. The gynoecium consists of the stipe, the
ovary, the style and the stigma. The stipe is short in all species but rather longer in
Aeschynanthus rhododendron. The dimensions given in the descriptions below reflect
the measurements made on specimens to hand. It should be borne in mind though that
the absolute and relative lengths of the parts of the gynoecium are enormously variable
depending on the age of the flower.

The fruit is a long and narrow capsule in all species. Dehiscence is loculicidal.
The basal portion of the capsule, the stipe of the unfertilised gynoecium, lacks seeds
and is generally short except in Aeschynanthus rhododendron where it fonns an
obvious naiTow stalk.

The seeds have been the principal source of characters for earlier infrageneric
classifications of Aeschynanthus (see Middleton (2007) and references cited therein).
The seeds of Aeschynanthus species consist of the seed grain, one apical appendage
and one or more hilar appendages. Seeds with two hilar appendages are not found
anywhere in Malesia (Mendum et al., 2001). The apical appendage points towards the
base of the capsule. In Singapore and Peninsular Malaysia there is one hilar appendage
in Aeschynanthus angustifolius, A. fulgens, A. longiflorus, A. obconicus, A. pulcher,
A. radicans, A. rhododendron, A. speciosus, A. volubilis and A. wallichii and three or
more hilar appendages in A. albidus, A. dischidioides, A. fecundus and^^. longicaulis.
Of those with only one hilar appendage, the appendage is long and filifoim in all
species except Aeschynanthus rhododendron where it is short and stout. In a number
of species there is a curious cluster of inflated cells, termed bubble cells, at the hilar
end of the seed. These are found in A. obconicus, A. pulcher, A. radicans, A. volubilis
and A. wallichii.

4

Card. Bull. Singapore 68(1) 2016

Materials studied

Herbarium material was studied from the following herbaria: A, AAU, BISH, BKF,
BM, C, CGE, E, FI, G, G-DC, K, KEP, KLU, K-W, L, LAE, M, MEL, MICH, NY, P,
PSU, SING, SINU, TI, U, UKMB, US (herbarium codes from Thiers (continuously
updated)). All specimens cited have been seen unless otherwise indicated with nv. A
single standardised name is given for those collectors whose name appears in more
than one fonu, including when abbreviated to initials, on different collections.

The dimensions given in the descriptions are for dried material for vegetative
characters and rehydrated or fresh material for floral characters. Dimensions given
closely resemble those given in Middleton (2007) for some of the taxa due to the
paucity of material collected since and because Malaysian material was used in the
Thai descriptions when the Thai material was insufficient (as it was for several taxa).

The vegetation types given in the Habitat and Ecology sections below follow
notes on the specimens and observations in the field using the vegetation classification
of Saw (2010).

Aeschynanthus Jack

Trans. Linn. Soc. London 14: 42 (1823); C.B.Clarke inA.DC. & C.DC., Monogr. Phan.
5(1): 18 (1883); Ridley, FI. Malay Penins. 2: 496 (1923); Wang, FI. Reipubl. Popularis
Sin. 69: 498 (1990); Middleton, Edinburgh J. Botany 64: 368 (2007); Middleton,
Edinburgh J. Botany 66: 393 (2009). - TYPE: Aeschynanthus volubilis Jack.

Trichosporum D.Don, Edinburgh Philos. J. 7: 82 (1822), nom. rej; Blume, Bijdr.
FI. Ned. Ind. (1826). - TYPE: Trichosporum paniflorum D.Don {= Aeschynanthus
parviflorus (D.Don) Spreng.), lectotype designated by Middleton (2007).

Rheitrophyllum Hassk., Flora 25 (2): beibl. 56 (1842). - TYPE: Rheitrophyllum
subverticillatum Hassk. (= Aeschynanthus angustifolius (Blume) Steud.).

Oxychlamys Schltr., Bot. Jahrb. Syst. 58: 286 (1923). - TYPE: Oxychlamys pullei
Schltr. {= Aeschynanthus oxychlamys Mendum)

Euthamnus Schltr., Bot. Jahrb. Syst. 58: 284 (1923). - TYPE: Euthamnus papuanus
Schltr. {= Aeschynanthus papuanus (Schltr.) B.L.Burtt)

Micraeschynanthus Ridl., FI. Malay Penin. 5 : 324 ( 1 925). - TYPE: Micr aeschynanthus
dischidioides Ridl. (= Aeschynanthus dischidioides (Ridl.) D. J.Middleton)

Epiphytic herbs or subshrubs with erect, arching or pendulous stems, these sometimes
rooting along their lengths when in contact with a suitable substrate. Leaves opposite or
verticillate, pedicellate; blades coriaceous to distinctly fleshy, more rarely herbaceous.

Aeschynanthus in Singapore and Peninsular Malaysia

5

simple, margins entire to weakly crenate or weakly dentate, sometimes somewhat
undulate, venation pinnate but more often than not obscure. Inflorescence an axillary
few-flowered cyme, or flowers solitaiy in the axils of leaves, or a pseudoterminal
cluster. Flowers strongly protandrous. Calyx of 5 sepals, these free or variously fused
into a tube for part or most of length, when fused the whole tubular or cup-shaped.
Corolla zygomorphic, tubular, widening towards lobes, curved to various degrees,
sometimes distinctly inflated at the base, glabrous to variously pubescent outside and
inside; with 5 lobes, these consisting of a 2-lobed upper lip, 2 lateral lobes and a lower
lobe; very variable in colour but most frequently red, orange, yellow or green (or
combination of these) and then often with other darker or lighter patterning. Stamens
4, in 2 pairs, attached to the inside of the corolla tube and occupying the space in
the upper curve of the flowers, included or exserted from corolla tube when mature;
vestigial staminode present; anthers of each pair attached by their apices (occasionally
all 4 attached together outside this region). Disk present, annular to dentate. Pistil
developing as filaments wither and reflex downwards and also occupying the space in
the upper curve of the corolla tube, consisting of a sterile stipe at the base, the fertile
ovary section, the style and the peltate stigma; ovules many, anatropous. Fruit a long
naiTow capsule which opens loculicidally by two valves. Seeds many, tiny, with short
to long appendages at both ends.

About 160 species from India and southern China through Southeast Asia and Malesia
to the Solomon Islands. Fourteen species in Peninsular Malaysia, four species in
Singapore (of which one is considered to be nationally extinct).

Key to Aeschynanthus species recorded from Singapore

1 a. Corolla predominantly green or yellowish, inside with coarse multicellular hairs;

seeds with many hairs at one end \.A. albidus

lb. Corolla red, inside without coarse multicellular hairs; seeds with only 1 hair at
each end 2

2a. Calyx < 7 mm long, in a wide and shallow cup or saucer, much wider at apex than

at base 14. wallichii

2b. Calyx >10 mm long, tube mostly parallel to corolla tube, apex not much wider
than base 3

3 a. Ovary, stipe and style densely pubescent; leaves pubescent beneath

10. A. radicans

3b. Ovary with sessile glands, only stipe and style pubescent; leaves usually glabrous,
more rarely sparsely pubescent beneath 9. A. pulcher

6

Gard. Bull. Singapore 68(1) 2016

Key to Aeschynanthus species recorded from Peninsular Malaysia

1 a. Leaves in whorls of 3 or more 2

lb. Leaves opposite 3

2a. Corolla predominantly green to yellow, 18-25 mm long; leaves extremely

variable from ovate to linear, 1.7-43 times as long as wide

2. A. angustifolius

2b. Corolla predominantly red and orange, 54-1 1 8 mm long; leaves ovate to elliptic,

never linear, 2.3-6. 1 times as long as wide 12.4. speciosus

3a. Inside of corolla tube with dense multicellular hairs towards base, often in tufts;
leaves sometimes conspicuously variegated; corolla at least in part green, yellow

or yellowish green; seeds with > 2 hairs at hilar end 4

3b. Inside of corolla tube without dense multicellular hairs towards base; leaves not
conspicuously variegated; corolla entirely red or orange, red/orange and yellow,
or a combination of colours but never green; seeds with 1 hair at hilar end 7

4a. Calyx fused into a short tube at base 1.4. albidus

4b. Calyx lobes free to base 5

5a. Leaves not variegated, 1-2.4 times as long as wide, margin often distinctly dentate

3.4. dischidioides

5b. Leaves variegated, 1.7-9 times as long as wide, margin entire or very minutely

and obscurely dentate 6

6a. Corolla predominantly green, 20.5-31 mm long; stamens exserted from corolla

tube 7.4. longicaulis

6b. Corolla red in upper third and on lobes, 14.5-19 mm long; stamens not exserted
from corolla tube 4. A.fecundus

Idi. Calyx lobes free to base 6. 4. longiflorus

7b. Calyx fused into a tube for part or most of length 8

8a. Calyx in a wide cup, very much wider at apex than at base, lobes often barely
discemable but if obvious then much wider than long; seeds with bubble cells ....

9

8b. Calyx tube clasping corolla tube or only gently ftaring from base, lobes usually
easily discemable, either wider than long or longer than wide; seeds with or

without bubble cells 10

9a. Calyx red, 8-19 mm long 8. 4. obconicus

9b. Calyx green, 2. 5-6. 5 mm long 14. 4. wallichii

Aeschynanthus in Singapore and Peninsular Malaysia

7

10a. Calyx lobes usually longer than wide, apex acute to acuminate (tips of lobes
sometimes rounded); seeds without bubble cells 11

10b. Calyx lobes usually wider than long, apex rounded; seeds with bubble cells ... 12

lla. Stamens not or barely exserted from corolla tube; corolla lobes spreading or

reflexed 11.^. rhododendron

llb. Stamens strongly exserted from corolla tube; corolla lobes not reflexed,

occasionally slightly spreading 5. A. fulgens

12a. Corolla 19.5-27 mm long 13. ^4. volubilis

12b. Corolla 42-66 mm long 13

13a. Ovary, stipe and style densely pubescent; leaves sparsely to densely pubemlent
beneath 1 0 . ^4. radicans

1 3b. Ovary with sessile glands, only stipe and style pubescent; leaves usually glabrous,
more rarely sparsely puberulent beneath 9. A. pulcher

Aeschynanthus albidus (Blume) Steud., Nomencl. Bot. ed. 2 1: 32 (1840); A.DC.,
Prod. 9: 262 (1845); Bakhuizen van den Brink, Blumea 6: 395 (1950); Backer &
Bakliuizen van den Brink, FI. Java 2: 523 (1965); Burtt & Woods, Notes Roy. Bot.
Card. Edinburgh 33: 479 (1975); Turner, Card. Bull. Singapore 47: 243 (1997
[‘1995’]); Lok & Tan, Nat. Singapore 1: 5 (2008). - Bignonia albida Blume, Verh.
Batav. Genootsch. Kunsten 9: 195 (1823). - Trichosporum albidum (Blume) Nees,
Flora 8: 144 (1825). - Lysionotus albidus (Blume) Blume, Bijdr. FI. Ned. Ind. 765
(1826). - Aeschynanthus purpurascens Hassk., Cat. Hort. Bot. Bogor. 154 (1844),
nom. illegit; Hooker, Bot. Mag. 72: T.4236 (1846); Miquel, FI. Ned. Ind. 2: 717 (1858);
C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 37 (1883); Ridley, FI. Mai. Pen.
2: 497 (1923); Henderson, Malay. Wild. FI. Dicot. 340 (1959); Turner, Gard. Bull.
Singapore 45: 92 (1993). - TYPE: Indonesia, Java, Jawa Barat, Gunung Salak, Blume,
C.L. s.n. (lectotype L [L0003309], designated here). (Fig. 1, 2)

1 Aeschynanthus atropurpureus Van Houtte, Hort. Vanhoutt. 1(2): 42 (1846); Miquel,
FI. Ned. Ind. 2: 718 (1858). - TYPE: Not known. No original material known but
Miquel’s later description is speciflc enough to identify the taxon and it has long been
placed in synonymy of Aeschynanthus albidus by other authors.

Aeschynanthus discolor T.yiooxQ, Paxton’s FI. Gard. 3: 55 (1852). - TYPE: Not found.
Synonymy based on detailed description given in protologue.

Aeschynanthus motleyi C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 20 (1883);
Ridley, J. Linn. Soc. Bot. 32: 500 (1896); Ridley, J. Straits Branch Roy. Asiat. Soc.
44: 12 (1905); Ridley, J. Asiat Soc. Bengal, Pt. 2, Nat. Hist 74(2): 732 (1909). -
Trichosporum motleyi (C.B.Clarke) Kuntze, Revis. Gen. PI. 478 (1891). - TYPE:

8

Gard. Bull. Singapore 68(1) 2016

Indonesia, Kalimantan, Kalimantan Selatan, Banjarmasin, Motley, J. 916 (lectotype K
[K000831891], effectively designated by Burtt & Woods (1975)).

Aeschynanthus motleyi van sumatrensis C.B. Clarke in A.DC. & C.DC., Monogr.
Phan. 5(1): 20 (1883). - TYPE: Indonesia, Sumatra, Sumatera Barat, Padang, Ayer
Mancior, Beccari, O. 823 (lectotype K [K000831892], designated here; isolectotypes
BM [BM000537118], FI [FI013073], K [K000831893], L [L0281671], MEL).

Aeschynanthus fraserianus KraenzL, J. Linn. Soc. Bot. 37: 284 (1906). - Trichosporum
fraserianum (KraenzL) Merr., J. Straits Branch Roy. Asiat. Soc. special number:
530 (1921). - TYPE: Indonesia, Kalimantan, Marisinsing, Fraser 268 (holotype K
[K000831890]).

Epiphyte with stems upright, arching or pendulous; stems green flushed purple,
glabrous. Leaves opposite; petiole 3-13 mm long, purple, glabrous; blade slightly fleshy
or coriaceous, obovate, elliptic or ovate, above green and sometimes with paler green
or yellow mottling, beneath green with purple-red mottling or completely purple-red,
2.3-13.7 X 1. 1-5.5 cm, 1. 5-9.4 times as long as wide, apex acuminate, base rounded
to cuneate, glabrous above and beneath, margin vei'y weakly crenate, c, 3 pairs of
secondary veins, obscure or weakly visible, tertiary venation obscure. Inflorescence
subterminal or axillary, 1-5-flowered; peduncle c. 1 mm long; pedicels 7-10 mm long,
glabrous. Calyx with a short tube at base, lobes free, tube clasping corolla tube at base,
often slightly narrower at apex, green, green flushed with purple or red or entirely
reddish, glabrous or sparsely eglandular pubemlent, total length 14-30 mm long; tube
2-8.5 mm long which is 14-39% of total length, 3-6.5 mm wide at top of tube; lobes
linear or naiTOwly triangular, slightly spreading or erect, 10.5-22 x 1-3.5 mm, apex
acuminate. Corolla 1 6-29 mm long, tube broad at base, slightly curved, externally
green or greenish yellow, lobes green or green with faint purple central lines, internally
green, lobes green with red speckling or with dark purple chevrons and lines; upper
lobes orbicular, not spreading or reflexed, 2.2-3. 1 x 2. 6-3. 5 mm, sinus 2.5-3 nmi deep,
apex rounded; lateral lobes orbicular, slightly spreading or not, 2. 1-2.9 x 2. 9-4. 5 mm,
apex rounded; lower lobe ovate or orbicular, slightly spreading, 2. 7-3. 5 x 2. 5-2, 8 mm,
apex rounded; glabrous except for ciliate lobes, inside with five tufts of multicellular
hairs near base, sometimes with some additional multicellular hairs higher up, sessile
glands present at top of tube. Stamens long exserted, fused in 2 pairs; filaments cream
or green, glandular pubescent, anthers pink; anterior filaments inserted at 9-14.5 mm
from corolla base which is 48-53% of corolla length, filaments 21.5-23.5 mm long,
anthers 2. 7-3.2 x 0.8-1 .3 mm; posterior filaments inserted at 9.5-14 mm from corolla
base which is 50-58% of corolla length, filaments 19-20.5 mm long, anthers 1.2-2. 3
X 0. 7-1.1 mm; staminode 0.7-1. 6 mm long. Disk 1.2-1. 5 mm high, 5-crenate. Pistil
16-26 mm long; stipe c. 2-3 mm long, with sessile glands; ovary 7-12 mm long, with
sessile glands; style cream or green, 8-12 mm long, glandular puberulent; stigma pale
red, 2 mm across. Capsule 11.5-40 cm long, 2.5^ mm wide. Seed grain 1.5 - 2.4 x
0.4-0. 5 mm, warty, bubble cells absent; apical appendage a filiform hair, 13-21 mm

Aeschynanthus in Singapore and Peninsular Malaysia

9

Fig. 1. A. Aeschynanthus albidus (Blume) Steud. B. Aeschynanthus fecundus P. Woods. C.
Aeschynanthus fulgens Wall, ex R.Br. (Photos: A, Saw Leng Guan; B-C, David Middleton)

long; hilar appendages of many (30-40) filiform hairs, 14-19 mm long; appendages
papillose.

Distribution. Peninsular Malaysia (Johor, Kelantan, Pahang, Perak, Selangor,

10

Gard. Bull. Singapore 68(1) 2016

Fig. 2. Distribution of Aeschynanthus albidus (Blume) Steud. in Singapore and Peninsular
Malaysia (•).

Terengganu), Singapore, Sumatra, Java, Borneo.

Habitat and ecology. In lowland mixed dipterocarp forest, sometimes by streams, or in
lower montane forest at 20-1440 m altitude (to 1520 m on Mt Kinabalu).

Provisional lUCN conservation assessment. Least Concern (LC). This species is
widespread and locally fairly common. In Peninsular Malaysia it has been collected
over a fairly wide area in the last 20 years. In Singapore it is listed as nationally Critically
Endangered by Chong et al. (2009). Although it was fonnerly more widespread it is
now known in Singapore only in Nee Soon swamp forest.

Singaporean and Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA:
Johor: Gunong [Gunung] Ledang VJR, 19 Aug 1974, Kochummen, K.M. FRI 16796 (K, KEP,
SING); Lenggor Forest Reserve, Jong, K. 9017 (KLU); Batu Pahat, Nov 1891, Nongchi 8

Aeschynanthus in Singapore and Peninsular Malaysia

11

(SING); Kota Tinggi, 1 Oct 1929, Teruya, Z. 951 (SING); Bekok, Sungei Bekok, 7 Mar 1971,
Heaslett, E.A. s.n. (SING); Kelantan: Kuala Aring, 7 Sep 1899, Yapp, R.H. 161 (CGE, K);
Sungai Keteh, 6 Feb 1924, Md Nur & Foxworthy, FW 11963 (SING); Gua Musang, Lojing
FR, 860 m, 27 Apr 201 1, Mohd Hairul, M.A., Sid Munirah, M. Y. & Mohd Nazri, A. FRI72324
(KEP); Pahang: Jalan Bentong bt. 18, 13 Sep 1973, MK & AR 1321 (L, UKMB); Fraser’s Hill,
700 m, 10 Mar 1995, Chin, S.C. et al 4533 (SING); Pulau Manis, Jul 1 891, Ridley, H.N. 2151
(SING); Sabai Estate near Bentong, 26 Jan 1958, Shah, M. 155 (K, L, SING); Kuala Lipis, 22
Nov 1 924, Burkill, H.M. & Md Haniff 1 5750 (SING); Pulau Tioinan, Kpg. Juara, 371 m, 25 Apr
2012, Saw, L.G. & Mohd Hairul, M.A. FRI48326 (E, KEP); Perak: Gopeng, 150-240 m, Jun
1883, Kunstler, H. 4463 (NY, SING); Dipang, Mar 1885, Scortechini, B. 1815 (SING); Kurau,
Wray, L. 4245 (SING); Taiping, Gunung Hijau, 1440 m, 19 Mar 2007, Julius, A. FR153313
(E, KEP); Taiping, Bukit Larut, Jun 1893, Ridley, H.N. s.n. (SING); Kuala Kangsar, Bubu
FR, Gunung Bubu, 12 Mai* 2010, Julius, A., Coode, M.J.E. & Angan, A. FR157691 (KEP);
Selangor: Genting Highlands, Ulu Gombak, 8 Apr 1921, Hume, H.L. 9596 (SING); ibidem, 16
Apr 1921, Hume, HE. 9772 (SING); 17 mile Ulu Gombak, 26 Oct 1937, MdNur SFN34254
(SING); Terengganu: Gunong [Gunung] Lawit, Old trail along Sungai Kamiah, 300-610 m, 1
Apr 1970, Davidson, C. 1292 (L).

SINGAPORE: s.I, 1894, Ridley, HN. s.n. (SING); Seletar, 1894, Ridley, H.N. 6244 (SING);
ibidem, 3 Sep 1889, Ridley, H.N s.n. (SING); Bukit Mandai, Mar 1890, Ridley, H.N. s.n.
(SING); Chan Chu Kang, Jul 1891, Ridley, H.N. s.n. (SING); ibidem, 1892, Ridley, HN. s.n.
(SING); Teban, 17 May 1891, Goodenough, J.S. s.n. (SING); Krangi [Kranji], 1894, Ridley,
H.N. s.n. (SING); Nee Soon Swamp Forest, 22 Nov 2007, Ng, HH. & Lok, A.F.S. L. s.n. (SINU);
Nee Soon Swamp Forest, 25 Mar 2015, Lua, H.K. & Ibrahim, H. S1NG201 5-084 (SING).

Notes. A very variable species, particularly in the size and relative dimensions of the
calyx.

Burtt & Woods (1975) gave the type as “Type: cult. Hort. Bogor (L?)”.
However, in the proto logue two collections are mentioned, one from “Tjoo” and one
from “Salak”, There is no mention of cultivated material from Bogor so the material
designated as type by Burtt & Woods (1975) cannot be considered original material. A
Blume collection from Salak is, therefore, here chosen as lectotype.

This species has generally been called Aeschynanthus purpurascens or, less
frequently, A. motley i^ in the literature from the Malay Peninsula. Aeschynanthus
purpurascens is an illegitimate name as Aeschynanthus albidus and several other
earlier combinations are included m synonymy. Aeschynanthus motley was described
from Borneo but the Peninsular Malaysia, Borneo, Sumatra and Java material cannot
be distinguished.

2. Aeschynanthus angustifolius (Blume) Steud., NomencL Bot. ed. 2 1: 32 (1840);
A.DC., Prod. 9: 262 (1845); Miquel, FI. Ned. Ind. 2: 716 (1858); C.B.Clarke inA.DC.
& C.DC., Monogr. Phan. 5(1): 38 (1883); Bakhuizen van den Brink, Blumea 6: 395
(1950); Backer & Bakliuizen van den Brink, FI. Java 2: 524 (1965); Woods, Kew Mag.
8(1): 22 (1991); Turner, Gard. Bull. Singapore 47(1): 243 (1997 [A995']). - Bignonia
angustifolia Blume, Catalogus 82 (1823). - Trichosporum angustifolium (Blume)
Nees, Flora 8: 144 (1825). - Lysionotus angustifolius (Blume) Blume, Bijdr. FI. Ned.

12

Gard. Bull. Singapore 68(1) 2016

Ind. 765 (1826). - TYPE: Indonesia, Java, Jawa Barat, Bogor, Reinwardt, C.G.C. s.n.
(lectotype L, designated here). (Fig. 3, 4)

Rheitrophyllum subverticillatum Hassk., Flora 25(2): beibl. 56 (1842). - TYPE: Java,
Bogor Botanic Garden, 21 August 1840, Hasskarl s.n. (not traced). Although the type
has not been traced the description of the leaves in the protologue is suitably diagnostic
to be certain that it is this taxon.

Aeschynanthus tetraquetrus C.B. Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 38
(1883). - Trichosporum tetraquetrum (C.B. Clarke) Kuntze, Revis. Gen. PI. 478 (1 891).
-TYPE: Indonesia, Sumatra, Sumatera Barat, Gunung Singgalan, 1700 m, Beccari, O.
s.n. (lectotype FI [F1013076], designated here; isolectotypes FI [FI013075], K).

Aeschynanthus stenophyllus Ridl., J. Asiat. Soc. Bengal 74 (2): 733 (1909); Ridley, FI.
Mai. Pen. 2: 498 (1923). - Trichosporum stenophyllum (Ridl.) Merr., Contr. Arnold
Arbor. 8: 152 (1934). - TYPE: Peninsular Malaysia, Perak, Goping [Gopeng], Kinta,
150-240 m, August 1883, Kings Collector 4738 (lectotype SING [SING0035634],
designated by Woods (1991); isolectotype K).

Trichosporum ternifolium Merr., Contr. Arnold Arbor. 8: 153 (1934). - TYPE:
Indonesia, Sumatra, in ravines between Baboeli and Paekas, 1200 m, 9 January
1932, Bangham, W.N. & Bangham, C.M. 781 (holotype A [A00261780]; isotype NY
[NY003 13032]).

Epiphyte with pendulous or arching stems; stems glabrous. Leaves verticillate in
whorls of 3-7, rarely opposite; petiole 1-6 mm long, glabrous; blade coriaceous or
slightly fleshy, ovate or elliptic to linear, 1-8.6 x 0.15-1.7 cm, 1.7^3 times as long as
wide (see note below), apex obtuse to acuminate, base cuneate, mid green above, paler
beneath, not variegated, glabrous above and beneath, margin weakly and distantly
dentate or entire, secondaiy veins obscure, tertiary veins obscure. Flowers solitary
in the axils of leaves, bracts minute; pedicels 9.5-10 mm long, glabrous. Calyx of
separate lobes free to base, green, glabrous except with very few hairs at tips of lobes;
lobes nan*owly triangular, 1. 5-4.2 x o. 7-0.9 mm, apex acute, glabrous. Corolla 18-25
mm long, tube fairly narrow, slightly wider at base, fairly straight, curved at apex,
externally yellowish to yellowish green to green, margins of lobes reddish brown,
internally yellowish green, reddish brown on margins of lobes and speckled on inner
lobes; upper lobes oblong, not spreading or reflexed, 2.2-3. 8 x 2.2-3. 2 mm, sinus 2.6-
2.8 mm deep, apex rounded; lateral lobes oblong, not spreading or reflexed, 3. 5-4. 3 x
3-3.2 mm, apex rounded; lower lobe oblong, slightly spreading, 3.5-6 x 2.5-4 mm,
apex rounded; tube and outside of lobes minutely glandular puberulent, lobes ciliate,
inside of lobes and tube with scattered short glandular hairs. Stamens shortly exserted,
fused in 2 pairs; filaments glandular pubescent; anterior filaments inserted at 11-15
mm from corolla base which is 61-65% of corolla length, filaments 10-12 mm long,
anthers 1.2-1. 5 x 0.8-0. 9 mm; posterior filaments inserted at 12-16 mm from corolla

Aeschynanthus in Singapore and Peninsular Malaysia

13

Fig. 3. Aeschynanthus angustifolius (Blume) Steud. A. Habit with yellow-flowered form. B.
Habit with green-flowered form. C. Flower disseetion with three ealyx lobes removed. D.
Flowers from the front showing stamens in two pairs and developing style and stigma in the
flower on the left and a more developed style and the stamens beginning to wither and reflex in

V

the flower on the right. (Photos: A, David Middleton; B-D, Jana Leong-Skornickova)

14

Gard. Bull. Singapore 68(1) 2016

Fig. 4. Distribution of Aeschynanthus angustifoHus (Blume) Steud in Peninsular Malaysia (•).

base which is 67-73% of corolla length, filaments 8.5-9 mm long, anthers 0.8-1. 2
X 0. 6-0.7 mm; staminode c. 0.5 mm long. Disk 1.2-1. 5 mm high, margin 5-crenate.
Pistil 28-30 mm long, pale green; stipe 5-6 mm long, with sparse sessile glands; ovary
8-9 nmi long, with sparse sessile glands; style c. 15 mm long, with short glandular
hairs. Capsule 13-30 cm long, 2.4-3. 3 mm wide. Seed grain 1.6-1. 9 x 0.3 mm, bubble
cells absent; apical appendage a filiform hair 44-50 mm long; hilar appendage a single
filiform hair, 28-30 mm long.

Distribution. Peninsular Malaysia (Johor, Pahang, Terengganu), Sumatra, Java, Borneo.

Habitat and ecology. Primary or secondary lowland to lower montane forest. In
Peninsular Malaysia recorded from 150-1390 m altitude and in Sumatra recorded up
to 1700 m.

Aeschynanthus in Singapore and Peninsular Malaysia

15

Provisional lUCN conservation assessment. Data Deficient (DD). The ECO and AOO
for this species using the existing collections would suggest an assessment of Least
Concern. However, all of the collections I have seen of this species collected in the
last 20 years have been made only in Borneo over a range that would suggest Near
Threatened. 1 have seen no collections from Peninsular Malaysia made since 1930 and
its current status there is uncertain. It has never been collected in Singapore.

Additional Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA: Johor:
Sedenak, Nov 1909, Md Nur s.n. (SING); ibidem, 1909, Ridley, H.N. s.n. (SING); Pahang:
Cameron Highlands, 1390 m, 1 Apr 1930, Henderson, M.R. s.n. (NY); Terengganu: Kuala
Berang, 14 May 1925, Holttum, R.E. 15312 (K, SING).

Notes. Leaf characters are extremely variable within this species even though most
material does show linear leaves > 7 times as long as wide. Wide variation occurs even
within individuals as was previously commented upon by Woods (1991). For example,
Poulsen et al. 1566 (KEP) from Long Maga, Ulu Padas, Sabah, has leaves from 1 .7-30
times as long as wide on a single branch. In this case there appear to have been two
distinct phases of growth with older, shorter and wider leaves on the older part of the
branch and then a new flush of growth with linear leaves on the younger part of the
branch.

This species has been described as several different species from the different
parts of its range due to differences in corolla colour and leaf shape but there are no
clear discontinuities in these characters across its range.

3. Aeschynanthus dischidioides (Ridl.) D.J.Middleton, Edinburgh J. Bot. 64: 425
(2007). - Micraeschynanthus dischidioides Ridl., FI. Malay Penin. 5: 325 (1925).
- TYPE: Peninsular Malaysia, Pahang, Gunung Tahan, 1670 m, Ridley, H.N. 16122
(lectotype K, designated by Middleton (2007); isolectotype SING [SING0089714]).
(Fig. 5, 6)

Aeschynanthus myrmecophilus P. Woods, Notes Roy. Bot. Gard. Edinburgh 33: 483
(1975); Turner, Gard. Bull. Singapore 47(1): 243 (1997 [‘1995’]). - TYPE: Peninsular
Malaysia, Pahang, Cameron Highlands, Robinson’s Falls, 1500 m, 16 April 1968,
Woods, P.J.B. d/d(holotype E [E00062778]).

Aeschynanthus hildebrandii auct. non Hemsl. ex Hook.f : Ridley, J. Linn. Soc, Bot.
32: 502 (1896); Ridley, J. Straits Branch Roy. Asiat. Soc. 44: 15 (1905); Ridley, J.
Asiat. Soc. Bengal 74(2): 734 (1909); Ridley, FI. Mai. Pen. 2: 499 (1923).

Epiphyte, often rooted in ants nests, with stems hanging; stems sparsely puberulent
or glabrous. Leaves opposite (although sometimes appearing whorled due to vei 7
short intemodes); petiole 1-3 mm long, purple, glabrous; blade thickly coriaceous,
green edged with puiple above, not variegated, green to reddish puiple beneath, ovate

16

Gard. Bull. Singapore 68(1) 2016

or orbicular, 0. 7-2.4 cm long, 0. 6-2.6 cm wide, 1-2.4 times as long as wide, apex
rounded to acuminate, base rounded or subcordate, glabrous above and beneath, not
punctate beneath, margin dentate or entire, undulate or not, secondary veins obscure,
tertiary veins obscure. Inflorescence axillary or terminal, 1-6-flowered; pedicels 8.5-
16 mm long, green or puiple, with sparse and minute hairs, smaller ones more or less
papillae, hairs (papillae) green or red in life. Calyx of separate lobes free to base,
green, with sparse and minute hairs; lobes narrowly ovate or narrowly triangular, erect,
2-6.5 X 0.6-1. 6 mm, apex acute. Corolla 1 1-25 mm long, tube broad for all of length,
slightly to strongly curved, outside of tube yellow to yellow-orange for most of length
and then abruptly turning to dark orange or red on top of tube and lobes, sometimes
only on lobes, inside of tube yellow, lobes dark red to orange-red at margin and yellow
at base with dark bands on lower 3 lobes, outside sparsely puberulent, denser on
ciliate lobes, inside with a ring of robust multicellular hairs in lower half; upper lobes
oblong, not spreading or reflexed, conspicuously shorter than neighbouring lateral
lobes, 2.6^ X 2. 5^. 8 mm, sinus 3.2-4 .2 mm deep, apex rounded; lateral lobes ovate
or oblong, not spreading or reflexed, 3.6-6 x 2. 9-5. 5 mm, apex rounded, truncate or
retuse; lower lobe oblong, not spreading or reflexed, 4.9-6 x 3-5.8 mm, apex rounded
to truncate. Stamens clearly exserted, fused in 2 pairs; filaments various shades of
green to red, posterior pair glandular hairy at apex and papillose at base, anterior pair
only papillose, anthers grey; anterior filaments inserted at 8-1 1 mm from corolla base
which is 44-62% of corolla length, filaments 12-16 mm long, anthers 1.4-2 x 0.6-1. 2
mm; posterior filaments inserted at 9.5-11.5 mm from corolla base which is 48-69%
of corolla length, filaments 10.5-13 mm long, anthers 1. 1-1.6 x 0.5-1 mm; staminode
0.7-1 mm long. Disk 1 .2-1 .5 mm high, 5-dentate. Pistil 21-24 mm long; stipe 2.5-3. 5
mm long, glabrous or with sparse sessile glands; ovary green, 6-6.5 mm long, with
sessile glands, these sometimes sparse; style 13-14 mm long, glandular pubescent.
Capsule 8-24 cm long, 2.7-3 mm wide. Seed grain 1.2-1 .6 x 0. 3-0.4 mm, warty,
bubble cells absent; apical appendage a filifonn hair,. 10-50 mm long; hilar appendage
of 3-6 filifonn hairs, 17-30 mm long.

Distribution. Endemic in Peninsular Malaysia (Pahang, Perak, Selangor).

Habitat and ecology. In lower montane forest at 1100-2000 m altitude, often growing
in ant gardens associated with Lecanopteris or Dischidia.

Provisional lUCN consen’ation assessment. Vulnerable (VU Blab(iii)). The known
EOO is around 15,000 km^ (but see note below) and the locations where it occurs are
disturbed by fanning, plantations and tourism.

Additional Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA:
Pahang: Cameron Highlands, 1390 m, 1 Apr 1930, Henderson, M.R. s.n. (NY, SING); ibidem,
9 Mar 1947, Smith, J.W. 63690 (KEP, SRJG); ibidem, 14 Oct 1929, Symington, C.F. 20938
(KEP); ibidem, 1976, Anthony, S. SA230 (KEP); Cameron Highlands, Along route no. 7 to G.
Beremban, 1500 m, 3 Mar 1994, Perumal, B., Gan, C.L., Shahril, K.Z., Angan, A. & Bedul
FRI41631 (KEP, KLU); Cameron Highlands, Gedung FR, Near Sg. Ichat tea plantation, 1365

Aeschynanthus in Singapore and Peninsular Malaysia

17

Fig. 5. Aeschynanthus dischidioides (Ridl.) D.J.Middleton. A. Habit. B. Flower dissection
showing multicellular hairs in corolla tube and undeveloped style after two calyx lobes
removed. C. Flower from below with stamens fused in two pairs. D. flower, side view. (Photos:
A, David Middleton; B-D, Jana Leong-Skomickova)

18

Gard. Bull. Singapore 68(1) 2016

Fig. 6. Distribution of Aeschynanthus dischidioides (Ridl.) DJ.Middleton in Peninsular
Malaysia (•).

m, 19 Feb 2008, Syahida-Emiza & Chew, M.Y. FRI57277 (KEP); Cameron Highlands, G. Jasar,
9 Aug 2008, Rosdi, M. & Phoon, S.N. et al. FRI59S72 (KEP); Cameron Highlands, Gunung
Batu Berinchang, Kpg. Melayu Brinchang, 22 Feb 2012, Imin, K. & Syahida-Emiza FRI76065
(KEP); Cameron Highlands, Gunung Batu Berinchang, 2000 m, 20 Jun 1975, Van Balgooy,
M.M.J. 2658 (E, L); Cameron Highlands, Boh Tea Estate, 29 Apr 1937, Md Nur SFN32980
(SING); ibidem, 28 Jul 1991, Kiew, R. RK3241 (SING); Cameron Highlands, Tanah Rata,
18 Aug 1986, Weber. A. s.n. (KEP); ibidem, 1440 m, 9 Sep 1956, Burkill H.M HMB868
(SING); Cameron Highlands, Tanah Rata, Parit Waterfall, 1457 m, 26 Sep 2012, Imin, K, et al.
FRI77536 (E, KEP, SING); Cameron Highlands, Tanah Rata, Jin Tenkolok, 1489 m, 23 Feb
2012, Imin, K. & Syahida-Emiza FRI76073 (KEP); Cameron Highlands, Robinson’s Falls, 5
Apr 2006, Kiew, R. RK5307 (SING); Cameron Highlands, en route from Robinson Waterfall
to Boh tea plantation, 600-1100 m, 29 Aug 1990, Okada, H., Darnaedi, D., Akiyama, H.,
Kawahara, T & Watano, Y. 7 Ddt) (TI); Taman Negara, 1 100-1530 m, 18 Aug \990, Darnaedi,
D., Akiyama, H., Kawahara, T. & Khairuddin, K 566 (TI); Taman Negara, Kem Bonsai,
From Kem Bonsai to Kem Belumut, 1985 m, 8 May 2008, Yao, T.L. FRI65302 (E, KEP);

Aeschynanthus in Singapore and Peninsular Malaysia

19

Taman Negara, Gunung Tahan, 1820ni, 1 Sep 1928, Holttum, R.E. s.n. (SING); ibidem, 7 Jul
1905, Wray, L. & Robinson, H.C. 5483 (BM, K, SING); ibidem, Jul 1911, Ridley, H.N. s.n.
(SING); Gunung Tahan, Foot of Gunung Gedong, 1520 m, 3 Sep 1928, Holttum, R.E. 20772
(SING); Gunung Tahan, Skeats Hill, Jul 1911, Ridley, H.N. s.n. (SING); Fraser’s Hill, Pine tree
hill, 1450 m, 19 Apr 1955, Purseglove, J.W. P4222 (K, SING); ibidem, 1450 m, 3 Sep 1966,
Burkill, H.M. HMB4221 (SING); Padang Camp, 1670m, 14 Sep 1937, Corner, E.J.H. s.n. (L);
Kluang Tabang, 1900, Barnes, E. s.n. (SING); Perak: Gunong [Gunung] Jasar, 17 Apr 1968,
Woods, PJ.B. 634 (E); Taiping, 1210m, 14Feb 1917, Md Haniffd Md Niir 2469 (K, SING);
ibidem, 1240 m, 14 Feb 1917, Md Haniff & MdNur 2347 (SING); Taiping, Bukit Larut, Jun
1893, Ridley. H.N. & Curtis, C. 7365 (SING); Kuala Kangsar, Bubu FR, Gunung Bubu, 1675
m, 20 Dec 2006, Kamarul Hisham, M., Kiieh, H.E, Lim, C.L. & Yao, T.L. FRI52094 (KEP);
Selangor: Ulu Kali, 1600 m, 2 Mar 1996, Van Balgooy M.M.J. 7149 (L).

Notes. This is currently the only species of Aeschynanthus considered to be endemic
to Peninsular Malaysia. However, considering that most of its distribution closely
mirrors that of Aeschynanthus rhododendron, suggesting similar habitat requirements,
it may also occur in the far south of Thailand and in Sumatra where A. rhododendron
has been collected.

The combination in Aeschynanthus was published by Middleton (2007)
when the monotypic Micraeschynanthus dischidiodes was synonymised with
Aeschynanthus myrmecophilus . Middleton (2007) concluded that the type material
of Micraeschynanthus dischidiodes has only immature and aben*ant flowers but that
in all other characters it matches Aeschynanthus myrmecophilus, thereby requiring
synonymisation and a new combination in Aeschynanthus.

4. Aeschynanthus fecundus P. Woods, Notes Roy. Bot. Gard. Edinburgh 33: 482
(1975); Turner, Gard. Bull. Singapore 47: 243 (1997 [‘1995’]); Burtt, Thai Forest Bull.,
Bot. 29: 83 (2001); Smitinand, Thai PI. Names ed. 2, 14 (2001); Middleton, Edinburgh
J. Bot. 64: 379 (2007). - Aeschynanthus pafMflorus Ridl., J. Fed. Malay States Mus.
4: 48 (1909), nom. illeg. - Aeschynanthus breviflorus Ridl., FI. Mai. Pen. 2: 497
(1923), nom. illeg. - TYPE: Peninsular Malaysia, Pahang, Telom, November 1900,
Ridley H.N. 13599 (holotype SING [SING0089822]; isotypes BM [BM000537160],
K[K000190151]). (Fig. 1,7)

Epiphyte with erect, arching or pendulous stems; stems green, flushed purplish or
reddish brown, glabrous. Leaves opposite; petiole green, 2-4 mm long, glabrous;
blade slightly fleshy, green with paler green or yellow variegation above, pale green
beneath, elliptic, 2. 1-8.6 x 0.5-3. 7 cm, 1 .7-5.3 times as long as wide, apex acuminate,
base rounded to cuneate, glabrous above and beneath, not punctate beneath, margin
with few minute red-tipped teeth but appearing more or less entire, secondary veins
obscure, tertiary venation obscure. Inflorescences axillary, 1-2 -flowered, peduncle
absent; pedicels green, 4-7 mm long, sparsely minutely papillose or glabrous. Calyx
of separate lobes free to base, yellow-green or green, tips red, glabrous or with sparse
sessile glands; lobes linear to narrowly ovate, slightly spreading or erect, 2.3-13.5

20

Gard. Bull. Singapore 68(1) 2016

Fig. 7. Distribution of Aeschynanthus fecundus P. Woods (•) and Aeschynanthus fulgens Wall,
ex R.Br. (T) in Peninsular Malaysia

X 0.6-1 .5 mm, apex acute or acuminate. Corolla 14.5-19 mm long, externally tube
yellowish green or yellow in lower two-thirds, brownish red higher, lobes dark red or
brownish red, internally tube light yellowish, lobes pale brownish red, tube fairly broad
at base; upper lobes oblong or elliptic, not spreading or reflexed, 1 .1-2.3 x 1 .2-2.3 mm,
sinus 1.4-2. 6 mm deep, apex rounded; lateral lobes ovate, not spreading or reflexed,
1.1-2. 5 X 1.6-2. 9 mm, apex rounded; lower lobe elliptic, not spreading or reflexed,
1.3-2. 3 X 1-2.6 mm, apex rounded; glabrous or with few sessile glands around top
outside, with irregular tufts of multicellular hairs near base and glandular papillose
on ventral surface near throat inside. Stamens not exserted, fused in 2 pairs, filaments
yellow or greenish yellow, with glandular hairs, anthers yellow to grey, pollen cream;
anterior filaments inserted at 7-8.6 mm from corolla base which is 45-48% of corolla
length, filaments 7-9 mm long, anthers 1-1.3 x 0.6 mm; posterior filaments inserted at
8-12 mm from corolla base which is 55-63% of corolla length, filaments c. 6 mm long.

Aeschynanthus in Singapore and Peninsular Malaysia

21

anthers 0.7-0. 9 x 0. 5-0.6 mm; staminode 0.8-2 mm long. Disk 1 mm high, a simple
annular ring. Pistil 17-19 mm long; stipe c. 1.5 mm long, with few sessile glands;
ovary green, 4. 5-5. 5 mm long, with sessile glands; style green or yellowish green,
11-12 mm long, glandular pubeseent; stigma pink or purple. Capsule 3.6-1 2 cm long,
1.9-2. 8 mm wide. Seed grain 2-2.5 x 0.2-0. 3 mm, only weakly warty, bubble cells
absent; apical appendage a filiform hair, 19-28 mm long; hilar appendage of 11-18
filiform hairs, 12-17 mm long, appendages papillose.

Distribution. Western and southern Thailand, Peninsular Malaysia (Kedah).

Habitat and ecology’. In lowland and hill dipterocarp forest, sometimes on bamboo.
Altitude information is not available for the species in Peninsular Malaysia but in
Thailand it occurs up to 700 m altitude.

Provisional lUCN conservation assessment. Least Concern (LC). Even though this
species has been collected only once in recent years in Peninsular Malaysia, and only
twice ever, in Thailand it has a wide distribution and has been collected fairly often.

Additional Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA: Kedah:
Baling, Gunung Inas Forest Reserve, Bukit Palong, 2 Nov 2007, Imin, K. et al. FRI58593 (K,
KEP, SING).

Notes. This species is difficult to tell apart from Aeschynanthus longicaulis when in
fruit. In Thailand this species was once found in fruit with the seeds already geraiinating
before the seeds had dispersed. It is not known if tliis was an aberration or coimnon
occurrence.

S. Aeschynanthus fulgensNfdiW. ex R.Br., Cyrtandreae 115 (1839); Steudel, Nomencl.
Bot. ed. 2, 1: 32 (1840); Brown in Bennett, PL Jav. Rar. 115 (1840); A.DC., Prod. 9:
261 (1845); C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 21 (1883); Clarke
in Hooker, FI. Brit. Ind. 4: 338 (1884); Burtt, Thai Forest Bull., Bot. 29: 83 (2001);
Smitinand, Thai PI. Names ed. 2, 14 (2001); Kress et ah, Checkl. Myanmar 261
(2003); Pooma, Threatened PL Thailand 70 (2005); Middleton, Edinburgh J. Bot. 64:
381 (2007); Middleton, Edinburgh J. Bot. 66: 414 (2009). — Trichosporum fulgens
(Wall, ex R.Br.) Kuntze, Revis. Gen. PL 477 (1891). - TYPE: Bunna, Tenasserim
Division, Tavoy, Gomez, W. in Wallich 797 (lectotype K-W, designated by Middleton
(2007); isolectotypes BM [BM000883874], CGE, E [E00259870, E00259871], G
[G00370743], G-DC, K [K000831871, K000831872]). (Fig. 1, 7)

Aeschynanthus evrardii Pellegr., Bull. Soc. Bot. France 72: 824 (1926 [1925]);
Lecomte, FI. Indo-Chine 4: 499 (1930); Pham Hoang Ho, Cayco Vietnam ed. 3, 3 (1):
4 (1993); Newman et al., Checkl. Vase. PL Lao PDR 146 (2007). - TYPE: Vietnam,
Lam Dong, Ang Kroet, 26 October 1920, Evrard, F. 358 (lectotype P [P00492372],
designated by Middleton (2007); isolectotypes P [P00606317, P00606318]).

22

Gard. Bull. Singapore 68(1) 2016

Aeschynanthus stenosiphonius W.T.Wang, Bull. Bot. Res., Harbin 3 (4): 49 (1983);
Burtt, Thai Forest Bull., Bot. 29: 84 (2001); Smitinand, Thai PI. Names ed. 2, 15
(2001). - TYPE: Laos, Vieng Pa Pow Tha Kaw, 2 November 1921, Hayata, B. s.n.
(holotype TI; isotype TI).

Hoya pseudolanceolata Costantin, FI. Indo-Chine 4: 132 (1912). - TYPE: Laos,
Sayabouri, Pak Lay, Spire 1490 (lectotype P [P00639825], designated here).

Aeschynanthus macranthus auct. non (Merr.) Pellegr.: Pellegrin, FI. Indo-Chine 4: 498
(1930) pro parte; Barnett, FI. Siam. 3 (3): 201 (1962); Burtt, Thai Forest Bull., Bot.
29: 84 (2001).

Epiphyte with stems arching and pendulous or upright, green or dull olive-green,
sometimes with purple mottling, glabrous. Leaves opposite; petiole 3-20 mm long,
glabrous; blade coriaceous to fleshy, elliptic, oblong or ovate, mid to dark green above,
paler green beneath, not variegated, 3.3-17 x 1-5.2 cm, 1.7-7. 5 times as long as wide,
apex acuminate, base cuneate to rounded, glabrous above and beneath, margin entire,
4-8 pairs of secondary veins, obscure to clearly visible, tertiary venation obscure.
Inflorescences subtenninal or axillary, 3-16-flowered, peduncle absent; bracts deep
maroon, ovate or linear, 2.1-11 mm long; pedicels 3.5-24 mm long, green, glandular
puberulent or glabrous. Calyx with a tube at base, lobes free, tube very variable in
width from nan'ow and clasping corolla tube to quite wide and not clasping corolla,
yellowish, greenish or brownish, sometimes with reddish lobes, glabrous except for
ciliate lobes, or few hairs only on very tips of lobes, to glandular pubescent all over,
total length (7-)l 0.7-26 mm long; tube (2.4-)6-18.5 mm long which is (34-)50-94%
of total length, 3.5-14 nun wide at top of tube; lobes triangular, slightly spreading or
erect, l-5(-l 1 .5) x (1 .2-) 1 .6-6.5 mm, apex acute, sometimes ultimately with a rounded
tip, to acuminate. Corolla (41-)49-73 nun long, tube nan'ow at base, externally bright
red to darker red or orange red, sometimes yellowish at base, usually with darker lines
on tube, red or orange-red with a black central line on lobes, sometimes yellowish at
very base, internally yellowish to pale red in tube, lobes orange-red or red with a dark
red or black centi'al line or arrow and pale orange to cream at base; upper lobes slightly
falcate, mostly not reflexed or spreading, sometimes slightly spreading but not fully
reflexed, 3. 2-7. 5 x 3.3-7 mm, sinus 3.5-1 0.5 mm deep, apex obtuse or rounded; lateral
lobes deltoid, not spreading or reflexed, 2.8-8 x 5.2-9. 5 mm, apex rounded or obtuse;
lower lobe oblong or elliptic, reflexed, 5.1-14 x 3-6 mm, apex obtuse or rounded;
sparsely to densely glandular puberulent outside or only at top of tube and on lobes
or only ciliate on lobes, minutely and sparsely to very sparsely glandular puberulent
internally, this sometimes denser towards the upper half, sessile glands present at top
of tube. Stamens long exserted, fused in 2 pairs or rarely all 4 attached; filaments
mostly darker in the upper half and ranging Irom reddish to purplish and then to white
at base, sparsely glandular pubescent to glabrous or with few sessile glands in lower
part, anthers dark maroon, purple, yellow, white and purple, or greyish purple; anterior
filaments inserted at 26^8 mm from corolla base which is 50-72% of corolla length.

Aeschynanthus in Singapore and Peninsular Malaysia

23

filaments 25-50 mm long, anthers 3-5.6 x 0.9-2. 3 mm; posterior filaments inserted
at 32-50 mm from corolla base which is 58-82% of corolla length, filaments 25^2
mm long, anthers 2.5-5 x 1-2.1 mm; staminode 0.7-11 mm long. Pollen ochre or
yellow. Disk 0.5-2. 5 mm high, a simple annular ring, 5-dentate, 5-crenate or strongly
5-lobed. Pistil 15.5-80 mm long; stipe 3-26 imn long, glabrous; ovary green or cream,
8-38 mm long, glabrous or with sessile glands; style cream or white, 4.5-41 mm
long, glandular pubescent to glabrous. Capsule 15.7-42 cm long, 2-5 mm wide. Seed
grain 0.8-2 x 0.2-0. 5 mm, warty, bubble cells absent; apical appendage a filiform hair,
16-34 mm long; liilar appendage a single filifonn hair, 13.5-35 mm long; appendages
papillose.

Distribution. Myanmar, Thailand, Cambodia, Laos, Vietnam, Peninsular Malaysia
(Kedah). In Peninsular Malaysia only recorded from Gunung Jerai in Kedah.

Habitat and ecology. Across its distribution it has been recorded in a wide variety of
habitats including primary or disturbed evergreen, mixed deciduous or mossy forest at
10-1500 m altitude. The ecology and altitude for this species on Gunung Jerai was not
recorded on the specimens.

Provisional lUCN conservation assessment. Least Concern (LC). This species has a
widespread distribution and is common in parts of its range, particularly in Thailand.
In Peninsular Malaysia it has only been collected a few times and at only one locality,
Gunung Jerai. Its current status there needs to be clarified.

Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA: Kedah:
Gunung Jerai, 16 Oct 1976, Stone, B.C.M. 12758 (KLU); ibidem, 18 Nov 1977, Lo,
Y.N. & Mahmud 183 (KLU); ibidem, 23 Nov 1999, Kiew, R. RK4862 (KEP, SING).

Notes. This is a widespread and variable species but in Peninsular Malaysia has only
been collected on Gunung Jerai. The description above includes the species from
throughout its range as the very few Malaysian specimens are inadequate to write a full
description. The material seen from Malaysia has a long and narrow calyx tube with
small lobes but elsewhere in the distribution of Aeschynanthus fulgens this species is
known to be very variable, especially in this character.

6. Aeschynanthus longicaulis Wall, ex R.Br., Cyrtandreae 116 (1839); Steudel,
Nomencl. Bot. ed. 2, 1 : 32 (1840); Brown in Bennett, PI, Jav. Rar. 116 (1840); A.DC.,
Prod. 9: 262 (1845); Miquel, FI. Ned. Ind. 2: 719 (1858); C.B.Clarke in A.DC. &
C.DC., Monogr. Phan. 5(1): 19 (1883); C.B.Clarke in A.DC. & C.DC., Monogr. Phan.
5(1): 19 (1883); Barnett, El. Siam. 3 (3): 201 (1962); Burtt & Woods, Notes Roy.
Bot. Gard. Edinburgh 33: 481 {\91S),pro parte; Chin, Gard. Bull. Singapore 32: 147
(1979); Li, Acta Bot. Yunnan. 5 (1): 36 (1983); Wang, FI. Reipubl. Popularis Sin. 69:
526 (1990); Turner, Gard. Bull. Singapore 47: 243 (1997 [‘1995’]); Wang, Pan, Li,

24

Gard. Bull. Singapore 68(1) 2016

Weitzman & Skog, FI. China 18: 385 (1998); Burtt, Thai Forest Bull., Bot. 29: 83
(2001), pro parte; Smitinand, Thai PI. Names ed. 2, 14 (2001); Kress et ah, Checkl.
Myamiiar 261 (2003). - Trichosporum longicaule (Wall, ex R.Br.) Kuntze, Revis.
Gen. PI. 478 (1891). - TYPE: Burma, Chappedong, Wallich, N. 888 (lectotype K
[K000096741], designated by Middleton (2007); isolectotypes BM [BM000883859],
G-DC, K-W). (Fig. 8, 9)

Aeschynanthus griffithii R.Br., Cyrtandreae 115 (1839); Brown in Bennett, PI. Jav.
Rar. 115 (1840); A.DC., Prod. 9: 261 (1845); Miquel, FI. Ned. Ind. 2: 719 (1858);
C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 24 (1883); Clarke in Hooker, FI.
Brit. Ind. 4: 339 (1884); Kress et ah, Checkl. Myanmar 261 (2003). - Trichosporum
grijfithii (R.Br.) Kuntze, Revis. Gen. PI. 477 (1891). - TYPE: Burma, Tenasserim
Division, Tavoy, Griffith, W. s.n. (holotype BM [BM000883870]).

Aeschynanthus zebrinus Van Houtte, Hort. Vanhoutt. 1(2): 42 (1846). - TYPE: Not
located.

Aeschynanthus marmoratus TMoore, Paxton’s FI. Gard. 3: 56 (1852); C.B.Clarke in
A.DC. & C.DC., Monogr. Phan. 5(1): 38 (1883); Ridley, J. Linn. Soc. Bot. 32: 500
(1896); Ridley, J. Straits Branch Roy. Asiat. Soc. 44: 13 (1905); Ridley, J. Asiat. Soc.
Bengal 74 (2): 732 (1909); Ridley, FI. Mai. Pen. 2: 498 (1923); Barnett, FI. Siam. 3 (3):
202 (1962). - Trichosporum marmoratum (TMoore) TMoore ex Kuntze, Revis. Gen.
PI. 478 (1891). - TYPE: Cultivated specimen, October 1851, Moore, T s.n. (holotype
K[K000831883]).

Epiphyte with arching and pendulous branches; stems grey-brown or gi'ey, glabrous.
Leaves opposite; petiole 2-14 mm long, glabrous; blade fleshy, background mid to
dark green above but variegated with much paler venation, same but paler beneath,
elliptic, 1.9-12.2 x 0.3^ cm, 2.2-9 times as long as wide, apex caudate to acuminate,
base cuneate to acute, margin with few minute teeth but appearing more or less entire,
glabrous above and beneath, 5-6 pairs of secondary veins, weakly visible, tertiary
venation obscure. Inflorescences terminal, peduncle absent; pedicels 9.5-11 mm
long, green siifhised purple, glabrous. Calyx of separate lobes free to base, orange,
purple or green flushed maroon-purple, glabrous or with sparse glandular hairs; lobes
narrowly elliptic to linear, erect, 8-1 8 x 0. 8-2.4 mm, apex acute to acuminate. Corolla

20.5- 31 mm long, externally tube green, yellowish green or green with flushes of
orange, pui*ple or brown, lobes purple or maroon with an orange or yellow margin or
all orange, internally tube dark red, maroon or green, lobes maroon, purple or red with
a yellow or orange margin; upper lobes ovate or orbicular, not spreading or reflexed,

2. 5- 3. 8 X 2.4-4. 5 mm, sinus 2.2-4. 5 mm deep, apex rounded; lateral lobes orbicular
or oblique ovate, not spreading or reflexed, 2-3.9 x 3. 3-4. 8 mm, rounded; lower lobe
ovate or squarish, not spreading or reflexed, 2. 5-5. 8 x 3. 6^.2 mm, apex rounded,
outside glabrous except for ciliate lobes, to densely glandular puberulent, inside with
five dense tufts of multicellular hairs near base. Stamens long exserted; filaments

Aeschynanthus in Singapore and Peninsular Malaysia

25

Fig. 8. A. Aeschynanthus longicaulis Wall, ex R.Br. B. Aeschynanthus longiflorus (Blume)
A.DC. C. Aeschynanthus obconicus C.B. Clarke. (Photos: A, Preecha Karaket; B, Jana Leong-
Skornickova; C, David Middleton)

green or yellow, with glandular hairs; anthers pale brown or grey; anterior filaments
inserted at 12-19.5 mm from corolla base which is 48-52% of corolla length, anthers
2. 6-3.2 X 1-1.2 mm; posterior filaments inserted at 12.5-21 mm from corolla base

26

Gard. Bull. Singapore 68(1) 2016

Fig. 9. Distribution of Aeschynanthus longicaulis Wall, ex R.Br. in Peninsular Malaysia (•).

which is 50-55% of corolla length, filaments 23-27.5 mm long, anthers 1.8-2. 8 x
0.7-1. 3 mm; staminode 0.9 mm long; pollen greenish grey. Disk 0.9-1 .3 mm high,
a simple annular ring. Pistil 14-A5 mm long; stipe 1.5^ mm long, glabrous; ovary
5.5-12 mm long, glabrous or with sessile glands; style yellow or green flushed purple
towards apex, 7-3 1 mm long, glandular pubescent; stigma purple or yellow. Capsule
5.4-37 cm long, 1. 8-3.2 mm wide. Seed grain 1. 6-2.2 x 0. 1-0.6 mm, warty, bubble
cells absent; apical appendage a filifomi hair, c. 22.5 mm long; hilar appendages of
many (13-25) filifonn hairs, 10-25 mm long; appendages papillose.

Distribution. Eastern Myanmar, western and southern Thailand, Peninsular Malaysia
(Kedah, Kelantan, Penang, Perak, Perlis).

Habitat and ecology^. In primary and secondary lowland forest, reaching to upper
dipterocarp forest, sometimes on limestone, at 360-1150 m in Peninsular Malaysia.

Aeschynanthus in Singapore and Peninsular Malaysia

27

Most Malaysian material does not have good habitat and altitude notes but in Thailand
it has also been collected in rubber plantations.

Provisional lUCN conservation assessment. Least Concern (LC). This species has a
wide distribution and has been recorded from a variety of habitats. However, it should
be noted that it has been collected rather infrequently in Peninsular Malaysia in recent
years and only once since 2000 so its status should be monitored.

Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA: Kedah: Langkawi,
Gunung Raya, 880 m, 13 Sep 1988, Tay, E.P 125 (SING); Weng Road near Baling, 2 Nov
1929, Best, G.A. 21255 (SING); Kelantan: Jeli, Upper Sungai Pergau, 25 Sep 1986, Latiff,
A. et al ALM1813 (PSU, UKMB); Penang: Government Hill, 760 m, Sep 1889, Curtis, C.
2142 (SING); ibidem, Mar 1889, Ridley, H.N. 1700 (BM, SING); Penang Hill, 760 m, 8
Sep 1982, Kochummen, K.M. FR129332 (K, KEP, L); Perak: Gunong [Gunung] Chabang,
Scortechini, B. 35 (SING); Ulu Temengor, Jul 1909, Ridley, H.N. 14280 (BM, SING); Grilc, 19
Jun 1924, Burkill, H.M. & Md Haniff 12542 (SING); Taiping, Bukit Earut, 1150 m, 12 May
2009, Yao, T.L. FRT57961 (KEP); ibidem, Heng, HP. et al. HPIO (SINU); Perils: Kaki Bukit,
1962, Cultivated C4877 (E); Bukit Bintang Forest Reserve, 360 m, 25 Apr 1962, Burtt, B.L. &
Woods, P.J.B. B1739{E).

Notes. This species is difficult to distinguish from Aeschynanthus fecundus when not
in flower. The name has also been applied widely to species from other parts of Asia
that are now recognised as distinct taxa such as Aeschynanthus memhranifolius and
A. sinolongicalyx W.T.Wang. These species all share characteristic variegated leaves.
Flowering material is needed to assess whether Aeschynanthus longicaulis occurs
further north i nto northern Thailand than previously suspected or whether other related
species rather have the wider distribution.

The name Aeschynanthus marmoratus, originally described from cultivated
material, was long applied to the material from Peninsular Malaysia but the type
material is indistinguishable from that of Aeschynanthus longicaulis.

7. Aeschynanthus longifloriis (Blume) A.DC., Prod. 9: 262 (1845); Hooker, Bot.
Mag. 73: t.4328 (1847); Zollinger, Syst. Verz. 3: 57 (1855); Miquel, FI. Ned. Ind. 2:
717 (1858); C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 32 (1883); Ridley,
J. Linn. Soc. Bot. 32: 499 (1896); Ridley, J. Straits Branch Roy. Asiat. Soc. 44: 14
(1905); Ridley, J. Asiat. Soc. Bengal 74 (2): 734 (1909); Ridley, FI. Mai. Pen. 2: 498
(1923); Backer & Bakhuizen van den Brink, FI. Java 2: 524 (1965); Turner, Gard.
Bull. Singapore 47: 243 (1997 [‘1995’]); Burtt, Thai Forest Bull., Bot. 29: 83 (2001);
Smitinand, Thai PI. Names ed. 2, 15 (2001); Middleton, Edinburgh J. Bot. 64: 400
(2007). -Lysionotus longifloms Blume, Bijdr. FI. Ned. Ind. 766 ( 1 826). - Trichosporum
longiflorum (Blume) Kuntze, Revis. Gen. PI. 478 (1891); Merrill, Contr. Arnold Arbor.
8:151 (1934). - TYPE: Indonesia, Java, Blume, C.L. 247 (lectotype L [Leiden number
903,307-102], designated by Middleton (2007); isolectotypes L [2 sheets]). (Fig 8, 10)

28

Gard. Bull. Singapore 68(1) 2016

Aeschynanthus perakensis Ridl., J. Linn. Soc. 32: 499 (1896); Ridley, J. Straits Branch
Roy. Asiat. Soc. 44: 15 (1905); Ridley, J. Asiat. Soc. Bengal 74 (2): 734 (1909);
Ridley, FI. Mai. Pen. 2: 498 (1923); Henderson, Malay. Wild. FI. Dicot. 340 (1959);
Turner, Gard. Bull. Singapore 47: 243 (1997 [‘1995’]). - TYPE: Peninsular Malaysia,
Perak, Taiping, Bukit Larut, 1891, Ridley, H.N. s.n. (lectotype SING [SING0035528],
designated by Middleton (2007)).

Epiphyte with arching stems; stems glabrous. Leaves opposite; petiole 3-16 mm long,
glabrous; blade slightly fleshy or coriaceous, dark to mid green above, pale green
beneath, ovate or elliptic, not variegated, 3.7-17.5 x 1.6-6. 7 cm, 1. 5-6.1 times as
long as wide, apex acuminate to caudate, base rounded to cuneate, glabrous above and
beneath, margin entire, secondary veins obscure to weakly visible, 3-8 pairs, tertiary
venation obscure. Inflorescences terminal, 2-5-flowered, peduncle absent, bracts
linear, 3-6 mm long; pedicels 1 1-16 mm long, brownish green or purplish, glabrous.
Calyx of separate lobes free to base, often differing quite substantially in length even
within a single flower, green to dark red or purplish, with sparse glandular hairs or
glabrous, sometimes with ciliate lobes or with just a few hairs only on very tips, 4.8-
23 mm long; lobes linear, narrowly triangular, narrowly ovate or oblong, erect, 4.8-23
X 1-2.2 mm, apex obtuse to acuminate. Corolla 43-90 mm long, tube nanow at base;
externally tube bright red or dark red, lobes bright red or dark red, internally tube
cream-coloured, lobes bright red on upper 2 lobes and bright red at margin with a
darker W-shaped line on lower 3 lobes; upper lobes orbicular, oblong or ovate, not
spreading or reflexed, 3.2-8. 1 x 3.2-5 mm, sinus 3-5.8 imn deep, apex rounded;
lateral lobes oblique ovate or deltoid, not spreading or reflexed, 3.2-7. 5 x 5.5-9 mm,
apex rounded; lower lobe ovate, not spreading or reflexed, 6-12 x 4-6.2 mm, apex
rounded; outside glabrous to sparsely glandular puberulent, usually with ciliate lobes,
inside with sparse glandular hairs throughout, sometimes very sparsely so, and sessile
glands below lobes. Stamens long exserted, fused in 2 pairs; filaments reddish, purple
or pink, with small glandular hairs, anthers pale pink; anterior filaments inserted at
49-60 mm from corolla base which is 72-77% of corolla length, filaments 29-50 mm
long, anthers 3.3-5 x 1-2 mm; posterior filaments inserted at 50-64 rmii from corolla
base which is 77-81% of corolla length, filaments 23-37 mm long, anthers 2.4-3. 8 x
0.9-2 mm; staniinode 0.7-5 mm long. Disk 1-1 .5 mm high, 5-crenate. Pistil 45-83
nun long; stipe 13-20 mm long, glabrous to sparsely minutely papillose; ovary 19-29
mm long, minutely papillose puberulent or with few sessile glands; style puiple or
purplish pink, 13-34 mm long, glandular pubescent to papillose, sometimes sparsely
so. Capsule 21-57 cm long, 3.5-4 mm wide. Seed grain 1-1.8 x 0. 3-0.4 mm, warty,
bubble cells absent; apical appendage a filifonn hair, 1 5-24 mm long; hilar appendage
a single filiform hair, 1 5-24 nun long; appendages papillose.

Distribution. Peninsular Thailand, Peninsular Malaysia (Kelantan, Negeri Sembilan,
Pahang, Penang, Perak, Selangor, Terengganu), Sumatra, Java, Borneo.

Aeschynanthus in Singapore and Peninsular Malaysia

29

Fig. 10. Distribution of Aeschynanthus longiflorus (Blume) A.DC. in Peninsular Malaysia (•).

Habitat and ecology. This species is recorded most commonly in lower montane
forest up to 1535 m altitude and occasionally from lowland or hill dipterocarp forest.
However, in Peninsular Malaysia it is also recorded from as low as 90 m altitude.

Provisional lUCN conservation assessment. Least Concern (LC). This species is
widely distributed in the region.

Additional Penitisular Malaysian specimens examined. PENINSULAR MALAYSIA:
Kelantan: Jeli, Upper Sungai Pergau, 25 Sep 1986, Latiff, A. etal ALM1789 (PSU, UKMB);
Kuala Krai, Stong Tengah FR, Sungai Kenerong, 564 m, 4 Apr 2009, Rosdi, M., Phoon, S.N.,
Ong, PT & Imin, K. FR166272 (KEP); Negeri Senibilan: Jelebu, Bkt Tangga, G. Telapak
Burok, 9 Apr 2008, Phoon, S.N. & Imin, K. FRI60648 (KEP); Pahang: Tahan River, 1520 m,
1891, Ridley H.N. 2167 (K, SING); Fraser’s Hill, Nov 1976, Keng, H. et al. 4755 (SINU);
ibidem, 1210 m, 18 Apr 1955, Purseglove, J.W. P4164 (E, K, L, SING); ibidem, 1210-1320
m, 16-30 Sep 1922, Burkill, KM. & Holttum, R.E. 7888 (K, SING); ibidem, 1500 m, 16 Apr

30

Gard. Bull. Singapore 68(1) 2016

1962, Burtt B.L & Woods, P.J.B. B1644 (E, SING); ibidem, 13 Mar 1986, Anthony, S. SA481
(KEP); ibidem, 1270 m, 4 Oct 1961, Burkill, H.M. HMB2812 (SING); ibidem, 1210 m, 20 Mar
1929, Holttum, R.E. 21528 (SING); ibidem, 25 Oct 1959, Mitchell s.n. (SING); ibidem, 27
Aug 1991, Kiew, R. RK3293 (SING); Fraser’s Hill, Rompin Trail, 1218 m, 26 Oct 2010, Julius,
A. FRI73605 (K, KEP, SING); Fraser’s Hill, Bishop’s Trail, 1275 m, 31 Mar 2007, Kiew, R.,
Lindsay, S. & Middleton, DJ. FR157497 (KEP); Fraser’s Hill, Raub, 1260 m, 21 Mai' 1994,
Perumal, B., Gan, C.L., Shahril, K.Z., Angan, A. & Bediil FRI41512 (KEP); Fraser’s Hill,
Tras Valley, 1090 m, 27 Sep 1922, Burkill, HM, 8859 (SING); ibidem, 1150 m, 25 Mar 1929,
Holttum, R.E. s.n. (SING); 3rd Mile Genting Highlands Road, 910 m, 2 Oct 1 970, Kochummen,
K.M. FR116215 (KEP); Cameron Highlands, 48th Mile Blue Valley, 23 Mar 1963, Mohd.
Kassim bin Rajah 488 (KLU); Cameron Highlands, Gunung Berembun. Nov 1908, Ridley,
H.N. 13603 (SING); Cameron Highlands, Nov 1940, Quaife s.n. (SING); Telom, Nov 1908,
Ridley, H.N. s.n. (SING); Cameron Highlands, G. Siku FR, 1430 m, 21 Jan 201 0, Mohd Hairul,
M.A., Ong, P.T., Siti Munirah, M.Y. cS: Kiieh, H.L. FRI69946 (KEP); Cameron Highlands, G.
Siku FR, Beside the road to G. Silcu FR, 1535 m, 25 Oct 2007, Imin, K. & Kueh, H.L. et al.
FR158561 (KEP); Cameron Highlands, Robinson’s Falls, 24 Mar 2007, Julius, A., Middleton,
D.J. & Lindsay, S. et al. FRI57479 (KEP); Penang: unknown s.n. (E); Perak: Gunung Korbu,
1210-1300 m, 11 Mar 1913, Robinson, H.C. s.n. (K); Taiping, 910-1210 m, Nov 1885, Kings
Collector 8314 (K); Taiping, Bukit Larut, 790 m, 18 Sep 1949, Sinclair, J. & Kiah SFN38800
(E, K, SING); ibidem, 1270 m, 25 Nov 1980, Keng, H. et al. 85 (SINU); ibidem, Dec 1902,
Ridley, H.N. 11447 (K, SING); ibidem, 1060-1210 m, Dec 1884, Kings Collector 7022 (K,
SING); ibidem, 18 Sep 1949, Sinclair, J. 6198 (E); ihidQm, Anderson, J.W 95 (SING); ibidem,
910 m, 29 Oct 1968, Smith, G. 443 (KLU); ibidem, 1290-1 330 m, 8 Mar 1939, Spare, G.H. 2114
(SING); Caulfield’s Hill, Wray, L. 625 (K, SING); Gunung Bintang, Bukit Kuala Bintang, 18
Apr 1928, Md Haniff 21088 (SING); Taiping, Gunung Hijau, Sep 1889, Curtis, C. s.n. (SING);
ibidem, 1300 m, 20 Oct 1992, Saw, L.G. FRI37667 (KEP); Selangor: Genting Highlands,
Gunung Bunga Buah, 1090 m, 5 May 1999, Chiia, L.S.L. FRI 40785 (KEP); Semangkok Pass,
1909, Ridley, H.N. s.n. (SING); Gombak, Gunung Bungah Buah, Trail to Gunung Bunga Buah,
1250 m, 31 Oct 2010, Yao, T.L., Kiew, R. & Wen, J. FR 165495 (E, KEP); Hulu Langat, Gn.
Nuang, Above Pacat Camp, 1418 m, 12 Dec 2013, Yao, T.L., Imin, K, Mohd Nazri, A. & Kueh,
H.L. FR177335 (KEP); Terengganu: Ulu Brang, Gunong [Gunung] Padang, Near Kampong
Lallang, 90 m, 16 Sep 1969, Whitmore, T.C. FRI12601 (K, KEP, L, SING).

Notes. This species is most similar to Aeschynanthus speciosus, particularly those
forms with redder flowers, but is easily distinguished by the opposite leaves of A.
longiflorus and the whorled leaves of A. speciosus.

The calyx pubescence character used by Ridley (1923) to distinguish
Aeschynanthus perakensis from A. longiflorus does not hold up to scrutiny and this
character is very variable in the species. As noted by Middleton (2007) the type of
Aeschynanthus perakensis is cited by Ridley as ‘Perak, on Gunong Hijan; Thaiping
Hills, at an altitude of 5,000 feet’. No Ridley material has been found which has this
locality information on the label and only one specimen has been found which could
possibly be original material. This specimen is labelled ‘Maxwell’s Hill’, now known
as Bukit Larut of which Gunung Hijau (the modem name for Gunong Hijan) is a part.
This specimen was lectotypified by Middleton (2007). A second Ridley specimen from
the area cannot be counted as original material as Ridley explicitly says he has seen no
fmiting material and the specimen has fmits.

Aeschynanthus in Singapore and Peninsular Malaysia

31

8 . Aeschynanthus obconicus C.B. Clarke in A.DC. & C.DC., Monogr. Phan. 5(1):
50 (1883); Clarke in Hooker, FI. Brit. Ind. 4: 343 (1884); Ridley, J. Linn. Soc.
Bot. 32: 501 (1896); Ridley, J. Asiat. Soc. Bengal 74 (2): 737 (1909); Ridley, FI.
Mai. Pen. 2: 500 (1923); Turner, Card. Bull. Singapore 47: 243 (1997 [‘1995’]). -
Trichosporum obconicum (C.B. Clarke) Kuntze, Revis. Gen. PI. 478 (1891). - TYPE:
Peninsular Malaysia, Selangor, Klang, 26 December 1878, Beccari, O. 36 (liolotype
FI [FIO 13085]). (Fig. 8, 11)

Epiphytic, stems mostly hanging, green, mostly glabrous, occasionally sparsely
pubemlent only around nodes. Leaves opposite; petiole 3-10 mm long, glabrous or
rarely sparsely puberulent; blade coriaceous, ovate or elliptic, 2.5-10.7 x 0.9-6 cm,
1. 5-3.1 times as long as wide, apex acuminate or acute, base cuneate to rounded, mid
green above, paler beneath, not variegated, glabrous above and beneath, occasionally
with few marginal hairs at margin base, margin entire, sometimes undulate, 4-7 pairs of
secondary veins, weakly visible or obscure, tertiary venation obscure. Inflorescences
axillai 7 or subterminal, 1-6-flowered; peduncles 4 mm long; bracts elliptic, 1.3-4 mm
long; pedicels 6-12 mm long, dark red, sparsely to densely eglandular puberulent.
Calyx with a tube and short and broad lobes or barely any lobes at all, the whole
broadly cup-shaped, dark red or dark red at base and becoming bright red higher,
sometimes purplish brown, outside densely to sparsely pubescent with red hairs, these
varying degrees of eglandular and glandular, very rarely glabrous, inside sparsely
pubescent to glabrous, total length 8-19 nmi long; tube 7-15 mm long which is 74-
94% of total length, 15-27 mm wide at top of tube; lobes semicircular or a weak
curve of the upper rim, erect, spreading or recurved, 0. 7-6.5 mm long, 9-16 mm wide,
apices rounded. Corolla 23-35 mm long, tube broad at base, externally bright to dark
red, internally cream, lobes externally bright red with cream at base of lower 3 lobes,
internally red with cream and dark red markings on lower 3 lobes; upper lobes ovate,
oblong or slightly falcate, spreading, 4.2-10 x 1 J-6 mm, sinus between lobes 3-5 mm
deep, apices rounded; lateral lobes ovate to oblong, spreading to reflexed, 4.2-12.5 x
4.2-9. 8 mm, apices rounded; lower lobe ovate or elliptic, spreading, 5-11.4 x 5. 6-6. 7
mm, apex rounded; outside densely pubescent or rarely glabrous except for ciliate
lobes, inside with scattered short glandular hairs with robust base, sessile glands at
lobe sinuses. Stamens not or only slightly exerted, fused in 2 pairs, filaments cream
to bright red, papillose, anthers cream or yellow; anterior filaments inserted at 9-15
mm from corolla base which is 32-58% of corolla length, filaments 15-1 8.5 mm long,
anthers 2.4-2. 7 x 1.2-1. 5 mm; posterior filaments inserted at 12-17 mm from corolla
base which is 43-63% of corolla length, filaments 12.8-16 mm long, anthers 1.6-2. 5
X 0.9-1 .6 mm; staminode c. 1 mm long. Disk 0.5-1 mm high, a simple aimular ring.
Pistil 18.5-36.5 mm long; stipe 6-13 mm long, with few sessile glands or glabrous;
ovary cream to pale green, 9.5-26 mm long, with sessile glands; style 2-7.5 mm long,
glandular pubescent, sometimes these sparse. Capsules 1 8-41 cm long, 2.8 mm wide.
Seed grain 0.8 mm x 0.3 mm, papillose, bubble cells present at base of hilar appendage;
apical appendage a filiform hair, 12.5 mm long; hilar appendage a single filiform hair,
10 mm long; appendages not papillose.

32

Gard. Bull. Singapore 68(1) 2016

Fig. 11. Distribution of Aeschynanthus obconiciis C.B. Clarke in Peninsular Malaysia (•).

Distribution. Peninsular Malaysia (Kedah, Kelantan, Kuala Lumpur, Pahang, Perak,
Selangor, Terengganu), Sumatra, Borneo.

Habitat and ecology. Epiphytic in lowland dipterocarp forest, often on trees by rivers,
occasionally in lower montane forest, at 0-1300 m altitude.

Provisional lUCN conservation assessment. Least Concern (LC). This species is
widespread and occurs in a variety of forest types.

Additional Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA:
unlaiown loc., 21 Nov 1932, unknown collector FMS 17 068 (K, KEP); unknown state, Belau
Tajor, Wray> L. 1772 (SING); Kedah: Gunong [Gunung] Bintang, 8 Apr 1968, Sidekbin Kiah
8.277 (L, SING); Kelantan: Kpg. Biliai, Sg. Kerchit, 13 Feb 2003, Kiew, R. RK5239 (SING);
Kuala Krai, Stong Tengah FR, Sg. Renerong, 4 Apr 2009, Imin, K„ Phoon, S.N., Ong, P.T &
Rosdi, M. etal. FRI68188 (KEP); Kuala Lumpur: Feb 1890, Curtis, C. s.n. (SING); Pahang:

Aeschynanthus in Singapore and Peninsular Malaysia

33

Sungai Telom, 450 m, 24 Aug 1930, Kiah 23943 (NY, SING); Puku, Kuala Teku, 150 m, 21
Feb 1921, Seimund, E. 459 (SING); Kuala Terla Forest Reserve, Trail from Kg. Sg. Jarik, 540
m, 23 Mar 2007, Julius, A. FRI57451 (KEP, SING); Gunung Tahan, Teku, 21 Juii 1922, Md
Haniff & Md Nur 8046 (SING); Taman Negara, Sg. Tahan, Kem Teku, 283 m, 12 May 2008,
Lim, C.L. & Kiieh, H.L. FRI64886 (KEP); Perak: unlmown loc., Jan 1886, Kings Collector
10179 (SING); Gunong [Gunung] Inas, Sira Rimau, 27 Dec 1899, Yapp, R.H. 547 (CGE);
Earut Matang, Bkt. Larut, Sungai Bt. Tugoh, 72 m, 28 Jul 201 1, Imin, K. & Asmarayani, H,S.
FRI76004 (KEP); Taiping, Bukit Larut, 610 m, 1901, Curtis, C. s,n. (SING); Taiping, Dec
1902, Ridley, H.N. s.n. (SING); ibidem, 25 Aug 1971, Kockummen, KM. FRI16427 (KEP);
ibidem. 450 m, Sep 1889, Curtis, C. s.n. (SING); ibidem, Jul 1881, King’s Collector 2012
(SING); ibidem, 1000-1300 m, Dec 1882, Kings Collector 3641 (SING); ibidem, Jul 1881,
Kmg’s Collector 2049 (SING); ibidem, 9 Mar 1924, Burkill, H.M. & Md Hanijf 12798 (SING);
ibidem, 4 Mar 1965, Flardial, S. & Samsuri Ahmad 290 (SING); ibidem, Mai’ 1882, King’s
Collector 2849 (SING); ibidem, Mai’ 1892, Ridley, H.N. 2905 (BM, SING); ibidem, 76a-790
m, 16 Sep 1949, Sinclair, J. & Kiah SFN38805 (E, SING); ibidem, 610 m, 25 Aug 1971,
Whitmore, T.C. FR120392 (K, KEP, L, SING); Gunong [Gunung] Bubu, 600 m, 18 Aug 1966,
DingHou 657 (K, KEP, L, SING); ibidem, 610 m, 16 Aug 1966, Chew, W.-L. CWL1213 (K,
KEP, SING); Kampong Sekam, 5 10 m, 19 Oct 1982, Ave, W. 165 (K, L); Dinding, 1888, Curtis,
C. 1388 (K, SING); Kinta, Kinta Dam, Trail to G. Korbu, 450 m, 10 Jun 2010, Imin, K. et al.
FR171615 (K, KEP); Gunung Korbu, 610 m, 20 Mar 1913, Robinson, H.C. s.n. (K); Kuala
Dipang Forest Reserve, 30-210 m, 19 Feb 1976, Sidek bin Kiah SK515 (C, KEP, SING); Sg.
Siput, Chior Forest Resei've, Sungai Legap, 180 m, 9 Oct 1967, Ng, F.S.P. FRI5813 (KEP);
Chenderiang, Gunong [Gunung] Bujang Melaka, Sungai Rias, 610 m, 12 Feb 1975, Shah,
M., Ahmad & Mahmud MS3407 (C, KEP, SING); Bujang Melaka, Aug 1898, Curtis, C 3335
(SING); Batu Kurau, Curtis, C. 2990 (SING); Pondok Tanjong Forest Reserve, 14 Feb 1939,
Spare, G.H. SFAid22d (SING); Sungei Merbau, 10 Dec 1929, Symington, C.F. 27 JPtl (SING);
Bleinja [?Belanjar], Wray, L. 149 (SING); Scortechini, B. 46a (SING); Ijok Forest Reserve,
II Feb 1939, Aziz Budin 48644 (KEP [2 sheets]); Dinding, Curtis, C. s.n. (SING); Tapah,
Nov 1908, Ridley. H.N. 14063 (SING); Bujang Melaka, Sep 1898, Ridley, H.N. s.n. (SING);
Dinding, 1892, Curtis, C. s.n. (SING); Gunung Bintang, Bukit Kuala Bintang, 17 Apr 1928, Md
Haniff 21074 (SING); Bintang Hijau FR, Sg. Tebing Tinggi, 317 m, 26 Aug 2009, Chan, Y.M.,
Norzamli, A, & Norazmi, A. FRI70603 (KEP); Selangor: Petaling, 5 Jul 1 889, Ridley, H.N. s.n.
(SING); Kanching Reserve, 17 Sep 1925, Strugnell, E.J. 10515 (K); Kanching River, 250 m, 3
Oct 1974, Van Balgooy, M.M.J. 2118 (E, L, NY); Templer National Park, Bukit Perangin, 1110
m, Cultivated C7650 (E); Gombak, Bukit Lagong FR, Sg. Kepong, 392 m, 6 Sep 2007, Chan,
Y.M. FR149298 (KEP); Bukit Lagong Forest Reserve, 300 m, 24 Sep 1980, Kochummen, K.M.
FRI29126 (K, KEP, L, SING); Genting Highlands, Gombak F.R., 580 m, 23 Nov 1939, Wong,
Y.K KEP93272 (K); Ridge above Gombak Road, 4 Oct 1970, Stone, B.C.M. 9566 (KLU);
Sungei Buloh, Aug 1908, Ridley, H.N. 13372 (BM, SING); ibidem, 80 m, 4 Dec 1960, Poore,
M.E.D. 1064 (KLU); Kanching, Sg. Bangkap, 10 Oct 1974, Stone, B.C.M. & Badaruddin
12068 (BKF, KLU); Genting Sempah ridge, 800 m, 21 May 1982, Stone, B.C.M. 15167 (KLU);
ibidem, 760 m, 6 Mar 1973, Stone, B.C.M. 11091 (KLU); ibidem, 850 m, 18 Aug 1974, Stone,
B.C.M, s.n. (KLU); Terengganu: Ulu Sungei Setiu, 28 Apr 1986, Kiew, R. RK2262 (KEP);
Hulu Terengganu, Tembat Forest Reserve, 364 m, 1 Apr 2009, Mohd. Hairul, M.A. FR160925
(KEP, SING); Besut, Sungai Kemia, 210 m, 29 Aug 1996, Chua, L.S.L. FRI26700 (KEP).

Notes. This is one of the most readily identified species oY Aeschynanthus in Peninsular
Malaysia due to its wide cup-shaped red calyx. It is most similar to Aeschynanthus

34

Gard. Bull. Singapore 68(1) 2016

tricolor Hook, from Borneo but that species mostly has a shorter corolla and has dark
lines extending down the corolla tube (absent in A. obconicus). It is also similar to
Aeschynanthus wallichii but that species has a smaller, more open and green calyx.

9. Aeschynanthus pulcher (Blume) G.Don, Gen. Syst. 4: 656 (1838); A.DC., Prod. 9:
262 (1845); Zollinger, Syst. Verz. 3: 56 (1855); Miquel, FI. Ned. Ind. 2: 721 (1858);
C.B. Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 43 (1 883); Middleton, Edinburgh
J. Bot. 64: 412 (2007); Middleton, Edinburgh J. Bot. 66: 437 (2009). - Trichosporum
pulchrum Blume, Bijdr. FI. Ned. Ind. 764 (1826). - TYPE: Indonesia, Java, Blume,
C.L. s.n. (lectotype L [Leiden number 903,307-167], designated by Middleton (2007)).
(Fig. 12, 13)

Aeschynanthus pai^ifolius R.Br., Cyrtandreae 115 (1839); Brown in Bennett, PL Jav.
Rar. 115 (1840); A.DC., Prod. 9: 262 (1845); Miquel, FI. Ned. Ind. 2: 720 (1858);
C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 42 (1883); Ridley, FI. Mai. Pen. 2:
500 (1 923); Henderson, Malay. Wild. FI. Dicot. 342 (1959); Chin, Gard. Bull. Singapore
32: 147 (1979); Stone, Fed. Mus. J. 26 (1): 98 (1981); Turner, Gard. Bull. Singapore
45: 92 (1993); Turner, Gard. Bull. Singapore 47: 243 (1997 [‘1995’]); Smitinand, Thai
PI. Names ed. 2, 15 (2001). - Trichosporum panifolium (R.Br.) Kuntze, Revis. Gen.
PI. 478 (1891). - TYPE: Indonesia, Sumatra, Pulau Bangka, 1813, Horsfield, T s.n.
(lectotype BM [BM000847144], designated by Middleton (2007)).

Aeschynanthus boschianus de Vriese, Ami. Soc. Agric. Bot. Gand 1: 403 (1845); Van
Houtte, Hort. Vanhoutt. 1 (2): 31 (1846). - Trichosporum boschianum (de Vriese)
Kuntze, Revis. Gen. PI. All (1891); Merrill, Contr. Arnold Arbor. 8: 151 (1934). -
TYPE: Cultivated plant grown by Jacob-Makoy in Belgium from plant collected on
Mt Gede in .lava (untraced).

Aeschynanthus lobbianus Hook., Bot. Mag. 72: t.4260 (1846); Miquel, FI. Ned. Ind. 2:
721 (1858); C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 44 (1883); Clarke in
Hooker, FI. Brit. Ind. 4: 343 (1884); Ridley, J. Linn. Soc. Bot. 32: 501 (1896); Ridley,
J. Straits Branch Roy. Asiat. Soc. 44: 16 (1905); Ridley, J. Asiat. Soc. Bengal 74 (2):
735 (1909). - Trichosporum lobbianum (Hook.) Kuntze, Revis. Gen. PI. 478 (1891). -
TYPE: Indonesia, Java, Lobb, T. s.n. (holotype K).

Aeschynanthus javanicus Rollinson ex Hook., Bot. Mag. 76: t.4503 (1850); Miquel,
FI. Ned. Ind. 2: 721 (1858); C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 44
(1883). - Trichosporum javanicum (Hook.) Kuntze, Revis. Gen. PI. All (1891). -
TYPE: Indonesia, Java, unknown s.n. (holotype K).

Aeschynanthus neesii Zoll. & Moritzi in H.Zollinger, Syst. Verz. 3: 56 (1855), nom.
nud. - Based on Zollinger, H. 1546 (P).

Aeschynanthus in Singapore and Peninsular Malaysia

35

Fig. 12. A-D. Aeschynanthus pulcher (Blume) G.Don showing the variation in flower
morphology and eolour, particularly in the calyx. E. Aeschynanthus radicans Jack. F.
Aeschynanthus wallichii R.Br. (Photos: A, David Middleton; B-D, Jana Leong-Skomickova;
E, Preecha Karaket; F, Ali Ibrahim)

36

Gard. Bull. Singapore 68(1) 2016

Fig. 13. Distribution of Aeschynanthus pulcher (Blume) G.Don in Singapore and Peninsular
Malaysia (•).

Aeschynanthus lampongus Miq., FI. Ned. Ind., Eerste Bijv. 563 (1861); C.B.Clarke in
A.DC. & C.DC., Monogr. Phan, 5(1): 42 (1883). - Trichosporum lampongum (Miq.)
Burkill, Kew Bull. 1935: 319 (1935). - TYPE: Indonesia, Sumatra, Lampung, Radja-
bassa, 910 m, Teijsmann, J.E. HB4482 (lectotype U, designated by Middleton (2009);
isolectotype L).

Aeschynanthus beccarii C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 47 (1883).
- Trichosporum beccarii (C.B.Clarke) Kuntze, Revis. Gen. PI. All (1891). - TYPE:
Indonesia, Sumatra, Sumatera Barat, Padang, Beccari, O. 796 (lectotype K, designated
by Middleton (2009); isolectotypes BM [BM000537111], FI n.v., K, MEL).

Aeschynanthus zollingeri C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 44
(1883). - Trichosporum zollingeri (C.B.Clarke) Kuntze, Revis. Gen. PI. 478 (1891). -

Aeschynanthus in Singapore and Peninsular Malaysia

37

TYPE: Indonesia, Java, Zollinger, H. 1512 (lectotype BM [BMOOl 125703], designated
by Middleton (2009); isolectotypes B [presumably destroyed], P [P00492368]).

Aeschynanthus lanceolatus RidL, J. Bot. 62: 299 (1924); Ridley, FI. Malay Penin.
5: 324 (1925); Turner, Card. Bull. Singapore 47: 243 (1997 [‘1995’]). - TYPE:
Peninsular Malaysia, Pahang, Fraser’s Hill, 1210-1320 m, 16 October 1922, Burkill,
H.M. & Holttum, R.E. 8418 (holot 3 ^e K).

Aeschynanthus lampongus war.paj^ifolius RidL, FI. Malay Penin. 5 : 324 ( 1 925); Turner,
Card. Bull. Singapore 47: 243 (1997 [‘1995’]). - TYPE: Peninsular Malaysia, Pahang,
Puku, Kuala Teku, 20 December 1920, Seimund, E. s.n. (lectotype K, designated by
Middleton (2007); isolectotype SING).

Lithophytic or epiphytic, hanging or creeping, stems dark purple to green, sparsely
puberulent to glabrous. Leaves opposite; petiole 1-3(6) nmi long, sparsely puberulent
or glabrous; blade coriaceous or slightly fleshy, elliptic or ovate, dark green to purplish
above and beneath, not variegated, 0.9-5. 9 x 0.25-2.9 cm, 1.3-5. 6 times as long as
wide, apex rounded to acuminate, base subcordate to cuneate, glabrous above, glabrous
to very sparsely puberulent all over beneath, margin entire, secondai^ veins weakly
visible or obscure, c. 3 pairs, tertiary venation obscure. Inflorescences subterminal
or axillary, 1-2 -flowered; peduncle 0-12.5 mm long; bracts elliptic or ovate, 3-6.5 x
2-5.5 mm; pedicels 6-13 mm long, green, sparsely puberulent to densely long hairy.
Calyx with a tube for most of length and free lobes, dark red to purplish or purplish
brown, mostly sparsely eglandular puberulent, more rarely densely puberulent,
glabrous or with a few hairs only on veiy tips, 1 1 .5-29 mm long; tube 10-25 mm long,
89-96% of total length, 6-2 1 mm wide at top of tube; lobes triangular, semicircular
or merely a weak curve of the upper rim, slightly spreading or erect, 1-5 x 4-7 mm,
apex rounded or obtuse. Corolla 42-66 mm long, inflated at base, externally tube
dark or bright red, often white at extreme base inside calyx tube, lobes bright red,
internally lobes bright red with cream and dark markings on lower 3 lobes; upper
lobes oblong or ovate, spreading or not, 5.7-13 x 1. 9-6.5 mm, sinus 2.2^. 6 mm deep,
apex rounded; lateral lobes deltoid or ovate, spreading or not, 6.1-11,5 x 6.5-10.5
mm, apex rounded; lower lobe elliptic or ovate, spreading or not, 7.6-13 x 6.5-8 mm,
apex rounded; outside sparsely to densely puberulent, inside glabrous or with scattered
papillae or small glandular hairs which are denser in the upper half, sessile glands
below lobes. Stamens reaching end of corolla or slightly exserted, fused in 2 pairs;
filaments red, glabrous or with very few sessile glands or papillose; anterior filaments
inserted at 29^7 mm from corolla base which is 54-68% of corolla length, filaments
21-27 mm long, anthers 2.4-3. 3 x 0.8-1. 6 mm; posterior filaments inserted at 33.5-
41 mm from corolla base which is 60-70% of corolla length, filaments 17.5-21 mm
long, anthers 2. 3-2. 9 x 0.8-1. 9 mm; staminode 0.5-1. 6 mm long. Disk 0.8-1. 5 mm
high, strongly 5-lobed, 5-crenate or a simple annular ring. Pistil 37-58 mm long; stipe
16-27 mm long, puberulent; ovary pale yellow, 14-30 imn long, minutely papillose
or with sessile glands; style pale yellow, 4.5-14 mm long, densely pubescent. Capsule

38

Gard. Bull. Singapore 68(1) 2016

18-40 cm long, 2-A mm wide. Seed grain 0. 6-0.9 x 0.2-0.3 mm, papillose, bubble
cells present at base of hilar appendage; apical appendage a filiform hair, 7-9.5 mm
long; hilar appendage a single filiform hair, 6-9 mm long; appendages not papillose.

Distribution. Extreme south of Thailand, southern Vietnam, Peninsular Malaysia
(Johor, Kedah, Kelantan, Melaka, Negeri Sembilan, Pahang, Penang, Perak, Perils,
Selangor, Terengganu), Singapore, Sumatra, Java, ?Borneo. See also note below.

Habitat and ecology. Epiphytic or clambering over rocks, most common in lower
montane forest, sometimes in lowland, hill dipterocarp or upper montane forest, in
peat swamp forest or in forest on quartzite or sandstone, at 0-2100 m altitude.

Provisional lUCN consen’ation assessment. Least Concern (LC). This species is
widespread and locally common. In Singapore it was long thought to be nationally
extinct but has been rediscovered in Nee Soon Swamp (Williams, 2014).

Additional Singaporean and Peninsular Malaysian specimens examined. PENINSULAR
MALAYSIA: unknown loc., Jan 1882, Kunstler, H. 2636 (NY); Johor: unknown loc., May
1924, Franck, C.W. 209 (C); ibidem, 6 Jun 1965, Jumali K2077 (SINU); Pontian, Pengkalan
Raja, 25 Jun 1939, Corner, E.J.H. & Henderson, M.R. SFN36611 (K, P), SFN36612 (SING);
western tip of Gunong [Gunung] Panti West, 560 m, 1 8 Jul 1981, Maxwell, J.F 81-166 (AAU,
KLU, SING); Gunong [Gunung] Panti, 1 Aug 1960, unknown s.n. (SINU); ibidem, 480 m, 4
Feb 1981, Collenette, l.S. 2253 (E); ibidem, 520 m, 5 Jul 1970, Samsuri Ahmad S.311 (BKF, C,
G, K, KLU, L [2 sheets], LAE, SING); ibidem, 460 m, 31 Jul 2008, Yao, T.L., Lim, C.L., Rosdi,
M. &Ayau, K. FR165 387 (KEP); Kuala Sedili Road, 26 May 1961, Biirkill, H.M. HMB2665 (K,
SING); Kota Tinggi, Kuala Sedili New Road, 23 Jun 1959, Kadim & Noon M. 135 (E, K, L,
LAE, SING); Mawai-Sedili Road, 8 Feb 1961, CheM>, W.-L, CWL224 (C, E, K, L, SING); 8th
mile Mawai-Kuala Sedili New Road, 8 Feb 1961, Sinclair, J. 10568 (E, L, SING); Mersing,
Lombong Batu, 6 Jun 1965, Keng, H. & Jumali K2077 (L); Kulai FR, Gunung Pulai, 29 Jun
1987, Zainudin, A. et al. AZ2438 (UKMB); Penggaram, Nov 1900, Ridley, H.N. s.n. (SING);
Batu Pahat, 1892, Nongchi s.n. (SING); Tanjong Kupang, 1894, Ridley, H.N. s.n. (SING);
Tanah Runto, 14 Feb 1890, Goodenough, J.S. s.n. (SING); ibidem, 22 Apr 1890, Ridley, H.N.
s.n. (SING); Batu Pahat, Nov 1900, Ridley, H.N. s.n. (SING); Tempayang River, Apr 1909,
Ridley, H.N s.n, (SING); Kulai Hutan Simpan, Gunung Pulai, 24 Apr 1922, Md Nur & Kiah
7783 (SfNG); Jambu Larang, Oct 1892, Fielding, J. s.n. (SING); Sungei Tukong, 0 m, 20 Dec
193 1, Spare, G.H. 991 (SING); Segamat, Gunung Chabang Tiga, Gunung Chabang Tiga South
Peak, 935 m, 25 Aug 2007, Chew, M.Y & Rosdi, M. FR155583 (KEP); Gunong [Gunung]
Bekok, 18 Aug 1968, Jumali & Heaslett, E.A. KJ732 (SINU); Gunung Ledang, 7 Dec 2010,
Yeo, C.K. s.n. (SINU); ibidem, 24 Feb 1980, Zainal Mustafa ZM64 (UKMB); ibidem, 26 Apr
1972, Year III students FSC312 (KLU); Gunung Ledang, Above Bukit Besar, 12 Jun 1892,
Ridley, H.N. s.n. (SING); Kedah; unknown loc,, 24 Apr 1868, Maingay, A.C. K.D.1218 (K);
Langkawi, Gunong [Gunung] Raya, Sep 1890, Curtis, C. 2503 (SING); Kedah Peak, 1060 m,
Dec 1915, Robinson, H.C, & Kloss, C.B. 5997 (K, SING); ibidem, 910 m, 2 Dec 1915,
Robinson, H.C. & Kloss, C.B. 6049 (K, SING); ibidem, 1000-1400 m, 21 Jan 1983, Davis
69431 (E); ibidem, 1893, Ridley, H.N. s.n. (SING); ibidem, 910-1210 m, 3 Jun 1971, Keng, H.
etal. 67 (SING, SINU); ibidem, Aug 1893, Ridley, H.N. 5513 (BM, SING); Gunung Jerai, 850
m, 12 Feb 1961, Yong KEP99330 (K, KEP); ibidem, 1200 m, 14 Sep 1979, Rao & et al. 167

Aeschynanthus in Singapore and Peninsular Malaysia

39

(L); ibidem, 8 Nov 1962, Samsuri Ahmad 309 (SING); ibidem, 1121 m, 9 Feb 2010, Imin, K.,
Nor Ezzawanis, A.T., Hovenkamp, P. & Angan, A. FRI66493 (KEP); ibidem, 3 Sep 1995, Choo,
J.P.S., Chua, D.W.S., Lian, S.H.L., Lim, PY. & Wong, J.Y. PYL2 (SINU); ibidem, 1200 m, 14
Sep 1979, Rao & et ai 167 (SINU); ibidem, 850 m, 15 May 1969, Smith, G. 513 (KLU);
ibidem, 1060 m, 10 Jul 1977, Lo, YN. & Mahmud 83 (KLU); ibidem, 1150 m, 13 May 1969,
Stone, B.C.M. & Mahmud 8500 (KLU); Kelantan: S. Lebir, Sungai Terang, 8 Jul 1935,
Henderson, M.R. SFN29643 (K, SING); Gua Musang, 3 Aug 1962, UNESCO limestone
expedition 239 (SING); Gua Musang*, Gua Batu Boh, 300 m, 12 Aug 1971, Chin, S.C, 1441 (L);
Kuala Krai, Gunung Stong Utara Forest Reserve, VJR Gunung Stong Utara, 180 m, 19 Jun
2001, Sam, Y-Y FR146602 (KEP); Dabong, Gunung Setong, 15 May 1988, Kie\\>, R. RK2727
(SING); Melaka: unknown loc., 7 Oct 1865, Maingay, A.C. K.D.1219 (K); Ayer Panas, Nov
1893, Ridley, H.N 1578 (BM, SING); Jus, Oct 1893, Goodenough, J.S 1711 (SING); Jasin,
Bkt. Senggeh FR, Batu Lebah, Kg. Bkt Senggeh, 175 m, 28 Aug 2007, Chan, K,Y FR149293
(KEP); Negeri Sembilan: Serting Ulu Forest Reserve, 4 Jun 1992, Saw, LG. & Mustafa, D.
FRI37514 (K, KEP); Jelebu, Gunung Telapa Buruk, 1000 m, 21 Apr 1988, Kiew, R. RK2641
(KEP); Rembau, Gunung Datuk, 400 m, 10 Jul 1979, Asmah 22 (UKMB); Tampin, Tampin
Forest Reserve, Hutan Lipur G. Tampin, 351 m, 5 May 2009, Chan, K.Y FR164737 (KEP,
SING); Jelebu, Bkt Tangga, G. Telapak Burok, 1038 m, 1 1 Apr 2008, Rosdi, M. & Rqfidah, A.R.
FR159837 (KEP); Pahang: Genting Highlands, 1150 m, 11 Jun 1978, Stone, B.C.M. 13764
(KLU); ibidem, 25 Nov 1984, Kiew, R. RK1548 (KEP); ibidem, 1450 m, 14 Mar 1982, Stone,
B.C.M. 15134 (KLU); ibidem, 15 Nov 1966, Stone, B.C.M. 6543 (G, KLU, L); ibidem, 910 m,
9 May 1972, Kochummen, K.M. FRI16516 (KEP); Genting Highlands, Gunung Ulu Kali, 1600
m, 9 Apr 1978, Ma.xweU, J.F 78-90 (L); Genting Sempah ridge, Nov 1970, Stone, B.C.M. s.n.
(KLU); Kuantan, Bukit Berserah Forest Reserve, 3 Sep 1933, Mahmood KEP 172 16 (K, KEP,
L); Kwantan [Kuantan], Sep 1889, Dtirnford, L. s.n. (SING); Pekan, Jul 1917, Evans, J.H.N.
s.n. (K); ibidem, 1 Apr 1890, Haviland, G.D. s.n. (SING); ibidem, 30 Nov 1924, Burkill, H.M.
& Md Haniff 17258 (SING); Bukit Cheras, 150 m, 11 Oct 1931, Henderson, M.R. 25065
(SING); Rompin, 19 May 1919, Gerb 3257 (SING); ibidem, 15 Nov 1929, Mahammud 17178
(SING); Gunung Mengkuang, 29 Mar 1959, unknown KEP78844 (KEP); Temerluh, Krau GR,
Trail to Batu Bergambar From Batu Gajali, 550 m, 4 Jun 2000, Cliua, L.S.L., Damahuri, S.,
Ayau, K. & Ramli, P. FR145633 (KEP); Gunung Senyum, 29 Jul 1929, Henderson, M.R. s.n.
(SING); Fraser’s Hill, 1210 m, 18 Apr 1955, Purseglove, J.W P4182 (K, L, LAE, SING);
ibidem, 4 Oct 1961, Burkill H.M. HMB2811 (K, L, LAE, SING); ibidem, 1300 m, 19 Apr
1955, Purseglove, J.W. P4202 (E, K, L, SING); ibidem, 1210 m, 24 Sep 1959, Shah, M. &
Noon M. MS607 (E, K, SING); ibidem, 1 6 Jul 2002, Bramley, G. & Sam, Y.-Y. GB27 {E, KEP);
ibidem, 450 m, 16 Apr 1962, Burtt, B.L. & Woods, P.J.B. B1643 (E); ibidem, 22 Dec 1979,
Bremer, B. & Bremer, K. 1808 (KLU, L); ibidem, 1240-1270 m, 3 Oct 1987, Worthington, R.D.
13326 (L); ibidem, 16 Dec 1979, Kiew, R. RK832 (KEP); ibidem, 21 Nov 1980, Kiew, R.
RKI002 (KEP); ibidem, 13 Feb 1986, KieM’ R. RK2160 (KEP); ibidem, 13 Mar 1986, Anthony,
S. SA482 (KEP); ibidem, 10 Nov 1987, Anthony, S. SA897 (KEP); ibidem, 1030 m, Kassim, M.
550 (UKMB); ibidem, 25 Oct 1979, Zainudin, A. AZ40 (UKMB); ibidem, 31 Oct 1991, Kiew,
R. RK3356 (SING); ibidem, 1210 m, 13 Jul 1957, Hawkins, A.S.M. s.n. (SING); ibidem, 1210
m, 25 Aug 1923, Henderson, M.R. FMS11263 (SING); ibidem, 14 Jun 1930, Kalong 22423
(SING); ibidem, 13 Nov 1981, Keng, H. et al. 86 (SING); ibidem, 21 Jun 2006, Phoon, S.N,
Kamarudin S., Ktieh, H.L. & Rafidah, A.R. FR15I576 (KEP); ibidem, Mendum, M. s.n. (E);
ibidem, 26 Aug 1991, Kiew, R. RK3264 (SING); ibidem, 1240 m, 25 Aug 1959, Burkill H.M.
HMB1996 (SING); ibidem, 1210-1320 m, 16-30 Sep 1922, Burkill, H.M. & Holttum, R.E. s.n.
(SING); ibidem, 21 Nov 1977, Keng, H. et al. 97 (SINU); ibidem, 5 Nov 1973, Keng, H. et al.

40

Gard. Bull. Singapore 68(1) 2016

54 (SINU); ibidem, 28 Oct 1974, Keng, H. etal. 93 (SEMU); ibidem, 13 Nov 1981, Keng, H. et
al. CTV86 (SINU); ibidem, Dec 1970, Mahmud bin Sidek s.n. (KLU); ibidem, Sep 1940,
Addison, G.H. s.n. (SING); ibidem, 1 120 m, 29 Aug 1923, MdNur 11138 (SING); ibidem, 1210
m, 29 Aug 1923, Henderson, M.R. FMS11453 (SING); Fraser’s Hill, Jeriau Road, 1060-1210
m, 20 Aug 1960, Burkill, H.M., Shah, M. & Noor, M. HMB2430 (SING); ibidem, 1090 m, 17
Jun 1972, Stone, B.C.M. 10798 (KLU); Fraser’s Hill, Mager Trail, 1 390 m, 3 May 2007, Chew,
M.Y, Imin, K., Kiew, R. & Nooteboom, H.P. FR153648 (E, KEP, SING); Fraser’s Hill, Jalan
High Pines, 1200 m, 13 Nov 2006, Phoon, S.N. FRI51987 (KEP, KLU, SING); Fraser’s Hill,
Pine tree hill, 1450 m, 19 Sep 1922, Burkill, H.M. & Holttum, R.E. 8549 (SING); Fraser’s Hill,
Richmond, 27 Oct 2010, Imin, K., Utteridge, T.M.A. & Julius, A. FRI71855 (KEP); Fraser’s
Hill, Nuri Trail, 3 Dec 1991, Kiew, R. & Anthony, S. RK3414 (KEP); Fraser’s Hill, Gunong
[Gunung] Peninjau, 1300 m, 26 Aug 1959, Burkill, H.M. HMB2038 (K, SING); Cameron
Highlands, 1450 m, 1 Apr 1930, Henderson, M.R. s.n. (NY, SING); ibidem, 1916, Anthony, S.
SA233 (KEP); ibidem, 1450 m, 18 Jan 1924, Henderson, M.R. 11713 (SING); ibidem, 10 Jul
1979, Everard, B. & Young, D. 94 (K); Cameron Highlands, Tanah Rata, 1450 m, 23 Nov 1925,
Henderson, M.R. SFN17921 (K, SING); Cameron Highlands, Sungai Palas Estate, 1520 m, 8
Sep 1956, Burkill, H.M. HMB856 (K, L, SING); Cameron Highlands, Sungai Ichat, 19 Feb
2008, Rqfidah, A.R., Imin, K. & JJmmul Nazrah, A.R. FRI55631 (KEP, SING); Cameron
Highlands, 1 Ian to Sg. Bisik Waterfall from Ringglet road, 1201 m, 19 Nov 2009, Imin, K,
Ong, P. T., Kueh, H.L. & Paiman, N. FRI66402 (KEP); Rompin, Endau-Rompin State Park,
Trail to Gunung Keriong, 260 m, 20 Aug 2002, Sam, Y.-Y, Apok, K. & Markandan, M. FR14 7150
(KEP); Cameron Highlands, Sungai Ichat, 12 Aug 1931, Jaemat 25181 (KEP); Cameron
Highlands, G. Siku FR, Trail to G. Siku, 1545 m, 21 May 2007, Rosdi, M., Imin, K. & Ummul
Nazrah, A.R. et al. FRI58753 (KEP); Cameron Highlands, Gunung Siku Forest Reserve, 1535
m, 25 Oct 2007, Imin, K. et al. FRI58557 (KEP, SING); Cameron Highlands, Path to Taman
Sedia, 6 Apr 1934, Symington, C.F 36073 (KEP); Cameron Highlands, Jin Kamunting 44th
mile, 1520 m, 21 Jul 1965, Khoo, R. & Ng. S.M. 074 (KLU); Penang: Government Hill, Jul
1894, Curtis, C. s.n. (SING); Perak: unknown loc., Scortechini, B. 36a (SING); Ulu Kinta, 620
m, 19 Apr 1961, Castle-Smith, PM. 15 (K); Gunung Korbu, 610 m, 24 Mar 1913, Robinson,
H.C. s.n. (K); Waterfall north of Tana Rata acc. no. 19680649 vouchered as , Cultivated C7431
(E); Kuala Kangsar, Bubu FR, Gunung Bubu, 938 m, 10 Mar 2010, Julius, A., Coode, M.J.E.
& Angan, A. FRI57716 (KEP); Kuala Kangsar, 850 m, 8 Apr 1995, Chua, L.S.L. FR139082
(KEP); Sunga Ryah, Scortechini, B. 39 (SING); Gunung Batu Puteh, Wray, L. 873 (SING);
Bujang Melaka, 1898, Ridley, H.N. s.n. (SING); Taiping, 910m, 12 Feb 1917, MdHaniff &Md
Nur2314 (K, SING); ibidem. Mar 191 1, Anderson, J. W. 156 (SING); ibidem, Dec 1902, Ridley,
H.N. s.n. (SING); ibidem, Nov 1952, Carter s.n. (SING); Taiping, Gunung Hijau, 14 Jul 1906,
Ernst, A. 1189 (L); ibidem, 8 Oct 1899, Fox, W. s.n. (SING); Taiping, Bukit Lai'ut, Oct 1908,
Long, FR. 14 (K); ibidem, 24 Nov 1 999, Kiew, R. RK4869 (SING); ibidem, 9 Mar 1 939, Spare,
G.H. 2139 (SING); ibidem, 1130-1240 m, 9 Sep 1949, Sinclair, J. SFN38609 (BM, E, K, L,
SING); ibidem, Wray, L. 655 (K, SING); ibidem, 20 Oct 1992, Kamarudin S. FR134629 (K);
ibidem, Birch Hill, 1330 m, 9 Sep 1977, Lewis, G.P. 251 (K, KEP); ibidem, 1060-1210 m, 3
Dec 1965, Shah, M. & Sidek MSI 064 (E, L, SING); ibidem, Sep, Wray, L. 3217 (SING);
ibidem, 1210 m, 22 Nov 1980, Keng, H. et al. 27 (SINU); ibidem, Aug 1967, unknown K6502
(SINU); ibidem, 4 Sep 1995, Heng, H.P et al. HP 12 (SINU); ibidem, 1090 m, 2 Mar 1924,
Burkill, H.M. & Md Haniff 1297 1 (SING); ibidem, 28 Feb 1924, Burkill, H.M. & MdHaniff
12833 (SING); ibidem, 1210-1360 m, 6 Mar 1939, Spare, G.H. 2018 (SING); ibidem. Mar
1884, Scortechini, B. 291 (SING); ibidem, 1000 m, 29 Oct 1969, Everett, B. FRI13553 (KEP);
ibidem, 16 Jan 1994, Anthonysamy, S. SA1155 (KEP); ibidem, 880-1060 m, 15 May 1992,

Aeschynanthus in Singapore and Peninsular Malaysia

41

Rahimatsah Amat N12 (KEP); ibidem, 1060 m, 23 Oct 1962, Merton, L.F.H. 004194 (KLU);
ibidem, 1080 m, 20 Mar 2007, Julius, A. FRJ54942 (KEP, SING); ibidem, Sep 1889, Curtis, C.
s.n. (SING); ibidem, 25 Oct 1972, Hons. Students I (SING); ibidem, 910 m, 29 Oct 1968,
Smith, G. 448 (KLU); Perils: Bukit Bintang Forest Reserve, 7 May 1 988, Latiff, A. & Zainudin,
A. ALM2764 (UKMB); Selangor: Klang, Bukit Changgang, 1 Oct 1937, Md Nur SFN33963
(SING); Klang Gates Rridge, 4 Oct 1981, Kiew, R. RK1081 (KEP); Chemara, 3 Jan 1959,
Carrick, J. 607 (KLU); Telok Forest Reserve, 2 1 Feb 1969, Kochummen, KM. FR12654 (KEP);
ibidem, 18 Jul 1963, unknown 4636 (KLU); Sungei Buloh, 30 Nov 1889, Goodenough, J.S. s.n.
(SING); ibidem, 1890, Goodenough, J.S. s.n. (SING); Gunong [Gunung] Bunga Bua, 28 May
1966, Ng, F.S.P. FRI1136 (KEP, SING); Semangkok Pass, Feb 1904, Napier, W. s.n. (SING);
Tanjong Karang, Sungei Tinggi, 30 m, 27 Sep 1975, Samsiiri Ahmad SA1125 (SING); Hulu
Langat, Gn. Nuang, Above PacatCamp, 1416 m, 12 Nov 201 3. Yao, T.L., Imin, K., Mohd Nazri,
A. & Kueh, H.L. FRI77328 (KEP); Gombak, Klang Gates Ridge, Quartz Ridge, 270 m, 6 Apr
2007, Syahida-Emiza & Angan, A. FR155108 (KEP); Kanching, Bukit Talcun, 300^00 m, 19
Mar 1972, Chin, S.C. 1812 (KLU); ibidem, 300 m, 11 Jul 1965, Stone. B.C.M. 5889 (KLU);
Ulu Besut, Bukit Tangga, 610 m, 20 Jul 1984, Shah, M. & Mahmud MS4978 (E, SING); Kuala
Selangor, Sg. Kai'ang FR, 26 m, 1 Jul 2013, Lim, C.L. FR173033 (KEP); Kuala Selangor,
Sungai Tinggi, 14 Oct 1937, MdNur SFN34079 (BM, K, L, MICH, P, SING); Kanching, Bukit
Takun, 1 50 m, 3 Nov 1 93 7. Md Nur SFN34400 (K, MICH, SING, US); Telok Forest Reserve,
Mar 1965, Whitmore, T.C. FR1227 (K, KEP, L, SING); Genting Highlands, Gunung Bunga
Buah, 10 May 1991, Tan, W.K. et al. TWK12 (SING); Genting Highlands, Old trail to Gunung
Bunga Buah, 1095 m, 18 Jan 2008, Chan, Y.M. & Kiew, R. et al. FR160504 (KEP); Genting
Highlands, Ulu Gombak, 910 m, 14 Jun 1973, Mohd Shah & MohdAli MS 3046 (C, SING);
Terengganu: Ulu Besut, Bukit Tangga, 910 m, 18 Jul 1984, Shah, M. & Mahmud MS4895 (E,
KEP, SING); Bundi, Feb 1904, Rostado 64 (SING); Hulu Terengganu, Sg. Cicir, 4 Aug 2007,
Jutta, M. & Kueh, H.L. FR159583 (KEP).

SINGAPORE: Changi, 10 Dec 1889, Ridley, H.N. 2706 (K); MacRitchie Reservoir, 4 Dec
1948, Sinclair, J. 5376 (E); Bukit Timah, 18 May 1964, Hardial, S. & Samsuri Ahmad 18
(C, L, LAE, SING); Ki'angi, 30 Nov 1899, Ridley, H.N. s.n. (L); Krangi, 1891, Goodenough,
J.S. 2705 (SING); Krangi, 29 Nov 1889, Goodenough, J.S. 2706 (BM, SING); Tuas, 1 May
1891, Goodenough, J.S. s.n. (SING); Chan Chu Kang, May 1889, Corporal s.n. (SING); Bukit
Timah, 7 Jun 1974, Noor, M, MN.1913 (SING); Krangi, 10 Dec 1889, Goodenough, J.S. s.n.
(SING); Tengeh Reservoir, 4 Aug 1890, Goodenough, J.S. s.n. (SING); Krangi, 2 Nov 1889,
Goodenough, J.S. s.n. (SING); Krangi, 7 Dec 1889, Ridley, H.N. s.n. (SING); Ki'angi, 8 Apr
1890, Goodenough, J.S. s.n. (BM); Krangi, 1909, Ridley, H.N. s.n. (BM); Nee Soon Swamp
Forest, 8 Aug 2010, Gw’ee, A.T. S1NG201 0-443 (SING); Nee Soon Swamp Forest, 1 7 Feb 2009,
Staples, G., Leong, P., Chew, PT. & Ibrahim, A. et al. SING2009-157 (KEP, SING); Nee Soon
Swamp Forest, 1 7 Apr 2012, Leong, P, Yam, T. W, Liew, D. & Rodda, M. et al. S1NG2012-165
(SING); Tengeh Reservoir, 1891, Ridley, H.N. 2710 (SING); Mandai Road, Aug 1920, Burkill,
I.H. 6102 (SING); Nee Soon Swamp Forest, 8 May 2013, Ibrahim, H., Lua, H.K. & Saijfudin,
S. S1NG201 3-093 (SING); Nee Soon Swamp Forest, 8 May 2013, Ibrahim, H. & Lua, H.K.
SING-2013-092 (SING).

Notes. This is a very widespread and variable species in both leaf and flower characters.
Although it already has many synonyms further investigation is required as to
whether a number of other species in Borneo should also be included in synonymy. In
Peninsular Malaysia and Singapore this species has most commonly gone by the name
Aeschynanthus parvifolius but was previously synonymised in Middleton (2007) as it

42

Gard. Bull. Singapore 68(1) 2016

falls within the range of variation of the species. Likewise, Aeschynanthus lanceolatus
is not distinct from this variable species.

There are a small number of specimens with pubescent leaves, reminiscent of
Aeschynanthus radicans but with the ovary pubescence of^. pule her. Further studies
should be undertaken to see if there is any possibility of hybridisation between these
two similar species.

10 . Aeschynanthus radicans Jack, Trans. Linn. Soc. London 14: 43 (1823); Brown,
Cyrtandreae 115 (1 839); Steudel, Nomencl. Bot. ed. 2, 1: 32 (1840); Brown in Bennett,
PI. Jav. Rar. 115 (1840); A.DC., Prod. 9: 262 (1 845); Zollinger, Syst. Verz. 3: 56 (1855);
Miquel, FI. Ned. Ind. 2; 720 (1858); C.B.Clarke in A.DC. & C.DC., Monogr. Phan.
5(1): 41 (1883); Clarke in Hooker, FI. Brit. Ind, 4: 343 (1884); Ridley, J. Linn. Soc.
Bot. 32: 501 (1896); Ridley, J. Asiat. Soc. Bengal 74 (2): 736 (1909); Ridley, FI. Mai.
Pen. 2: 500 (1923); Bakhuizen van den Brink, Blumea 6: 395 (1950); Merrill, J. Arnold
Arb. 33: 214 (1952); Barnett, FI. Siam. 3 (3): 202 (1962); Backer & Bakliuizen van
den Brink, FI. Java 2: 524 (1965); Chin, Gard. Bull. Singapore 32: 148 (1979); Turner,
Gard. Bull. Singapore 45: 92 (1993); Turner, Gard. Bull. Singapore 47: 244 (1997
[‘1995’]); Buidt, Thai Forest Bull., Bot. 29: 84 (2001); Smitinand, Thai PI. Names ed.
2, 15 (2001); Middleton, Edinburgh J. Bot. 64: 414 (2007). - Trichosponim radicans
(Jack) Nees, Flora 8: 144 (1825); Memll, Contr. Arnold Arbor. 8: 152 (1934). - TYPE:
Indonesia, Sumatra, Lampung, Gunung Rati Telanggaran, 400 m, 14 November 1921,
Iboet 57 (neotype L, designated by Middleton (2007)). (Fig. 12, 14)

Trichosporum ovatum D.Don ex C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1):
41 (1883), nom. nud.

Aeschynanthus radicans var. robustior C.B.Clarke in A.DC. & C.DC., Monogr. Phan.
5(1): 41 (1883). - TYPE: Kalimantan, Kalimantan Selatan, Banjarmasin, Motley, J.
715 (lectotype K, designated here).

Aeschynanthus radicans var. lanuginosa Ridl., J. Asiat. Soc. Bengal 74 (2): 736
(1909); Turner, Gard. Bull. Singapore 47: 243 (1997 [‘1995’]). - TYPE: Peninsular
Malaysia, Perak, Scortechini, B. 330 (not traced). This variety is placed in synonymy
based on the fact that the characters used to distinguish it are continuously variable in
the species.

Epiphytic and hanging to lithoph 3 Tic and creeping or even epiphytic and climbing by
adventitious roots on the stem; stems sparsely to densely puberulent or with longer
hairs. Leaves opposite; petiole 1^.5 mm long, sparsely to densely puberulent; blade
slightly fleshy, ovate, mostly green above and beneath, not marbled, orbicular or
elliptic, 1-5 X 0.8-2. 6 cm, 1.1-2. 6 times as long as wide, apex rounded and apiculate
or acute to acuminate, base subcordate to obtuse; glabrous to sparsely puberulent all
over above, sparsely to densely puberulent all over beneath, margin entire; secondary

Aeschynanthus in Singapore and Peninsular Malaysia

43

veins obscure, tertiary venation obscure. Inflorescences axillary, generally 1 -flowered;
peduncle 0-3 nun long, bracts elliptic to ovate, 5-6 mm long; pedicels 7-14 mm long,
sparsely to densely puberulent or with longer hairs. Calyx with a tube for most of
length and free lobes, rarely slightly zygomorphic, purple, green with red veins, or
green, puberulent, sometimes with quite long hairs, 19.5-26 mm long; tube 13-22 mm
long which is 65-91% of total length, 6.5-9 mm wide at top of tube; lobes narrowly
triangular, ovate or oblong, erect, 2-8 x 2.6-5 mm, apex rounded. Corolla 47.5-58
mm long, inflated at base, externally tube bright red, lobes bright red, internally tube
yellowish, lobes red with yellowish at base and darker red markings on lower 3 lobes;
upper lobes oblong or ovate, slightly spreading or not, 6.5-10 x 2^.4 mm, sinus 2.4-
6.7 mm deep, apex rounded; lateral lobes ovate or deltoid, slightly spreading or not,
7-10 X 6.2-7. 5 mm, apex rounded; lower lobe elliptic or oblong, slightly spreading or
not, 6.5-10.7 X 5. 6-7. 7 mm, apex rounded, outside densely puberulent, inside glabrous

44

Gard. Bull. Singapore 68(1) 2016

or with sessile glands and short stalked glandular hairs throughout, sessile glands
below lobes. Stamens reaching to end of upper corolla lobes or slightly exserted, fused
in 2 pairs, filaments with very few glandular hairs or sessile glands; anterior filaments
inserted at 27-36 mm from corolla base which is 52-63% of corolla length, filaments
22-27 mm long, anthers 2. 1-3.4 x 1 .5-1 .9 mm; posterior filaments inserted at 31-38.5
mm from corolla base which is 59-70% of corolla length, filaments 15.5-21 mm long,
anthers 2.1-3 x 1.2-1. 7 imn; staminode 0.5-5 mm long. Disk 1-8 mm high, a simple
annular ring. Pistil 45.5-61 mm long; stipe 18-28 mm long, densely puberulent,
often with a mix of glandular and eglandular hairs; ovary 14-28 mm long, densely
puberulent, often with a mix of glandular and eglandular hairs; style 6-15 mm long,
densely pubemlent, often with a mix of glandular and eglandular hairs. Capsule 19-35
mm long, 2,5-3 mm wide. Seed grain 0.8-0. 9 x 0.15-0.3 mm, papillose, bubble cells
present at base of hilar appendage; apical appendage a filiform hair, 7-8 mm long;
hilar appendage a single filiform hair, 6-8 mm long; appendages not papillose.

Distribution. Southern Thailand, Peninsular Malaysia (Johor, Kedah, Kelantan,
Melaka, Negeri Sembilan, Pahang, Penang, Perak, Selangor, Terengganu), Singapore
(but cun'ently considered to be nationally extinct), Sumatra, Borneo.

Habitat and ecology. Epiphytic or clambering over rocks in lowland or hill dipterocarp
forest, often by streams, occasionally in swamp forest, at 0-1000 m altitude.

Provisional lUCN conseryation assessment. Least Concern (LC). This species is
widespread and locally common although there are rather few recent collections of it
from Malaysia. The last collection made of this species in Singapore was in 1931 on
Bukit Timah. It has since been listed as nationally extinct by Chong et al. (2009). At
one timQ Aeschynanthus pulcher was also listed as nationally extinct in Singapore and
has since been rediscovered (Williams, 2014). Aeschynanthus radicans may also still
occur in Singapore in small numbers in the forest canopy or may come back in from
Peninsular Malaysia or Sumatra.

Additional Singaporean and Peninsular Malaysian specimens examined. PENINSULAR
MALAYSIA: Johor: Kota Tinggi, 20 Aug 1954, Sinclair, J. 8151 (E); ibidem, 20 Aug 1954,
Sinclair, J. SFN40358 (SENG); Bekok, Endau State Park, Sungai Selai, 200 m, 16 Aug 2002,
Sam, Y.-Y FRI47104 (KEP); Bekok, Endau State Park, Sungai Selai, 200 in, 16 Aug 2002, Sam,
Y-Y FRI47104 (KEP); Kedah: Weng, 3 Aug 1985, Bogner 1699 (M); Giinung Inas Recreation
Park, 29 May 2001, Sam, Y-Y. FR146549 (KEP); Baling, Gunung Inas Forest Reserve, Bukit
Iboi, 2 Nov 2007, Imin, K., Kiieli, H.L & Phoon, S.N. et al FRI58594 (KEP, SING); Kelantan:
Gua Panjang, 7 Aug 1962, UNESCO limestone expedition 440 A (K, L, SING); Gua Musang,
Kuala Beds, 8 Oct 1985, Latiff,A. & Zainiidin, A. ALM1033 (L); Sg. Ketil, May 1991, Davison,
G. W.H. s.n. (KEP); Jeli, Kuala Yong, 22 Sep 1 986, Latiff, A., Zainudin, A. & Miran, S. ALM1644
(UKMB); Kelumpor, 3 Feb 1923, Md Haniffd MdNur 10390 (SING); Kuala Krai, Stong FR,
8 Aug 2009, Julius, A. & Imin, K. FRI56237 (KEP); Melaka: unknown loc., Cuming, H. 2387
(K); ibidem, Griffith, W. s.n. (K); ibidem, 20 Aug 1916, Burkill, LH. 2159 (SING); Sungei
Rambei River, Jun 1889, Derry, R. 205 (SING); ibidem, Oct 1889, Deny, R. 305 (SING);

Aeschynanthus in Singapore and Peninsular Malaysia

45

Selandar, Oct 1893, Goodenough, J.S. 1518 (SING); Negeri Sembilan: Gunung Angsi, 7 Sep
1937, Franck, C. W. 1150 (C); Selam Forest Reserve, 27 Nov 1922, Holttum, R.E. 9715 (SING);
Bukit Siitu, 1 Nov 1 885. Alvins, M. K 1942 (SING); Jelebu, Berembun FR, Jeram Toi, 446 m, 8
Apr 2008, Yao, T.L., Angan, A. & Norazmi, A. FRI57913 (KEP); Pahang: Tahan River, 1 50 in,
8 Sep 1937, Corner, E.J.H. s.n. (L); Sungei Takan, Aug 1891, Ridley, H.K s.n. (SING); Puku,
Kuala Teku, 21 Dec 1920, Seimimd, E. 390 (SING); Sungai Sat, 18 Jul 1929, Henderson, M.R.
SFN21928 (BM, NY, SING); Jerantut, Tekam Forest Reserve, 3 Oct 2002, Sam, Y.-Y. FRI44492
(KEP); Tasek Bera, 1 6 Mar 1 939, Mashall 35847 (KEP); Jerantut, Tekam Forest Reserve, 3 Oct
2002, Sam, Y.-Y. FRI44492 (KEP); Penang: Government Hill, Jul 1894, Curtis, C. s.n. (SING);
Penang Hill, 500 m, 14 Aug 1986, Weber, A. s.n. (KEP); Beside Hill railway, 14 Aug 1925,
Flippance, F s.n. (SING); Perak: Changkat Mentri, Sep 1918, Kloss, C.B. 6476 (K); Kuala
Kangsar, Bubu Forest Reserve, Sungei Kenas, 410 m, 22 Oct 1992, Saw, L.G. FR137684 (KEP);
Sunkai, 24 Feb 1987, Anthony, S. SA740 (KEP); Perak River, 14 Jan 1963, Allen, B.M. 4852A
(SING); Sungai Ryah, Scortechini, B. 37 (SING); Temengor, 1909, Ridley’, H.N. 14281 (SING);
ibidem, Jul 1909, Ridley, H.N. 14282 (BM); Taiping, Bukit Larut, Sep 1908, Long, FR. 13 (K);
ibidem, Keng, H, etal. I (SINU); Selangor: Ulu Langat, 19 Aug 1959, Gadoh anak Umbai for
A.H. Millard KL1680 (K, KEP, L, SING); ibidem, 23 Aug 1958, Gadoh anak Umbaifor A.H.
Millard KL7 81 (KEP); Genting Sempah, 21 Oct 1921, Hume, H.L. 9228 (SING); Semenyih,
23 Jul 1921, Hume, H.L. 8253 (SING); Genting Highlands, Ulu Gombak, 10 Oct 1921, Hume,
H.L. 8943 (SING); Sungei Buloh, Oct 1899, Goodenough, J.S. s.n. (SING); Terengganu:
Bukit Besar, 760 m, 25 Aug 1901, Annandale, N. & Robinson, H.C. s.n. (CGE, K); ibidem,
910 m, 3 May 1899, Gwynne-Vaughan, D.T. 410 (CGE); Hulu Terengganu, Sg. Cicir, 4 Aug
2007, Jiitta, M. & Kueh, H.L. FR159582 (KEP); Hulu Terengganu, Tembat Forest Reserve, 5
Apr 201 0, Mohd Hairul, M.A., Ong, P.T.,0 ’Byrne, P. & Mohd Nazri, A. et al. FR170936 (KEP);
ibidem, 30 Jul 2009, Rosdi, M., Kamarul Hisham, M. & Angan, A. FRI66336 (KEP).
SINGAPORE: Bukit Timah, 12 Sep 1948, Sinclair, J. s.n. (P); ibidem, 26 Feb 1931, Md Nur
SFN24637 (NY, SING); ibidem, 1891, Ridley, H.N. 2704 (K); ibidem, 12 Sep 1948, Sinclair,
J. 5090 (E); ibidem, 1891, Ridley, H.N. 2704 (SING); ibidem, 1900, Ridley, H.N. s.n. (BM).

Notes. Aeschynanthus radicans is rather similar to rare forais of A. pulcher with hairs
on the leaves but can be distinguished from it by the hairs on the ovary (glands only
in A. pulcher).

11. Aeschynanthus rhododendron Ridh, J. Linn. Soc. 32: 500 (1896); Ridley, J.
Straits Branch Roy. Asiat. Soc. 44: 15 (1905); Ridley, J. Asiat. Soc. Bengal 74 (2):
735 (1909); Ridley, FI. Mai. Pen, 2: 499 (1923); Turner, Gard. Bull. Singapore 47: 244
(1997 [‘1995’]); Middleton, Edinburgh J. Bot. 64: 418 (2007). - TYPE: Peninsular
Malaysia, Perak, Taiping, Gunung Hijau, 1520 m, 1892, Ridley, H.N. s.n. (lectotype
SING [SING0035553], designated by Middleton (2007)). (Fig. 15, 16)

Aeschynanthus longicalyx Ridl., J. Straits Branch Roy. Asiat. Soc. 44: 16 (1905);
Ridley, J. Asiat. Soc. Bengal 74 (2): 735 (1909); Ridley, FI. Mai. Pen. 2: 499 (1923);
Henderson, Malay. Wild. FI. Dicot. 341 (1959); Turner, Gard, Bull. Singapore 47: 243
(1997 [‘ 1 995’]). - TYPE: Malaysia, Selangor, Semangkok Pass, February 1 904, Burn-
Murdoch s.n. (lectotype SING [SING0035404], designated by Middleton (2007);
isolectotype K).

46

Gard. Bull. Singapore 68(1) 2016

Aeschynanthus longicalyx var. superbus Ridl., J. Fed. Malay States Mus. 5: 43
(1914); Stone, Fed. Mus. J. 26 (1): 98 (1981); Middleton, Edinburgh J. Bot 64: 422
(2007); Middleton, Edinburgh J. Bot. 66: 440 (2009). - TYPE: Peninsular Malaysia,
Selangor, Gunung Mengkuang Lebah, 1520 m, 4 February 1913, Robinson, H.C. s.n.
(lectotype SING [STNG0035408], designated by Middleton (2007); isolectotypes BM
[BM000537105], K [K000831889]).

Epiphyte with erect and arching stems; branchlets glabrous. Leaves opposite; petiole

3- 12 mm long, glabrous; blade coriaceous to fleshy, mid to dark green above, paler
beneath, not marbled, ovate or elliptic, 2.1-13 x 0.9-5. 9 cm, 1.3-5. 8 times as long as
wide, apex acuminate, base cuneate to rounded, glabrous above and beneath, punctate
or not beneath, margin entire, secondary veins obscure to clearly visible, 3-5 pairs,
tertiary venation obscure or laxly reticulate. Inflorescences axillary or subterminal
with 1-2 flowers; peduncle absent; bracts linear, c. 2 mm long; pedicels 8-19 mm
long, glabrous. Calyx with a tube and free lobes, rarely slightly zygomoiphic, red,
sometimes with some green at base, glabrous or with a few hairs only on very tips
of lobes, 16-65 mm long; tube 11-37 mm long which is 45-88% of total length,
7.5-27 mm wide at top of tube; lobes triangular or naiTowly triangular, erect, 2.3-32 x
1.8-11 mm, apex acuminate or acute. Corolla 54-102 mm long, tube curved, narrow
at base, externally bright red on tube and lobes, internally red with darker markings
on lower 3 lobes and pale orange at base of lobes and in tube; upper lobes oblong,
slightly spreading to reflexed, 9-22 x 8.5-12 mm, sinus 5-11 mm deep, apex rounded;
lateral lobes ovate or orbicular, reflexed, 7-18 x 7-16 mm, apex rounded; lower
lobe oblong or obovate, spreading or reflexed, 9-21 x 8.5-12 mm, apex rounded;
glabrous to sparsely eglandular puberulent outside, sometimes only around top, inside
with scattered glandular hairs throughout except at base and becoming more dense in
throat, sessile glands inside tube present. Stamens not exserted or only vei*y slightly
exserted beyond upper lobes, fused in 2 pairs; filaments bright red, with glandular
hairs; anterior filaments inserted in tube at 40-50.5 mm from corolla base which is
48-59% of corolla length, filaments 32-41 mm long, anthers 3.6-5 x 1.4-2. 5 mm;
posterior filaments inserted in tube at 51-56 mm from corolla base which is 62-69%
of corolla length, filaments 20-25 mm long, anthers 3-4.5 x 1.1-2. 3 mm; staminode
0.7^ mm long. Disk 0.8-1. 5 nmi high, a simple annular ring or 5-crenate. Pistil 56-
84 mm long; stipe 1 8-33 mm long, glabrous; ovary 20-50 mm long, glabrous; style
7-22 imn long, densely glandular and eglandular pubescent. Capsule 11-22 cm long,

4- 6 mm wide, with a long stipe. Seed grain 0.8-1. 5 x 0.2-0.4 mm, papillose, bubble
cells absent; apical appendage short and stout, 0.7-1. 2 mm long; hilar appendage a
single stout appendage, 0.7-1. 1 mm long; appendages not papillose.

Distribution. Extreme south of Thailand, Peninsular Malaysia (Kelantan, Pahang,
Perak, Selangor), Sumatra.

Habitat and ecology. Recorded from (90-) 1 200-2 1 00 m altitude. Almost all collections
of this species have been made in upper montane forest at over 1200 m altitude or in

Aeschynanthus in Singapore and Peninsular Malaysia

47

Fig. 15. Aeschynanthus rhododendron Ridl. A. Flower with larger-lobed calyx from southern

part of range. B. Flower with smaller-lobed calyx from northern part of range. C. Habit showing

the stamens beginning to wither and reflex in the flower on the right. D. Flower from the front.
— — —

E. Flower dissection. (Photos: A-B, David Middleton; C-E, Jana Leong-Skornickova)

mossy forest at even higher altitudes. However, there is a colleetion, Mohd Shah &
Sidek MS1073 (E, SING) recorded from much lower altitude, 300^00 feet (90-120
m) at Bukit Larut. This may be a mistake.

48

Gard. Bull. Singapore 68(1) 2016

Fig. 16. Distribution of Aeschynanthus rhododendron Ridl. in Peninsular Malaysia (•).

Provisional lUCN conservation assessment. Least Concern (LC). This species is
widespread and locally common.

Additional Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA:
Kelantan: Kuala Krai, G. Tera, Permatang C, 11 Feb 2007, Yao, T.L., Kiew, R., Chew, M.Y. &
Kamarudin S. FRI55845 (KEP); Pahang; Genting Highlands, 25 Nov 1984, Kiew, R. RK1546
(KEP); ibidem, 15 Feb 1987, Worthington, R.D. 12463 (L, NY); ibidem, 1520 m, 14 Jun 1967,
Whitmore, T.C. FR13887 (KEP, L, SING); Genting Highlands, Trail to Bt. Tunggul, 1500 m, 18
Jan 1994, Perumal, B., Gan, C.L., Angan, A. & Bedul FRI41661 (KEP); Genting Highlands,
Gunung Ulu Kali, 25 Mar 2008, Phoon, S.N. & O Byrne, P. et al. FR 1605 5 7 (K, KEP); ibidem,
9 May 1991, Tan, W.K. et al. TWKl (SING); ibidem, 1670 m, 19 Sep 1967, Dransfield, J. s.n.
(KEU); ibidem, 1500 m, 21 Dec 1982, Stone, B.C.M. 15366 (KLU); ibidem, 1767 m, 25 Mar
2008, Phoon, S.N. FRI60496 (K, KEP); ibidem, 1700 m, 24 Sep 1998, Kamarudin S. FRI33755
(KEP); ibidem, 1750 m, 12 Oct 1974, Van Balgooy, M.M.J. 2154 (E, L); ibidem, 1670 m, 18
Mar 1979, Stone, B.C.M. 14045 (KLU, L); ibidem, 1700 m, 4 Jun 1977, Siew Wei Hoe 47 (L);

Aeschynanthus in Singapore and Peninsular Malaysia

49

ibidem, 2 Mar 1996, Van Balgooy, M.M.J. 7133 (K, KEP, L); ibidem, 14 Mar 1982, Stone,
B.C.M. 15071 (BISH); ibidem, 1756 m, 22 Mar 2006, Syahida-Emiza FRI51460 (KEP, SING);
ibidem, 16 Feb 2007, Wilkie, R, Julius, A., Nor Ezzawanis, A.T. & Imin, K. FR152906 (KEP);
Cameron Highlands, 1976, Anthony, S. SA231 (KEP); ibidem, 30 Mar 1932, Mead, J.P 27945
(SING); ibidem, 9 Mar 1947, Wyatt-Smith, J. KEP 56945 (K, KEP, L); ibidem, 1820-2000 m,
Aug 1975, Keng, H. et ai K8010 (SINU); ibidem. Batten Pooll, A.H. s.n. (SING); ibidem, 2120
m, 1 Feb 1962, Togashi, M. 622111 (Tl); ibidem, 2000 m, 5 Mar 1970, Togashi, M. s.n. (Tl);
ibidem, 1820-2000 m, 25-31 Aug 1975, Rao & et ai K8010 (AAU, L); Cameron Highlands,
Ulu Bertam Forest Reserve, 1450 m, 9 Nov 1959, Abbe, E.C., Kadim bin Passim, Mansor bin
Omar & Abbe, L.B. 9119 (L, NY); Cameron Highlands, Gunung Batu Berinchang, Tarred road
to microwave station descending 11 km to Brinchang, 2000 m, 7 May 2007. Yao, T.L.,
Nooteboom, H.P. &Angan,A. FRI55898{KEPy, Cameron Highlands, Gunung Batu Berinchang,
1620 m, 20 Jan 2010, Mohd Hairul, M.A., Ong, P T, Siti Muni rah, M. Y. & Kueh, H.L. FR169938
(KEP); ibidem, 1950 m, 20 Jan 2011, Imin, K., Mohd Nazri, A. & Julius, A. et al. FR171954
(KEP); ibidem, 9 Apr 1987, Saw, L.G. FR134368 (KEP); ibidem, 22 Aug 1995, Tam Shell May
TSM2 (KEP); ibidem, 1997 m, 11 Feb 2010, Saw, L.G., Damahuri, S. & Norzamli, A. FRI48241
(BKF, KEP); ibidem, 2020 m, 30 Aug 1970, Chin, S,C. 233 (KLU); ibidem, 1980 m, 22 Mar
2007, Julius, A. FR156020 (KEP, SING); ibidem, 5 Nov 1960, Poore, M.E.D. 466 (KLU);
ibidem, 30 Jul 1967, Stone, B.C.M. 7218 (KLU); ibidem, 29 Jul 2007, Low, Y.W. LYW140
(KLU); ibidem, 1920 m, 9 Dec 1961, Abdul Samat bin Abdullah 68 (KLU); ibidem, 2024 m, 26
Oct 2007, Imin, K. et al. FRI 58570 (K, KEP, SING); ibidem, 1945 m, 21 Feb 2008, Syahida-
Emiza FR157293 (K, KEP, SING); ibidem, 1910 m, 10 Jun 1961, Castle-Smith, P.M. 42 (K);
ibidem. 17 Mar 1996, Van Balgooy, M.M.J. 7228 (KEP, L); ibidem, 1910 m, 18 Apr 1968,
Woods, P.J.B. 680 (E); ibidem, 1870 m, 26 Jul 2002, Bramley, G. & Neale, S. GB31 (E, K,
KEP); ibidem, 2000 m, 20 Jun 1975, Van Balgooy, M.M.J. 2663 (E, L); ibidem, 13 Sep 1985,
Latiff, A., Zainudin, A. & Miran, S. ALM970 (L); ibidem, 1880 m, 12 Aug 1986, Wong, K.M.
FR135244 (K, KEP, L, SING); ibidem, 2020 m, 4 Nov 1958, Sinclair, J. 9949 (E, SING);
ibidem, 1970 m, 11 Oct 1963, Chew, W.-L. CWL922 (K, L, SING); ibidem, 2020 m, 7 Mar
1960, Hawkins, A.S.M. 6 (SING); ibidem, 2 Apr 1989, Latiff, A. & Zainudin, A. ALM3121
(UICMB); ibidem, 1520 m, 15 Feb 1975, Mohd Shah MS 3446 (SING); ibidem, 8 Sep 1970,
Whitmore, T.C. FR115450 (K, KEP, L, SING); ibidem, 1820 m, 9 Apr 1930, Henderson, M.R.
SFN23534 (NY, SING); ibidem, 2020 m, 8 Apr 1960, Abbe, L.B., Abbe, E.C., Kadim bin Passim
& Mansor bin Omar 9767 (K, L, NY); Gunung Benom, 14 Nov 2009, Mohd Hairul, M.A. &
Mohd Nazri, A. et al. FRI69892 (KEP); Cameron Highlands, Gunung Berembun, 1750 m, 5
Apr 1988, Sabari, D. FRI32715 (KEP); ibidem, 28 Jun 1988, Samsuri Ahmad SA96 (SINU);
ibidem, 9 Aug 2008, Rosdi, M. & Plioon, S.N et al. FRI59867 (KEP); ibidem, Nov 1908,
Ridley, H.N 13600 (BM, K, SING); ibidem, 1820 m, 25 Nov 1925, Henderson, M.R. 17988
(SING); ibidem, 4 Apr 1930, Henderson, M.R. s.n. (SING); ibidem, 1820 m, 10 Sep 1970,
Whitmore, PC. FRH5495 (K, KEP, L, SING); ibidem, 1670 m, 3 Oct 1963, Chew, W.-L.
CWL772 (C, G, K, L, SING); Cameron Highlands, Trail to G. Berembun, 1670 m, 1 Mar 1968,
Ng, F.S.P. FRI5931 (K, KEP, L); Cameron Highlands, near Parit Falls, Mar 1952, .lohnston,
A.M. 76 (SING); Cameron HigWands, Break Pressure Tank Hill, 1480 m, 3 1 Aug 1956, Burkill,
H.M. HMB760 (K, L, LAE, SING); Cameron Highlands, Tanah Rata, 1400-1500 m, 12 Jan
1983, Davis 69248A (E [2 sheets], SING); ibidem, 1440 m, 29 Aug 1956, Burkill, H.M.
HMB730 (K, L, SING); Cameron Highlands, Tanah Rata, Parit Waterfall, 28 Aug 1 990, Okada,
K, Darnaedi, D., Akiyama, H, Kawahara, T. & Watano, Y. 1027 (Tl); Cameron Highlands,
Robinson’s Falls, 1430 m, 24 Mar 2007, Julius, A., Middleton, D.J. & Lindsay, S. et al.
FRI57483 (KEP); ibidem, 1400-1840 m, 20 Mar 1992, Klackenberg, J. & Lundin, R. 689 (L);

50

Gard. Bull. Singapore 68(1) 2016

ibidem, 9 May 1964, Mahmud bin Sidek 4816 (KLU); ibidem, 14 Apr 1968, Woods,

Black, M. & Wycherley, R 615 (E, KEP); Cameron Highlands, Tanah Rata, 1440 m, 29 Aug
1970, Chin, S.C. 165 (KLU); Cameron Highlands, Brinchang Mist Forest, 1670 m, 20 Feb
1962, Poore, M.E,D, 1028 (KLU); Gunung Benom, 31 Jul 1925, unknown s,n. (SING); ibidem,
28 Jul 1925, Federated Malay States Museum Coll s.n. (K); Gunung Mengkuang, 1520 m, 28
Mar 1959, Wyatt-Smith, J. 78808 (KEP); Gunung Tahan, Tangga Duabelas, 1530 m, 24 Mar
1987, Kiew\ R. RK2430 (KEP); Above Genting Sempah, 1440 m, 23 Jul 1967, Stone, B.C.M.
7194 (KLU, L); Fraser’s Hill, 15 Nov 1977, Keng, H. et al. 410 (SINU); ibidem, 1450 m, 27
Aug 1923, Henderson, M.R. 11365 (SING); Fraser’s Hill, Pine tree hill, 1450 m, 19 Sep 1922,
Burkill, HM. & Holttum, R.E. 8531 (SING); ibidem, 1450 m, 27 Aug 1923, Md Nur 11056
(SING); Gunong [Gunung] Gedong, 3 Sep 1928, Holttum, R.E. 20769 (SING); Gunung Tahan,
1911, Ridley, H.N. 16090 (K, SING); Perak; unknown loc., Scortechini. B. s.n. (SING);
Caulfield’s Hill, 1210 m, Apr 1884, Scortechini, B. 388 (SING); ibidem, Aug 1885, Wray, L.
656 (K, SING); Taiping, Scortechini, B. 468b (SING); ibidem, 12 Nov 1889, Curtis, C. s.n.
(SING); Taiping, Gunung Hijau, 1530 m, 7 Jun 1983, Stone, B.C.M. 15497 (KLU); ibidem, 7
Mar 1939, Spare, G.H. 2047 (SING); ibidem, Sep 1889, Curtis, C. s.n. (SING); ibidem, 1448
m, 19 Mar 2007, Julius, A., Middleton, D.J. & Lindsay, S. et al. FRI53302 (KEP, SING);
ibidem, 1448 m, 14 Jul 2006, Kamarul Hisham, M. FR152054 (KEP); ibidem, 1440 m, 5 Mar
1924, Henderson, M.R. 11829 (SING); ibidem, 1360 m, 14 Feb 1907, Md Haniff & Md Nur
2456 (SING); ibidem, 8 Oct 1899, Fox, W. s.n. (SING); ibidem, 1210 m, Dec 1887, Curtis, C.
1311 (K, SING); ibidem, 1210-1360 m, 4 Dec 1965, Mohd Shah & Sidek MSll 10 (SING);
ibidem, 1520 m, 1892, Ridley, H.N. s.n. (SING); ibidem, 1380 m, 11 Sep 1949, Sinclair, J. &
Kiah SFN38670 (BM, E, K, L, P, SING); Sungei Pelus, 1520 m, 1889, Wray, L. s.n. (SING);
Gunong [Gunung] Inas, 1180-1360 m, 9 Dec 1899, Yapp, R.H. 440 (CGE^ R); Gunung Batu
Puteh, 1920 m, 26 Feb 1994, Perumal, B., Gan, C.L., Shahril, K.Z. & Angan, A. FRI41602
(KEP, KLU); Gunong [Gunung] Jasar, 23 Aug 1977, Ng, FS.P FR127146 (KEP); Gunong
[Gunung] Jasar, 17 Apr 1968, Woods. P.J.B. 632 (E); Gunung Korbu, 1670 m, 10 Mar 1913,
Robinson, HC. s.n. (K); Taiping, Bukit Larut, Bukit B intang Hijau, 1451 m, 1 Mar 2011,
Wilkie, P., Siti Munirah, M.Y., Mohd. Hairul, M.A. & Nazre FRI75005 (E, KEP); ibidem, 16
Aug 1986, Weber, A. s.n. (KEP); ibidem, 90-120 m, 9 Dec 1965, Mohd Shah & Sidek MS 1073
(E, SING); ibidem, 1270 m, 20 Oct 1988, Saw, LG. FRI36398 (KEP); ibidem, 27 Jun 1984,
Keng, H. et al. D-li5 (SINU); Selangor; Semangkok Pass, Feb 1904, Burn-Murdoch s.n. (K,
SING); Gunung Mengkuang Lebah, 1520 m, 16 Jan 1913, Robinson, H.C. s.n. (K); ibidem,
1520 m, 17 Jan 1913, Robinson, H.C. s.n. (K); ibidem, 1520 m, 4 Feb 1913, Robinson, H.C. s.n.
(BM, K, SING); Bukit Fraser, Jul 1899, Hose, G. 46 (SING); Gunong [Gunung] Bunga Buah,
1360m acc. no. 19680624 vouchered as Cultivated C7315 (E, KEP); Ulu Langat, Feb 1912,
Kloss, C.B. s.n. (K); Hulu Langat, Ulu Langat Forest Reserve, 1440 m, 25 Jan 2003, Sam, Y.-Y.
FR147208 (KEP); Ulu Langat, Gunung Nuang, 12 May 1940, Symington, C.F 51762 (KEP);
Gunong [Gunung] Nuang, 15 Aug 1974, Lee, D. W. s.n. (KLU); Ulu Selangor, Gunung Moyang,
3 Nov 1940, Symington, C.F. 56711 (KEP).

Notes. This species is rather variable in the shape of the calyx. The type of the species
is from Gunung Hijau in the Taiping Hills where the calyx is generally naiTow and
the lobes small. This is the fonn also found in Thailand. In the Genting Highlands,
Fraser’s Hill and Gunung Benom the calyx tube flares gently from the base so that the
mouth is wider and the lobes are much larger. This is the plant fonnerly recognised
as Aeschynanthus longicalyx. The largest calyx seen is from Gunung Ulu Kali in the
Genting Highlands. Material from the Cameron Highlands is rather intermediate.

Aeschynanthus in Singapore and Peninsular Malaysia

51

12 . Aeschynanthus speciosus Hook., Bot. Mag. 73: t.4320 (1847); Miquel, FI. Ned.
Ind. 2: 718 (1858); Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 33 (1883); Ridley,
J. Linn. Soc. Bot. 32: 499 (1896); Ridley, J. Straits Branch Roy. Asiat. Soc. 44: 14
(1905); Ridley, J. Asiat. Soc. Bengal, Pt. 2, Nat. Hist. 74(2): 733 (1909); Ridley, FI.
Mai. Pen. 2: 498 (1923); Turner, Gard. Bull. Singapore 47(1): 244 (1997 [H995’]);
Burtt, Thai Forest Bull., Bot. 29: 84 (2001); Smitinand, Thai PI. Names, ed. 2: 15
(2001); Middleton, Edinburgh J. Bot. 64: 420 (2007). - Trichosporum speciosum
(Hook.) Kuntze Revis. Gen. PL: 478 (1891). - TYPE: Java, Jawa Barat, Mt Asapan,
Lobb, T. s.n. (lectotype K, designated by Middleton (2007)). (Fig. 17, 18)

Aeschynanthus aucklandiae Low, Sarawak: 386 (1848). - TYPE: Borneo, East
Malaysia, Sarawak, Low, H. s.n. (holotype CGE).

Epiphyte with erect, arching and pendulous stems; branches glabrous. Leaves in whorls
of 3-6; petiole generally wide and flat, sometimes slightly winged, 2-12 mm long,
glabrous; blade coriaceous or slightly fleshy, mid to dark green above, paler beneath,
not marbled, elliptic or ovate, 3.8-15.3 x 1.2-5. 5 cm, 2.3-6. 1 times as long as wide,
apex acuminate to caudate, base cuneate to rounded, glabrous above and beneath,
not punctate beneath, margin dentate to entire, often strongly undulate, secondary
veins obscine to weakly visible, c. 7-8 pairs, tertiary venation obscure. Inflorescences
tenninal with 4-12 flowers; peduncle absent; bracts linear, 5-13 mm long; pedicels
7-14.5 mm long, glabrous or sparsely eglandular puberulent. Calyx of separate lobes
free to the base, pale green, yellowish or dark reddish brown and then often flushed with
one of the other colours, glabrous to densely eglandular or glandular pubemlent; lobes
nan'owly triangular or linear, erect, 6.5-26.3 x 1-2.6 mm, apex acute or acuminate.
Corolla 54-118 mm long, tube naiTOw at base, externally yellow, yellowish green or
orangish on basal half to two-thirds of tube and orange-red to bright red above, more
rarely bright red all over, lobes orange-red to bright red, internally light yellowish
in tube and red or orangish on upper 2 lobes and red or orangish at the margin with
darker V- or W-shaped markings on lower 3 lobes and yellowish at the base; upper
lobes oblong, not spreading or reflexed, 4.5-11 x 3.6-8 mm, sinus 4-8.2 mm deep,
apex rounded; lateral lobes oblong, deltoid or ovate, spreading, 5.7-14 x 5.7-13.5
mm, apex rounded; lower lobe oblong or elliptic, spreading or reflexed, 7-15.5 x

4.5- 12 mm, apex retuse to rounded; outside glabrous, slightly papillose or sparsely
glandular puberulent, sometimes only on ciliate lobes, inside with sparse sessile
glands. Stamens long exserted, fused in 2 pairs; filaments bright red or white, with
glandular hairs, anthers grey, pale brown or purple-black; anterior filaments inserted at
50-96 mm from corolla base which is 67-81% of corolla length, filaments 29-46 mm
long, anthers 3.9-7 x 1.3-2. 3 mm; posterior filaments inserted at 53-100 mm from
corolla base which is 72-85% of corolla length, filaments 21-38 mm long, anthers

2.6- 5 X 1. 2-2.1 mm; staminode 0.3-4 mm long. Disk 1.2-2. 5 mm high, 5-dentate
or 5-crenate. Pistil 83-1 30 mm long; stipe 20-30 mm long, with few sessile glands
or glabrous; ovary 27-44 mm long, with sessile glands, these sometimes very few;
style yellow or green, 14-65 mm long, glandular pubescent, especially in upper half

52

Gard. Bull. Singapore 68(1) 2016

Capsule 20-45 cm long, 2. 3-3. 6 mm wide. Seed grain 0.9-1. 3 x 0.3-0.4 mm, warty,
bubble cells absent; apical appendage a filifonn hair, 1 5-22 mm long; hilar appendage
a single filiform hair, 15.5-23 mm long; appendages papillose.

Distribution. Southern Thailand, Peninsular Malaysia (Pahang, Perak, Selangor),
Sumatra, Java, Borneo.

Habitat and ecology. In hill dipterocarp forest habitats at 240-760 m altitude. It has
been recorded to 1900 m altitude in Sumatra and is likely to also occur at higher
altitudes in Peninsular Malaysia.

Provisional lUCN conseiyation assessment. Least Concern (LC). This species is
remarkably infrequently collected despite having very showy flowers such that it is
readily observed in the forest for collection. It is likely to be relatively rare over most
of its range but both the EOO and AOO are much higher than those suggesting a threat
categoiy would be merited.

Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA: Pahang: Bentong
Sg., Naming, 760 m, 18 Jan 1959, unknown KEP93108 (KEP); Rompin, Endau-Rompin State
Park, Ulii Kinchin, Sg. Kinchin, Norain, Raihana & Rosjana 07 (SINU); Perak: Near Ulu
Selama, 8 Jan 1900, Yapp, R.H. 610 (CGE); Bruseh near Bidor, 240 m, 27 .lun 1904, Napier,
W. s.n. (SING); Selangor: Ulu Langat, Gadoh, U. KL1319 (KEP, SING); Serendah Ridge, 300
m, 18 Jul 1957, Hawkins, A.S.M. s.n. (SING); Bukit Elam, Jan 1891, Kelsall, H. s.n. (SING).

Notes. It is possible that Aeschynanthus pseudohybridus Mendum from Borneo is a
synonym of this species but further study is necessary. It differs in the more uniformly
red flowers compared to the orange and yellow flowers of A. speciosus.

13. Aeschynanthus volubilis Jack, Trans. Linn. Soc. London 14: 42 (1823); Brown,
Cyrtandreae 115 (1839); Steudel, Nomencl. Bot. ed. 2, 1: 32 (1840); Brown in Bennett,
PI. Jav. Rar. 115 (1840); A.DC., Prod. 9: 262 (1845); Miquel, FI. Ned. Ind. 2: 719
(1858); C.B. Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 46 (1883); Balchuizen
van den Brinlc, Blumea 6: 395 (1950); Merrill, J. Arnold Arb. 33: 214 (1952); Backer
& Bakhuizen van den Brink, FI. Java 2: 524 (1965); Sinha, El. Gt. Nicobar Isl. 329
(1999). - Trichosporum volubile (Jack) Nees, Flora 8: 144 (1825). - TYPE: Plate II,
fig. 3 in Jack, Transactions of the Linnean Society of London vol. 14, unnumbered
page between pp. 44 and 45 (1823), lectotype designated here. Epitype: Sumatra, East
Coast [Sumatera Utara], Asahan, Silo Maradja, June 1927, Bartlett 8695 (epitype NY,
designated here; isoepitype MICH). (Fig. 19)

Aeschynanthus obovatus C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 47
(1883). - Trichosporum obovatum (C.B.Clarke) Kuntze, Revis. Gen. PI. 478 (1891). -
TYPE: Kalimantan, Kalimantan Selatan, Banjarmasin, Motley, J. 1158 (holotype K).

Aeschynanthus in Singapore and Peninsular Malaysia

53

Fig. 17. Aeschynanthus speciosus Hook. A. Habit. B. Flowers, side view. The flower on the
right is older with a much longer style and the stamens beginning to reflex (and with one
pair becoming detached). C. Flower dissection with 2 calyx lobes removed to view nectary.
(Photos: Jana Leong-Skomickova)

Aeschynanthus obovatus var. pallidus C.B. Clarke in A.DC. & C.DC., Monogr.
Phan. 5(1): 48 (1883). - TYPE: Java, Zippelius, A. Leiden number 52 (leetotype L
[L0281661], designated here; isoleetotypes L [L0281673, L0281674]).

Aeschynanthus hoseanus KraenzL, J. Linn. Soe. Bot. 37: 284 (1906). - Trichosporum
hoseanum (KraenzL) Merr., J. Straits Branch Roy. Asiat. Soe. special number: 530

54

Gard. Bull. Singapore 68(1) 2016

Fig. 18. Distribution of Aeschynanthus speciosus Hook, in Peninsular Malaysia (•).

(1921). - TYPE: Borneo, East Malaysia, Sarawak, Saribas, 24 Nov 1893, Haviland,
G.D. & Hose, C. 3528 (holotype K; isotype BM [BM000797673]).

Aeschynanthus flippancei Ridl., Bull. Misc. Info. Kew. 1926: 473 (1926); Turner,
Gard. Bull. Singapore 47: 243 (1997 [‘1995’]). - TYPE: Cultivated in Penang
Botanic Gardens but originally from Malaysia, Penang, Balik Pulau, Flippance, F s.n.
(lectotype K, designated here; isolectotype SING [SING0035633]).

Epiphyte with erect, arching or pendulous stems; stem glabrous. Leaves opposite;
petiole 3-14 mm long, glabrous or sparsely puberulent; blade coriaceous, mid to dark
green above, paler beneath, elliptic or ovate, 1.8-5. 7 x 0. 7-3.2 cm, 1.6-2. 7 times as
long as wide, apex obtuse to acuminate, base rounded to cuneate, glabrous above and
beneath, not punctate beneath, not variegated, margin entire, 3-5 pairs of secondary
veins, weakly visible or obscure, tertiary venation obscure. Inflorescence subterminal

Aeschynanthus in Singapore and Peninsular Malaysia

55

or axillary, 3^-flowered; peduncle 3-5 mm long; pedicels 7-12 mm long, glabrous.
Calyx with a tube for most of length and free lobes, tube fairly broad and gently flaring
from base, 10-16.5 mm long; tube 8.8-14 mm long, 83-90% of total length, c. 6 imn
wide at top of tube; lobes triangular or semicircular, slightly spreading or erect, 1-2.5
X 2.3-5 mm, apex rounded to acute, rarely acuminate. Corolla 19.5-27 mm long, tube
slightly curved or almost straight, broad at base; upper lobes oblong, not spreading or
reflexed, 3. 2^.5 x 2.5 mm, sinus 1.5-2 mm deep, apices rounded; lateral lobes deltoid,
reflexed, 3-5.2 x 3. 8^.4 mm, apices rounded; lower lobe oblong, spreading, 4.2-5. 5
X 3.2-4 mm, apex rounded; outside glabrous except for ciliate lobes, inside with sparse
glandular hairs in upper part of tube and more densely so on inside of lobes except near
margin. Stamens long exserted, fused in 2 pairs; filaments with sparse short stalked
glands throughout; anterior filaments inserted at 14-17 mm from corolla base which
is 52-63% of corolla length, filaments 16-18 mm long, anthers 2.4 x l mm; posterior
filaments inserted at 16-19 mm from corolla base which is 48-67% of corolla length,
filaments 12.5-13 mm long, anthers 2-2.2 x 1-1.6 mm; staminode 0.4-1. 3 mm long.
Disk 1-1.2 mm high, a simple annular I'ing or 5-crenate. Pistil 18-32 mm long; stipe

1.7- 8 mm long, glabrous; ovary 10-16 mm long, with very few sessile glands and
appearing glabrous; style 4-8 mm long, glandular pubescent. Capsule 10-28 cm long,

2.8- 3 mm wide. Seed grain 0.5-0. 6 x 0. 1-0.2 mm wide, smooth, bubble cells present
at base of hilar end; apical appendage a filiform hair, 4-8.5 mm long; hilar appendage
a single filiform hair, 7.5-9 mm long.

Distribution. Peninsular Malaysia (Penang), Sumatra (but see note below).

Habitat and ecology. None of the collections I have seen of this species from Malaysia
or elsewhere include habitat data or altitudinal range.

Provisional lUCN conservation assessment. Data Deficient (DD). The limits of the
species and its distribution are unclear.

Additional Peninsular Malaysian specimens examined. PENINSULAR MALAYSIA: Penang:
BalikPulau, Flippance, F s.n. (K, SING); Government Hill, May 1921, Md Haniff s.n. (SING).

Notes. Aeschynanthus volubilis is the type species of the genus. It is known in
Peninsular Malaysia only from a small number of specimens formerly identified as
A eschynanyth us flippancei.

There are a number of species and specimens from Borneo and eastern Malesia
which appear similar to Aeschynanthus volubilis but require further study to ascertain
whether they are synonyms and/or extensions of the distribution of the species.

14 . Aeschynanthus wallichii R.Br., Cyrtandreae 116 (1839); Brown in Bennett, PI.
Jav. Rar. 116 (1840); de Candolle, Prod. 9: 263 (1845); Miquel, FI. Ned. Ind. 2: 722
(1858); C.B.Clarke in A.DC. & C.DC., Monogr. Phan. 5(1): 48 (1883); Clarke in

56

Gard. Bull. Singapore 68(1) 2016

Hooker, FI. Brit. Ind. 4: 343 (1884); Ridley, J. Linn. Soc. Bot. 32: 502 (1896); Ridley,
J. Asiat. Soc. Bengal 74 (2): 736 (1909); Ridley, FI. Mai. Pen. 2: 500 (1923); Turner,
Gard. Bull. Singapore 45: 92 (1993); Turner, Gard. Bull. Singapore 47: 244 (1997
[‘1995’]). - Aeschynanthus mdicans Wall., Num. List no. 798 (1829), nom. nud. -
TYPE: Singapore, 1822, Wallich, N. 798 (lectotype K-W [K001111917], designated
here; isolectotypes CGE, K [K000831885]). (Fig. 12, 19)

Aeschynanthus brevicalyx Miq., FI. Ned. Ind. 2: 720 (1858); C.B. Clarke in A.DC. &
C.DC., Monogr. Phan. 5(1): 49 (1883). - Trichosporum brevicalyx (Miq.) Kuntze,
Revis. Gen. PI. 477 (1891). - TYPE: Indonesia, Sumatra, Sikilieh, Teijsmann, J.E.
HB1194 (lectotype U, designated here; isolectotype L).

Epiphytic; stems glabrous. Leaves opposite; petiole 5-12 mm long, glabrous; blade
coriaceous or slightly fleshy, ovate or elliptic, 3.1-10.5 x 0.8-5 cm, 1.7-3. 8 times as
long as wide, apex acuminate, base cuneate to subcordate, not marbled, glabrous above
and beneath, not variegated, margin glabrous, entire, 4-5 pairs of secondary veins,
only weakly visible or obscure, tertiary venation obscure. Inflorescence subterminal
or axillary, 3-6-flowered; peduncles to 2.5 mm long, subglabrous to densely eglandular
puberulent; pedicels 4.2-9 mm long, green, subglabrous to densely eglandular
puberulent. Calyx fused into a wide open cup with lobes semicircular or only as curves
on rim, green or yellow-green, sparsely to densely eglandular pubemlent, sparsely
pubescent inside, 2. 5-6. 5 mm long; tube 1. 9-5.5 mm long which is 70-90% of total
length, tube 4-7 mm wide at apex; lobes semicircular or a weak curve of the rim,
spreading or erect, 0.6-1 .2 x 3. 5-5. 5 nmi, apices rounded. Corolla 19.5-27 mm long,
tube slightly curved or more or less sti'aight, externally bright or dark red, base of tube
not gibbose, outside sparsely to densely glandular to eglandular puberulent, inside
with short stiff upward pointing hairs near base or throughout, sessile glands at inside
sinuses of lobes; upper lobes orbicular or oblong, not spreading or reflexed, 3. 8-6. 6 x
3^.5 mm, sinus 2.2-3. 1 mm deep, apices rounded; lateral lobes ovate or deltoid, not
spreading or reflexed, 5-8 x 4.2-6. 5 mm, apices rounded; lower lobe ovate or orbicular,
not spreading or reflexed, 4.7-7 x 4.7-9 mm, apex rounded. Stamens slightly or not
exserted, flised in 2 pairs, filaments papillose; anterior filaments inserted at 10-12.7
mm from corolla base which is 48-51% of corolla length, filaments 14-15 mm long,
anthers 1 .9-2.2 x 0.9-1 mm; posterior filaments inserted at 1 1 .5-14.5 mm from corolla
base which is 55-58% of corolla length, filaments 10-11 mm long, anthers 1.7-2. 1 x
0.9-1 mm; staminodes 1-1.2 mm long. Disk c. 0.9 mm high, a simple annular ring
or 5-crenate. Pistil 16.5-22 mm long; stipe 1.5-4 mm long, glabrous or with few
sessile glands; ovary 12.5-14.7 mm long, with sessile glands; style 2. 5-3. 3 mm long,
glandular pubescent; stigma circular. Capsule 18-37 cm long, c. 4 mm wide. Seed
grain 0.8-1 .2 x 0.2-0.3 mm, papillose, bubble cells present at base of hilar appendage;
apical appendage a filiform hair, c. 9 mm long; hilar appendage a single filiform hair,
c. 10 mm long; appendages not papillose.

Distribution. Peninsular Malaysia (Johor, Pahang, Perak, Terengganu), Singapore,
Sumatra.

Aeschynanthus in Singapore and Peninsular Malaysia

57

Fig. 19. Distribution of Aeschynanthus volubilis Jack (▼) in Peninsular Malaysia and
Aeschynanthus wallichii R.Br. (•) in Singapore and Peninsular Malaysia.

Habitat and ecology. In lowland dipterocarp forest, or in peat swamp forest at 0-760
m altitude.

Provisional lUCN consen^ation assessment. Least Concern (LC). This species is
relatively infrequently collected but has an EOO and AOO considerably above levels
considered to be concerning. In Singapore it is considered to be Critically Endangered
and is now confined to Nee Soon Swamp.

Additional Singaporean and Peninsular Malaysian specimens examined. PENINSULAR
MALAYSIA: Johor: 5 miles S of Labis FR, 17 Apr 1966, Whitmore, T.C. KEP207 (KEP);
Mawai-Sedili Road, 24 Jan 1961, Chew, W.-L. CWL222 (C, E, K, L, SING); Kuala Sedili
fresh water swamp forest, 6 m, 26 May 1961, Burkill, H.M. HMB2668 (SING); Kota Tinggi,
Kuala Sedili New Road, 23 Jun 1959, Kadim & Noor, M. 138 (SING); ibidem, 23 Jun 1959,
Kadim & Noor, M. 131 (SING); ibidem, 25 Sep 1959, Shah, M. & Noor, M. MS813 (E, L,

58

Gard. Bull. Singapore 68(1) 2016

SING); ibidem, 23 Jun 1959, Shah, M. 138 (K); Kota Tinggi, Gunung Panti West, 550 m,
19 Jul 1981, Maxwell, J.F. 81-182 (L, SING); Gunung Panti, 520 m, 5 Jul 1970, Samsuri
Ahmad SA318 (SING); ibidem, 4 Mar 1987, Kiew, R. RK2398 (SING); ibidem, 470 m, 24 Aug

1986, Wong, K.M. s.n, (KEP); ibidem, 22 Jan 1994, Kiew, R. RK3775 (KEP); ibidem, 4 Mar

1987, Kiew, R. RK2398 (KEP); ibidem, 460 m, 31 Jul 2008, Yao, T.L., Lim, C.L., Rosdi, M.

6 Ayau, K. FR165386 (KEP); ibidem, 480 m, 5 Feb 1981, Collenette, IS. 2254 (E); Pontian,
Pengkalan Raja, 28 Jun 1939, Henderson, M.R. SFN36656 (K, SING); Gunung Ledang, Lobb,
T 111 (K); Alor Bukit, 22 Nov 1966, Hardial, S. 537 (K); Sungai Kayu, 12 Oct 1936, Kiah
SFN32054 (BM, K, LAE, SING); Alor Bukit, 22 Nov 1966, Hardial, S. 537 (SING); Endau,
Sg. Sempanong, 4 Feb 1986, Kiew, R. RK2112 (SING); Ulu Batu Pahat, Kampong Simpai,
1892, Lake & Kelsall, H. s.n. (SING); Sebrau [?Tebrau], Aug 1908, Ridley, HN. s.n. (SING);
Tempayang River, 1908, Ridley, H.N. s.n. (BM, SING); Tanjong Kupang, Jun 1890, Ridley,
HN. s.n. (SING); Nov-Dec 1935—1935, Vesterdal, A. 306 (C); Kluang, 20 Nov 1922, Holttum,
R.E. 9489 (SING); ibidem, 7 Mar 2000, Morgany, T, Tan, H.T.W. & Loo, A.H.B. M260 (SINU);
Pahang: Pekan, Pekan Forest Reserve, Sungai Bebar, 21 Apr 2005, Zainon, A.S. FRI50105
(KEP); Rompin, Endau-Rompin State Park, Trail to Gunung Keriong, 20 Aug 2002, Sam, Y.-
Y. FR147144 (KEP); Perak: Chenderiang, Gunong [Gunung] Bujang Melaka, 120 m, 10 Aug
1959, Mrs. Allen & Kadim 436 (SING); Terengganu: Ulu Brang, 760 m, Jul 1937, Moysey,
L. & Kiah SFN33624 (LAE, SING); Sekayu, 7 May 1988, Kiew, R. RK2696 (KEP); Sakayu,
29 Aug 1986, Anthony, S. SA639 (KEP); Dungun, Pasir Raja Forest Reserve, Hutan Lipur
Cemerung, 18 Oct 2002, Sam, Y.-Y. FR147158 (KEP); ibidem, 18 Mar 1998, Anonymous s.n.
(SING); Ulu Brang, Terengganu Tambahan FR, Sg. Chib, 360 m, 26 Mar 201 3, Imin, K., Ong,
P.T.& Kiieh, HL. FRL77847 (KEP).

SINGAPORE: unknown loc., 1822, Wallich, N. 798 (CGE, K-W); ibidem, unknown s.n.
(SING); Seletar, Gan, J.T.W.M., Hardie, J.A. & Khng, Y.W.K. 1012 (SINU); Seletar, 16 May
1992, Gan, J.T.W.M., Hardie, J.A. & Khng, Y.W.K. 1037 (SINU); Seletar, 2 Oct 1948, Sinclair,
J. SFN38248 (SING); Seletar, 18 Sep 1948, Sinclair, J. SFN38246 (E, NY, P, SING); Jurong
Road 15tb mile, 19 Oct 1932, Corner, E.J.H. SFN26034 (K, SING); Nee Soon Swamp Forest,
26 Jan 1995, Karim, N.A. et al. NK206 (SING); ibidem, 5 m, 19 Mar 1982, Maxwell, J.F. 82-
80 (SING); Chan Chu Kang, Jun 1892, Ridley, H.N. s.n. (MEL); Chan Chu Kang, Jan 1892,
Ridley, H.N s.n. (SING); ibidem, 4 Apr 1890, Goodenough, J.S. s.n. (SING); Krangi [Kranji],

7 Dec 1889, Ridley, H.N. s.n, (SING); ibidem, 1894, Mat s.n. (SING); Mandai Road, 19 Feb
1931, Spare, G.H. F905 (K); Bukit Mandai, Sep 1890, Goodenough, J.S. s.n. (SING).

Notes. This species is most similar to Aeschynanthus obconicus but the flowers, and
in particular the calyx, are smaller. The calyx is also green (vs red) and more saucer-
shaped than cup-shaped.

Further study necessary

Rafidah, A.R. & Nor Ezzawanis, A.T. FRL64274 (KEP) from G. Telapak Burok in
Berembun Forest Reserve, Negeri Sembilan, Malaysia, has small opposite leaves, 0.9-
2.1 X 0.6-1. 1 cm, and seeds with one long appendage at each end. This combination
of characters is otherwise unknown in Peninsular Malaysia and without flowers the
identity of this plant remains a mystery. Aeschynanthus longiflorus, which has the
same fruit and seed type, is known from the same locality but it is not known to

Aeschynanthus in Singapore and Peninsular Malaysia

59

have leaves anywhere near as small. FRI64274 is rather reminiscent of Aeschynanthus
fruticosus from Sumatra in leaf shape and seed type but that species always has most
leaves in whorls of three or more.

ACKNOWLEDGEMENTS: I thank Jana Leong-Skomickova (SfNG) for handling the review
process of this paper and, particularly, for taking many photographs and compiling the plates
for me. I thank Ali Ibrahim (SfNG), Preecha Karaket (BKF) and Saw Leng Guan (KEP) for
additional photos. I also thanlc Ruth Kiew (KEP) for her assistance in locating a number of
Malaysian place names; Martin Pullan (E) for both enabling the use of and assistance with the
Padme database; and the Singapore Botanic Gardens’ Herbarium curatorial staff for arranging
loans. Ruth Kiew (KEP) and Gemma Bramley (K) are thanked for their useful coimuents on
the manuscript.

References

Bhattacharyya, U.C. & Goel, A.K. (2015). Systematic account of the genus Aeschynanthus
Jack (Gesneriaceae) in India. Phytotaxonomy 14: 1-22.

Chong, K.Y., Tan, H.T.W. & Corlett, R.T. (2009). A Checklist of the Total Vascular Plant Flora
of Singapore, Native, Naturalised and Cultivated Species. Singapore: Raffles Museum
of Biodiversity Research.

Clarke, C.B. (1 883). Cyrtandreae. In: De Candolle, A. & De Candolle, C. (eds) Monographiae
phanerogamanim, vol. 5. Pp. 1-303, 32 pi. Paris: Masson.

Denduangboripant, J., Mendum, M. & Cronk, Q.C.B. (2001). Evolution in Aeschynanthus
(Gesneriaceae) inferred from ITS sequences. PL Syst. Evol. 228: 181-197.

lUCN (2012). lUCN Red List Categories and Criteria: Version 3.1. Second edition. Gland,
Switzerland and Cambridge, UK: lUCN.

Kress, W.J., DeFilipps, R.A., FaiT, E. & Daw Yin Yin Kyi (2003). A checklist of the trees,
shrubs, herbs and climbers of Myanmar. Contr U.S. Natl. Herb. 45: 1-590.

Mendum, M. & Atkins, H.J. (2003). The Gesneriaceae of Sulawesi I: an introduction. Edinburgh
J. Bot. 60: 299-304.

Mendum, M., Lassnig, P., Weber, A. & Christie, F. (2001). Testa and seed appendage
morphology in Aeschynanthus (Gesneriaceae): phytogeographical patterns and
taxonomic implications. Bot. J. Linn. Soc. 135: 195-213.

Middleton, D.J. (2007). A revision of Aeschynanthus (Gesneriaceae) in Thailand. Edinburgh J.
Bot. 64: 363-429.

Middleton, D.J. (2009). A revision of Aeschynanthus (Gesneriaceae) in Cambodia, Laos and
Vietnam. Edinburgh J. Bot. 66: 391^46.

Ridley, H.N. (1923). The Flora of the Malay Peninsula, vol. 2. London: L. Reeve & Co., Ltd.
(Gesneriaceae, Pp. 495-547)

Saw, L.G. (2010). Vegetation of Peninsular Malaysia. In: Kiew, R., Chung, R.C.K., Saw, L.G.,
Soepadmo, E. & Boyce, P.C. (eds) Flora of Peninsular Malaysia 1: 21^6.

Thiers, B. (continuously updated). Index Herbariorum: A global directory of public herbaria
and associated staff. New York Botanical Garden’s Virtual Herbarium. http://sweetgum.
nybg.org/science/ih/ (accessed on 12 Jan. 2016).

Tjitrosoedirdjo, S.S., Zakaria, R. & Nurainas (2009). Notes on Aeschynanthus (Gesneriaceae)
of Sumatra, Indonesia. Blumea 54: 278-279.

60

Gard. Bull. Singapore 68(1) 2016

Turner, I.M. (1993). The names used for Singapore plants since 1900. Gard. Bull. Singapore
45: 1-287.

Turner, I.M. (1997 [‘1995’]). A catalogue of the vascular plants of Malaya. Gard. Bull.
Singapore Al\ 1-757.

Wang, W.T., Pan, K.Y., Li, Z.Y., Weitzman, A.L. & Skog, L.E. (1998). Gesneriaceae. In: Wu,
Z.Y. & Raven, RH. (eds) Flora of China, vol. 18. Pp. 244^01. Beijing: Science Press;
St. Louis: Missouri Botanical Garden Press.

Weber, A, (2004). Gesneriaceae. In: Kubitzki, K. & Kadereit, J.W. (eds) The families and
genera of vascular plants, vol. 7, Flowering plants: Dicotyledons; Lamiales (except
Acanthaceae including Avicenniaceae). Pp 63-158, Berlin & Heidelberg: Springer.
Williams, C. (2014). The rediscovery of a presumed nationally extinct Aeschynanthus.
Gardenwise 43 : 1 0-1 1 .

Appendix 1. Index of Exsiccatae. The number in parentheses refers to the number of the taxon
in the text.

Abbe, E.C. et ah 9119 (11); Abbe, L.B. et al. 9767 (11); Abdul Samat bin Abdullah 68 (11);
Addison, G.H. s.n. (9); Allen, B.M. 4852A (10); Alvins, MJ^. 1942 (10); Anderson,
J.W. 95 (7), 156 (9); Annandale, N. & Robinson, H.C. s.n. {\Qi); Anonymous s.n. (14);
Anthony, S. SA2S0O>),SA231 (11),&4255 {9),SA481 {1),SA482 {9),SA639 {\A),SA740

( 1 0) , SA897 (9); Anthonysamy, S. SA1155 (9); Asmah 22 (9); Ave, W. 165 (8); Aziz Budin
48644 (8).

Barnes, E. s.n. (3); Batten Pooll, A.H. s.n. (11); Beccari, O. 36 (8); Best, G.A. 21255 (6);
Bogner 1699 (10); Brantley, G. & Neale, S. GB31 (11); Brantley, G. & Sam, Y.-Y. GB27
(9); Bremer, B. & Bremer. K, 1808 (9); Burkill, H.M. HMB730 (11), HMB760 (11),
HMB856 (9), HMB868 (3), HMB1996 (9), HMB2038 (9), HMB2665 (9), HMB2668
(14), HMB2811 (9), HMB2812 (7), HMB4221 (3), 8859 (7); Burkill, H.M. & Holttum,
R.E. s.n. (9), 7888 (7), 8418 (9), 8531 (11), 8549 (9); Burkill, H.M. & Md Haniff 12542
(6), 12798 {S), 12833 (9), 12971 (9), 15750{\), 17258 {9y, Burkill, H.M. etal. HMB2430
(9); Burkill, l.H. 2159 (10), 6102 (9); Burn-Murdoch s.n. (11); Burtt, B.L. B1739 (6);
Burn, B.L & Woods, P.J.B. B1644 (7), B1739 (6), B1643 (9).

Garrick, J. 607 (9); Carter s.n. (9); Castle-Smith, PM. 15 (9), 42 (11); Chan, K.Y. FRI49293
(9), FR164737 (9); Chan, Y.M. FRI49298 (8); Chan, Y.M. & Kiew, R. et al. FRI60504
(9); Chan, Y.M. etal. FR170603 (8); Chew, M.Y. & Rosdi, M. FRI55583 (9); Chew, M.Y.
et al. FR153648 (9); Chew, W.-L. CWL222 (14), CWL224 (9), CWL772 (11), CWL922

(11) , CWL1213 (8); Chin, S.C. 165 (11), 233 (11), 1441 (9), 1812 (9); Chin, S.C. et
ah 4533 (1); Choo, J.PS. et ah PYL2 (9); Chua, L.S.L FRI26700 (8), FR139082 (9),
FRI40785 (7); Chua, L.S.L. etal. FR145633 (9); Collenette, l.S. 2253 (9), 2254 (14);
Corner, E.J.H. s.n. (10), SFN26034 (14), s.n. (3); Corner, E.J.H. & Henderson, M.R.
SFN36611 (9), SFN36612 (9); Corporal s.n. (9); Cultivated C4877 (6), C7315 (11),
C7431 (9), C7650 (8); Cuming, H 2387 (10); Curtis, C. s.n. (11), 1311 (11), 1388 (8),
2142 (6), 2503 (9), 2990 (8), 3335 (8).

Darnaedi, D. et ah 566 (3); Davidson, C. 1292 (1); Davis 69248A (11), 69431 (9); Davison,
G.W.H. s.n. (10); Deny, R. 205 (10), 305 (10); Ding Hou 657 (8); Dransfield, J. s.n.
(11); Durnford, L. s.n. (9).

Ernst, A. 1189 (9); Evans, J.H.N. s.n. (9); Everard, B. & Young, D. 94 (9); Everett, B. FRI13553 (9).
Federated Malay States Museum Coll s.n. (11); Fielding, J. s.n. (9); Flippance, F. s.n. (13);
Fox, W. s.n. (11); Franck, C.W 209 (9), 1150 (10).

Aeschynanthus in Singapore and Peninsular Malaysia

61

Gadoh anak Umbai for A.H. Millard KL781 (10), KL1680 (10); Gadoh anak Umbai KL1319
(12); Gan, J.T.WM. et al. 1012 (14), 1037 (14); Gerb 3257 (9); Goodenough, J.S. s.n.
(9), 7575 (10), 7777 {9\2705 (9), 2706 (9); Griffith, W. s.n. (10); Gwee, A.T. SING2010-
443 (9); Gwynne- Vaughan, D.T. 410 {\0i).

Hardial, S. 537 (14); Hardial, S. & Samsuri Ahmad 18 (9), 290 (8); Haviland, G.D. s.n. (9);
Hawkins, A.S.M. s.n. (12), 6 (11); Heaslett, E.A. s.n. (1); Henderson, M.R. s.n. (2),
s.n. (11), s.n. (9), FMS11263 (9), 11365 (11), FMS11453 (9), 11713 (9), 11829 (11),
SFN17921 (9), 17988 (11), SFN21928 {\01SFN23534 (11), 25065 (9), SFN29643 (9),
SFN36656 (14); Heng, HP. et al. HPIO (6), HP 12 (9); Holttum, R.E. s.n. (7), 9489 (14),
9715 (10), 15312 (2), 20769 (11), 20772 (3), 21528 (7); Hons. Students 1 (9); Hose, G.
46 (11); Hume, HE. 8253 (10), 8943 (10), 9228 (10), 9596 (1), 9772 (1).

Ibrahim, H. & Lua, H.K. SING-2013-092 (9); Ibrahim, H, et al SING201 3-093 (9); Imin, K.

6 Asmarayani, H.S. FRI76004 (8); Imin, K. & Kueh, HE. et al FRI58561 (7); Imin,
K. & Syahida Emiza, S. FRI76065 (3), FRI76073 (3); Imin, K. et al. FRI58557 (9),
FRI58570 (11), FRI58593 (4), FRI58594 (10), FRI66402 (9), FRI66493 (9), FRI68188

(8) , FRI71615 (8), FR171855 (9), FRI71954 (1 1), FRI77536 (3), FR177847 (14).
Jaemat 25181 (9); Johnston, A.M.76 {\\ ); Jong, K. 901 7(1); Julius, A. FRI53313 ( 1 ), FRI54942

(9) , FR156020 (11 ), FRI57451 (8), FR173605 (7); Julius, A. & Imin, K. FRI56237 (10);
Julius, A. et al FRI53302 (11), FRI57479 (7), FRI57483 (11), FRI57691 (1), FRI57716
(9); Jumali K2077 (9); Jumali & Heaslett, E.A. KJ732 (9); Jutta, M. & Kueh, H.E.
FRI59582 (10), FRI59583 (9).

Kadim &. Noor; M. 131 (14), 135 (9), 138 (14); Kalong 22423 (9); Kamarudin S. FRI34629
(9), FRI33755 (11); Kamarid Hisham, M. FRI52054 (11); Kamarul Hisham, M. et al.
FRI52094 (3); Karim, N.A. et al NK206 (14); Kassim, M. 550 (9); KelsaU, H. s.n.
(12); Keng, H. & Jumali K2077 (9); Keng, H. et al K8010 (11), CTV86 (9), D-5 (11),

7 (10), 27 (9), 54 (9), 67 (9), 85 (7), 86 (9), 93 (9), 97 (9), 410 (11), 4755 (7); Khoo, R.
& Ng, S.M. 074 (9); Kiah SFN32054 (14), 23943 (8); Kiey^\ R. RK832 (9), RK1002 (9),
RK1081 (9), RK1546 {\\ ), RK1548 (9), RK2112 (14), RK2160 (9), RK2262 (8), RK2398
(14), RK2398 (14), RK2430 (11), RK2641 (9), RK2696 (14), RK2727 (9), RK3241 (3),
RK3264 (9), RK3293 (7), RK3356 (9), RK3775 (14), RK4862 (5), RK4869 (9), RK5239
(8), RK5307 (3); Kmw R. & Anthony, S. RK3414 (9); Kiew, R. et al FRI57497 (7);
King’s Collector 2012 (8), 2049 (8), 2849 (8), 3641 (8), 4738 (2), 7022 (7), 8314 (7),
10179 (8); Klackenberg, J. & Eundin, R. 689 (11); Kloss, C.B. s.n. (11), 6476 (10);
Kochummen, KM. FRI2654 (9), FRI16215 (7), FRI16427 (8), FRI16516 (9), FRI16796
(1), FRI29126 (8), FRI29332 (6); Kunstler, H. 2636 (9), 4463 (1).

Eake & Kelsall, H. s.n. (14); Eatiff, A. 347 (1); Eatijf, A. & Zainudin, A, AEM1033 (10),
AEM2764 (9), AEM3121 (11); Eatiff A. et al. AEM970 (11), AEM1644 (10), AEM1789
(7), AEM1813 (6); Eee, D.W. s.n. (11); Eeong, P S1NG201 0-809 (9); Eeong, P et al
SING2012-165 (9); Eewis, G.P 251 (9); Eirn, C.E. FRI73033 (9); Eim, C.E. & Kueh,
H.E. FRI64886 (8); Eo, Y.N & Mahmud 83 (9), 183 (5); Eobb, T. Ill (14); Eong, F.R.
13 (10), 14 (9); Eow, Y.W. EYW140 (11); Eua, H.K. & Ibrahim, H. SING20I5-084 (1).
Mahammud 17178 (9); Mahmood KEP17216 (9); Mahmud bin Sidek s.n. (9), 4816 (11);
Maingay, A.C. K.D.1219 (9), K.D.1218 (9); Mashall 35847 (10); Mat s.n. (14); Maxwell,
J.F 78-90 (9), 81-166 (9), 81-182 (14), 52-571 (14); Md Hanijf s.n. {U), 21074 (8),
21088 (7); Md Ha niff & Md Nur 2314 (9), 2347 (3), 2456 (11), 2469 (3), 8046 (8),
10390 (10); Md Nur s.n. (2), 11056 (11), 11138 (9), SFN24637 (10), SFN32980 (3),
SFN33963 (9), SFN34079 (9), SFN34254 (1), SFN34400 (9); Md Nur & Foxworthy,
FW. 11963 (1); Md Nur & Kiah 7783 (9); Mead, J.P 27945 (11); Mendurn, M. s.n.

62

Gard. Bull. Singapore 68(1) 2016

(9); Merton, L.F.H. 004194 (9); Mitchell s.n. (7); MK & AR 1321 (1); Mohd Hairul,
M.A. & Mohd Nazri, A. et al. FR169892 (11); Mohd Hairul, M.A. et al. FRI69938 (11),
FR169946 (7), FRI70936 (10), FR172324 (1); Mohd Shah MS 3446 (11); Mohd Shah &
MohdAli MS 3046 (9); Mohd Shah & SidekMS 1073 (11), MSI 110 (11); Mohd. Hairul,
M.A. FR160925 (8); Mohd. Kassim bin Rajab 488 (7); Morgany, T. et al. M260 (14);
Moysey, L. & Kiah SFN33624 (14); Mrs. Allen & Kadini 436 (14).

Napier, W. s.n. (12); Ng, F.S.P. FR11136 (9), FR15813 (8), FR15931 (11), FR127146 (11); Ng,
H.H & Lok, A.FS.L. s.n. (1); Nongchi s.n. (9), 8 (1); Noor, M. MN.1913 (9); Norain,
Raihana & Rosjana 07 (12).

Okada, H. et al. 1027 (11), 1050 (3).

Perumal, B. et al. FR141512 (7), FR141602 (11), FRI41631 (3), FRI41661 (11); Phoon, S.N.
FRI51987 (9), FRI60496 (11); Phoon, S.N. & Imin, K. FR160648 (7); Phoon, S.N. &
O’Byme, P. et al. FR160557 (11); Phoon, S.N. et al. FR151576 (9); Poore, M.E.D. 466
(11), 1028 (11), 1064 (8); Purseglove, J. W. P4202 (9), P4182 (9), P4164 (7), P4222 (3).
Quaife s.n. (7).

Rafidah, A.R. & Nor Ezzawanis, A.T FRI64274 (1); Rafidah, A.R. et al. FRI55631 (9);
Rahimatsah Amat N1 2 (9); Rao & et al. K8010 (11), 167 (9); Ridley, H.N. s.n. (1), 1578

(9) , 1700 (6), 2151 (1), 2167 (7), 2704 (10), 2706 (9), 2710 {9), 2905 (8), 5513 (9), 6244

(I) , 11447 {J\ 13372 75599(4), 13600{\\\ 13603 (7), 14063 (8), 14280(6), 14281

(10) , 14282 (10), 16090 (11), 16122 (3); Ridley, H.N. & Curtis, C. 7365 (3); Robinson,
H.C. s.n. (7); Robinson, H.C. & Kloss, C.B. 5997(9), 6049(9); Rosdi, M. & Phoon, S.N.
et al. FRI59867 (11), FR159872 (3); Rosdi, M. & Rafidah, A.R. FRI5983 7 (9); Rosdi, M.
et al. FR158753 (9), FR166272 (1), FR166336 (10); Rostado 64 (9).

Sabari, D. FRI32715 (1 1); Sam, Y.-Y. FRI44492 (10), FRI46549 (10), FRJ46602 (9), FRI47104

(10), FRI47144 (14), FRI47158 (14), FRI47208 (11); Sam, Y.-Y. et al. FRI47150 (9);
Samsuri Ahmad SA96 (11), 309 (9), S.311 (9), SA318 (14), SA1125 (9); Saw, EG.
FR134368 (11), FR136398 (11), FR137667 (1), FR137684 (10); Saw, LG. cfe Mohd
Haind, M.A. FRI48326 (1); Saw, L.G. & Mustafa, D. FRI37514 (9); Saw, L.G. et al.
FR148241 (\\);Scortechini, B. 36a(9), 46a(^), s.n. (11), 468b(]\), 55 (6), 57 (10), 59

(9) , 291 (9), 330 (10), 388 (11), 1815 (1); Seimund, E. s.n. (9), 390 (10), 459 (8); Shah,
M. 138 (14), 155 (1 ); Shah, M. & Mahmud MS4895 (9), MS4978 (9); Shah, M. & Noor,
M. MS607 (9), MS813 (14); Shah, M. & SidekMS1064 (9); Shah, M. et al. MS3407 (8);
Sidek bin Kiah S.277 (8), SK515 (8); Siew Wei Hoe 47 (W); Sinclair, J. s.n. (10), 5090

(10) , 5376 (9), 6198 (7), 8151 (10), 9949 (11), 10568 (9), SFN38246 (14), SFN38248
( 1 4), SFN38609 (9), SFN40358 (10); Sinclair, J. & Kiah SEN 38670 ( 1 1 ), SFN38800 (7),
SFN38805 (8); Smith, G. 443 (7), 448 (9), 513 (9); Smith, J. W. 63690 (3); Spare. G.H
F905 (14), 99/ (9), 2018 (9), 2047 (U ), 2 114 (7), 2139 (9), SFN36226 (8); Staples, G. et
al SING2009-157 (9); Stone, B.C.M. s.n. (8), 5889 (9), 6543 (9), 7194 (1 1), 7218 (11),
9566 (8), 10798 (9), 11091 (8), 12758 (5), 13764 (9), 14045 (11), 15071 (11), 15134
(9), 15167 (8), 15366 (1 1), 75797 (1 1); Stone, B.C.M. & Badaruddin 12068 (8); Stone,
B.C.M. & Mahmud 8500 (9); Sti'ugnell, E.J. 10515 (8); Syahida Emiza, S. FR151460

(II) , FRI57293 (11); Syahida Emiza, S. &Angan, A. FRI55108 (9); Syahida Emiza, S.
& Chew, M.Y.FR1572 77 (3); Symington, C.F 20938 (3), 21390 (8), 36073 (9), 51762

(11) , 56711 (11).

Tam Shell May TSM2 (11); Tan, W.K. et al. TWKl (11), TWK12 (9); Tay, E.P 125 (6); Teruya,
Z. 951 (1); Togashi, M. s.n. (11), 622111 (11).

UNESCO limestone expedition 440A (10), 239 (9); unknown FMS17068 (8), KEP78844 (9),
KEP93108 (12), s.n. (11), K6502 (9), s.n. (7), 4636 (9).

Aeschynanthus in Singapore and Peninsular Malaysia

63

Van Balgooy, MM.J. 2118 (8), 2154 (11), 2658 (3), 2663 (11), 7133 (11), 7149 (3), 7228 (11).
Vesterdal, A. 306 (14).

Wallich, N. 798 (14); Weber, A. s.n. (11); Whitmore, T.C. KEP207 (14), FRI227 (9), FRI3887
(11), FR112601 (7), FRI15450 (11), FRI15495 (11), FR120392 (8); Wilkie, R et al
FR152906 (11), FR175005 (11); Wong, KM. FRI35244 (11), s.n. (14); Wong, Y.K.
KEP93272 (8); Woods, P.J.B. 616 (3), 632 (11), 634 (3), 680 (11); Woods, P.J.B. et al.
615 (11); Worthington, R.D. 12463 (11), 13326 (9); Wray, L. s.n. ^1), 149 (8), 625 (7),
655 (9), 656(11), 873 (9), 1636 (ii), 1772 (S), 3217 (9), 4245 (1); Wray, L. &Robinson,
H.C. 5483 (3); Wy’att-Smith, J. KEP 56945 (11), 78808 (11).

Yao, T.L.FR165302(3),FR157961 (6); Yao, T.L. etal. FRI5 5845 {\\),FRI5 5898 {\\),FRI579 13
(10), FRI65386 (14), FRI65387 (9), FRI65495 (7), FRI77328 (9), FRI77335 (7); Yapp,
R.H. 161 (1), 440 (11), 547 (8), 610 (12); Year III students FSC312 (9); Yeo, C.K. s.n.
(9); Yong KEP99330 (9).

Zainal Mustafa ZM64 (9); Zainon, A.S. FRI50105 (14); Zainudin, A. AZ40 (9); Zainudin, A. et
al. AZ2438 (9).

Gardens’ Bulletin Singapore 68(1): 65-69. 2016
doi: 10.3850/S2382581216000028

65

Notes on the Annonaceae of the Malay Peninsula

LM. Turner

Research Associate, Royal Botanic Gardens Kew,

Richmond, Surrey TW9 3AE, U.K.
j_trop_ecol@yahoo.co.uk

ABSTRACT. Notes concerning the three genera Alphonsea Hook.f. & Thomson, Artabotrys
R.Br. ex Kew Gawl. and Stelechocarpus Hook.f. & Thomson (Annonaceae) for the Malay
Peninsula are presented. Alphonsea kingii J.Sinclair is accepted as an endemic species and a
second-stage lectotypification is presented for Alphonsea cylindrica King. Seven species of
Artabottys are lectotypified. The recently described genus Winitia Chaowasku is reduced to
Stelechocarpus and a new combination is made for Winitia expansa Chaowasku.

Keywords. Alphonsea, Artabotrys, new combination, Stelechocarpus, typification, Winitia

Alphonsea

Alphonsea kingii

Sinclair (1955) described Alphonsea kingii J.Sinclair as a new species in his account
of the Annonaceae of the Malay Peninsula. It had earlier been confused with a species
of Xylopia L. by King (1892, 1 893). Kessler (1995), in revising the genus Alphonsea
Hook.f. & Thomson, excluded A. kingii, suggesting that it belonged in Mitrephora
Hook.f. & Thomson. Kessler did not report seeing any specimens; his decision was
apparently based on King’s plate (King 1893: t. 189 A). Tn studying the genus in
Peninsular Malaysia it became necessary to reconsider Alphonsea kingii. I was kindly
sent photographs of the type material from the Central National Herbarium of the
Botanical Survey of India (CAL). The second specimen cited by Sinclair (1955), a
Scortechini collection from Perak, could not be located in SING (D.J. Middleton
pers. comm.). However among material on loan from the herbarium of the Forest
Research Institute of Malaysia (KEP), I found another specimen of the species, which
had previously been detemiined as Alphonsea elliptica Hook.f. & Thomson. Study of
the images and specimen gave no indication that Sinclair was wrong in his assignment
of the species to Alphonsea. Flowers are still unknown, but in vegetative and fruit
characters the specimens are congruent Wiih Alphonsea, with leaves similar to those of
A. malayana P.J.A.Kessler, A. johorensis J.Sinclair and A. elliptica. Notable features
of the species include the rather dense reticulations of the lamina venation, and
particularly the verrucose fruits that dry blackish. It seems to be a species of limestone
outcrops - a habitat affinity not previously reported in MdildydiW Alphonsea. I conclude
that Alphonsea kingii is a good species that should be listed in the Annonaceae flora of
Peninsular Malaysia.

66

Gard. Bull. Singapore 68(1) 2016

Alphonsea kingii J. Sinclair, Gard. Bull. Singapore 14: 386 (1955). - TYPE: Peninsular
Malaysia, Perak, Kinta, top of limestone hills near G.M. [possibly Gunung Mesua, R.
Kiew pers. comm,], January 1885, King’s Collector [Kunstler, H.H.] 7097 (lectotype
CAL [CAL0000025047], designated here; isolectotypes CAL [CAL000025046], DD,
K (reported by Sinclair (1955: 386) but not seen lately)).

Additional specimen studied. PENINSULAR MALAYSIA: Pahang: Raub, Bukit Serdam, 20
Jun 1971, Chin, S.C. 1073 (KEP [138213]).

A second-stage lectotj pification

Kessler (1995: 88) reported the holotype of Alphonsea cylindrica King to be located
in the Central Herbarium of the Botanical Survey of India (CAL), without seeing the
specimen. As there are duplicates of this collection in other herbaria, Kessler (1995)
effectively lectotypified the name to this specimen. However, enquiries addressed to
the Botanical Survey of India were very kindly answered and I was informed that
there were two specimens under the type number in CAL. Therefore, here I propose
a second-stage typification to restrict Kessler’s choice of lectotype to the better of the
two sheets in CAL.

Alphonsea cylindrica King, J. Asiat. Soc. Bengal, Pt. 2, Nat. Hist. 61(2): 127 (1892). -
TYPE: Peninsular Malaysia, Perak, Ulu Bubong, July 1 886, King 's Collector [Kunstler,
H.H.] 10633 (lectotype CAL [CAL0000004699], designated by Kessler (1995) at the
first stage and here at the second stage; isolectotypes A, BM [x2 mounted on same
sheet], BO, CAL [CAL0000004700], DD, G, K [K000574904], L, WU).

Artabotrys

A number of names among Artabotrys species from Peninsular Malaysia require
lecto typification. These are dealt with here.

Artabotrys crassifolius Hook.f & Thomson, El. Brit. Ind. 1: 54 (1872). - TYPE:
Peninsular Malaysia, Malacca, Griffith, W. s.n. [HEIC (Herbarium of the East India
Company) no. 426] (lectotype K, designated here).

Remaining syntype, Bunua, Martaban, Brandis, D. (n.v.).

Artabotrys lowianiis Scort. ex King, J. Asiat. Soc. Bengal, Pt. 2, Nat. Hist. 61(2):
34 (1892). - TYPE: Peninsular Malaysia, Perak, Scortechini, B. 2012 (lectotype
K [K000381019], designated here; isolectotypes BM [BM000898096], CAL
[CAL0000004298, CAL0000004297, CAL0000004299], SING [SING009624I]).

Artabotrys oblongiis King, J. Asiat. Soc. Bengal, Pt. 2, Nat. Hist. 61(2): 33 (1892). -
TYPE: Peninsular Malaysia, Perak, Lamt, August 1884, King’s Collector [Kunstler,
H.H.] 6524 (lectotype K [K000381015], designated here; isolectotypes BM
[BM000898111], CAL [CAL0000004314, CAL0000004313]).

Notes on Malay Peninsula Annonaceae

67

Artabotrys oxycarpiis King, J. Asiat. Soc. Bengal, Pt. 2, Nat. Hist. 61(2): 34 (1892). —
TYPE: Peninsular Malaysia, Perak, November 1 883, Kings Collector 5150 (lectotype
K [K000381016], designated here; isolectotypes BM [BM000898086], CAL, DD).
Remaining syntypes. Peninsular Malaysia, Larut, February 1884, King’s Collector
5605 (BM [BM000898087], CAL, K [K000381017]); s. loc., Wray L 328b (CAL, K
[K000381018], SING [STNG00096242]).

Artabotrys pleurocarpus Maingay ex Hook.f. & Thomson, FI. Brit. India 1 : 54 (1872).

- TYPE: Peninsular Malaysia, Malacca, 6 February 1868, Maingay, A.C. 3261 [Kew
distrib. no. 34] (lectotype K [K000381010], designated here explicitly excluding
material in attached packet which represents another gathering).

Remaining syntypes. Peninsular Malaysia, Malacca, 14 April 1868, Maingay, A.C.
3261A [Kew distrib. no. 34] (K [K000381009]).

Artabotrys scortechinU King, J. Asiat. Soc. Bengal, Pt. 2, Nat. Hist. 61(2): 32 (1892).

- TYPE: Peninsular Malaysia, Perak, Scortechini, B. s.n. (lectotype K [K000381008],
designated here).

Remaining syntypes. Peninsular Malaysia, Perak, Scortechini, B. 488 (BM
[BM000898101], CAL [CAL0000004270, CAL0000004271, CAL0000004278],
SING [SING0096243]).

Artabotrys wrayi King, J. Asiat, Soc. Bengal, Pt. 2, Nat. Hist. 61(2): 37 (1892). -
TYPE: Peninsular Malaysia, Perak, Larut, November 1882, King’s Collector 3615
(lectotype K [K000381023], designated here; isolectotypes BM, CAL).

Remaining syntypes. Peninsular Malaysia, Perak, Wray, L. 4006 (SING
[SING0096239]); ibidem, Wray, L. 2663 (SING [SING0096240]).

Stelechocarpusl Winitia

In a recent analysis of the genera Stelechocarpus Hook.f. & Thomson and Sager aea
Dalzell based on morphological and molecular data, Chaowasku & Van der Ham
(201 3 ') demonstrated the presence of three groups. These corresponded to two strongly
supported clades; one consisting of the Sageraea species sampled, and the other to
Stelechocarpus cauliflorus (Schefif.) R.E.Fr, plus another species. Stelechocarpus
burahol (Blume) Hook.f. & Thomson, the type species of Stelechocarpus, formed the
third, less strongly supported clade as sister to the S. cauliforus clade. As Chaowasku &
Van der Ham noted, there were three taxonomic options for reflecting this phylogenetic
relationship. Firstly all the species could be included in an enlarged Sageraea, secondly
the status quo could be maintained (i.e. the two genera Sageraea and Stelechocarpus),

' A corrigendum published later (Syst. Biodivers. 11(4): 537 (2013)) added L.W. Chatrou to the list of
authors of the paper, but to avoid eonfusion the paper is referred to as first published.

68

Gard. Bull. Singapore 68(1) 2016

or finally the three main clades could be given generic rank. Chaowasku & Van der
Ham favoured the last option and described the genus Winitia Chaowasku to include
Winitia cauliflom (Scheff.) Chaowasku transfeired from Stelechocarpus and the
new species from Peninsular Thailand, Winitia expansa. This leaves Stelechocarpus
burahol on its own in Stelechocarpus.

I do not have any criticisms to make of the phylogenetic analysis but I do think
the recognition of Winitia is a backward step for taxonomy. As a family, the Annonaceae
can be characterised by its large number of genera. Some 1 09 are cuiTently recognised,
with 42 in the Asia-Pacific region alone (Couvreur et al., 2012). This is problematic for
non-specialists. Increasing the number of recognised genera is not helpful and single-
species genera (such as Stelechocarpus sensu Chaowasku & Van der Ham) have low
information content. It seems to me that maintaining the status quo in tenns of genera
is a better option than splitting Stelechocarpus. The phylogenetic relationship could
be recognised by infrageneric taxa. The added advantage of this arrangement is that
Stelechocarpus is easy to recognise - for instance, the raised midrib on the upper
surface of the leaves is a reliable vegetative character (Sinclair, 1955; Van Heusden,
1995) with few confusable taxa. Stelechocarpus s.s. and Winitia can be separated on
various characters, including flower colour, relative size and spatial distribution of male
and female flowers, stamen number, stigma fomi and pollen moi*phology (Chaowasku
& Van der Ham, 2013), but this ignores the similarities including the raised midrib,
monoecy, convex male torus and general gestalt. The recognition of Winitia, therefore,
represents the splitting of a well-defined and distinctive genus into two less easily
distinguished entities. The two Stelechocarpus clades could readily be considered as
infrageneric taxa, perhaps subgenera, but 1 refrain from doing so here.

In order to allow the maintenance of Stelechocarpus in its broader sense, I make
a new combination for Winitia expansa in Stelechocarpus.

Stelechocarpus expansus (Chaowasku) I.M. Turner, comb. nov. - Winitia expansa
Chaowasku in Chaowasku & Van der Ham, Syst. Biodivers. 11: 203 (2013).

ACKNOWLEDGEMENTS. I thank Dr T.K. Paul (CAL) for providing images and information
on specimens. David Johnson and an anonymous reviewer provided constructive criticisms
that helped to improve the paper.

References

Chaowasku, T. & Van der Ham, R.W.J.M. (2013). Integrative systematics supports the estab-
lishment of Winitia, a new genus of Aimonaceae (Mahneoideae, Miliuseae) allied to
Stelechocarpus and Sageraea. Syst. Biodivers. 11(2): 195—207.

Couvreur, T.L.P., Maas, P.J.M., Meinke, S., Johnson, D.M. & Kessler, P.J.A. (2012). Keys to
the genera of Annonaceae. Bot. J. Linn. Soc. 169: 74-83.

Kessler, P.J.A. (1995). Studies on the tribe Saccopetaleae (Annonaceae), IV. Revision of the
gQnus Alphonsea Hook.f. & Thomson. Bot. Jahrb. Syst. 118: 81-112.

Notes on Malay Peninsula Annonaceae

69

King, G. (1892). Materials for a flora of the Malayan Peninsula, no. 4. J. Asiat. Soc. Bengal,
Pt. 2, Nat. Hist. 61: 1-130.

King, G. (1893). The Annonaceae of British India. Ann. Roy. Bot. Gard. Calcutta 4: 1-169.
Sinclair, J. (1955). A revision of the Malayan Annonaceae. Gard. Bull. Singapore 14: 149-516.
Van Heusden, E.C.H. (1995). Revision of the Southeast Asian genus Stelechocarpus
(Annonaceae). Blumea 40: 429^38.

Gardens’ Bulletin Singapore 68(1): 71-76. 2016
doi: 10.3850/S238258121600003X

71

Novitates Bruneienses, 5. Polyalthia watui (Annonaceae),
a new tree species from Brunei, Borneo

K.M. Wong^, A.K. Muhammad Ariffitf & A.A. Joffre^

^Herbarium, Singapore Botanic Gardens, National Parks Board,

1 Cluny Road, Singapore 259569
wkin2000@.ginail .com

^Brunei National Herbarium, Forest^ Department,
Ministry of Primary Resources and Tourism, Jalan Menteri Besar,
Berakas, BB3910 Brunei Darussalam

ABSTRACT. A new species, Polyalthia watui, is described. It resembles Polyalthia bullata
King in having bullate leaves with a cordate base, but is distinguished by its flowers with
shorter pedicels, longer sepals and petals, subsessile monocarps with long stiff erect hairs; and
broad-obovate leaves with fewer pairs of secondary veins. The new species is only known from
Brunei’s Belait and Tutong districts and is very likely endemic to the Belait geosyncline that
includes these areas.

Keywords. Annonaceae, biodiversity, Brunei, endemic species, Polyalthia, taxonomy

Introduction

The Annonaceae are a predominantly pantropical lowland forest family of trees,
shrubs and lianas, estimated to include some 2440 species (Chatrou et ah, 2012) in
122 genera (Rainer & Chatrou, 2014). Polyalthia Blume, a common Indo-Malesian
genus in this family, was, until recently, a polyphyletic genus with some 170 accepted
species, harbouring a morphologically heterogeneous assemblage of species. The
reorganisation of the genus, coirelating with molecular phylogenetic analyses, now
recognises several distinct genera, including Maasia (Mols et al., 2008) Fenerivia
Diels (Saunders et al., 2011), Monoon Miq. (Xue et al., 2012), Huberantha Chaowasku
(Chaowasku et al., 2015), and Polyalthia s.s., as well as species that fall within
Marsypopetalum Scheff. (Xue et al., 2011).

The taxonomically pruned version oi Polyalthia is estimated to include some 80
species (Turner et al., 2014), with c. 30 species in Borneo (Turner, 2009, 2010; Turner
et al., 2014). Various features in combination serve to distinguish the genus from
others in Borneo: tree habit; hairs simple when present; non-glaucous leaves with non-
prominent midrib on leaf upper surface and brochidodromous venation (with looping
secondary veins); valvate perianth whorls with 3 sepals; apically flat and non-saccate
petals in two similar whorls; non-veiTucose non-clawed inner petals that are not tightly
appressed over the reproductive parts; more than 3 carpels with 2-6 oxailes per carpel;
and commonly 1-2 seeds per carpel, each seed with a shallow circumferential groove
(Turner et al., 2014).

72

Gard. Bull. Singapore 68(1) 2016

In recent years, a distinctive species of Polyalthia with strongly bullate leaves has
been collected in Brunei’s Belait and Tiitong districts, and during recent fieldwork there
in 201 5 under the auspices of the Botanical Surrey of Brunei Darussalam progi'amme
organised by the Brunei Forestry Department and Singapore’s National Parks Board
(see Joffi'e et ah, 2015), it was possible to further study this species in the field (Fig.
1). This unnamed species resembles several other species in individual characters but
in the combination of characters it possesses it most resembles, and would appear to
be most closely related to, Polyalthia bullata King (King, 1892; Sinclair, 1955; Turner
et ah, 2014). It also has similarities to Polyalthia endertii D.M. Johnson (Johnson &
Murray, 1999). The new species is, however, clearly distinguished by characteristics
of the flowers, fruits and leaves (Table 1). We are pleased to name this after Watu
Awok of the Brunei National Herbarium’s field team for his enthusiastic support and
excellent company during field suiweys, and for diligently searching out individuals of
this extraordinary Polyalthia in the field.

Herbarium acronyms used follow Tliiers (continuously updated). Conservation
assessments follow the methodology of lUCN (2012). Dimensions in the description
are for dried material. As shrinkage when dried can be quite pronounced, the dimensions
from spirit material are also given for some flower parts.

Polyalthia watui K.M.Wong, sp. nov.

The new species resembles Polyalthia bullata King in having bullate leaves with a
cordate base, but differs in its flowers with shorter (8-9 mm long) pedicels, 13-14 mm
long ovate sepals, 24-31 mm long and 5-9 mm wide oblanceolate petals; monocarps
with only 1-2 mm long stipes and stiff erect hairs mostly 3-5 mm long; and broad-
obovate leaves with 16-18 pairs of secondary veins. In contrast, Polyalthia bullata has
flowers with 10-25 mm long pedicels, 5-7 mm long lanceolate sepals, 21-25 mm long
and 2-2.5 mm wide linear petals; monocarps with c. 5 mm long stipes and short hairs
less than 1 mm long; and nan*owly lanceolate to oblong-lanceolate leaves with 25-40
pairs of secondary veins. - TYPE; Brunei, Tutong, Lamunin, Bukit Sulang, Lamunin
Forestry office, behind ex Plantation Nursery, 17 Febmary 2005, flowers, Muhammad
Ariffin BRUN 21189 (holotype BRUN; isotypes K, SAN, SING). (Fig. 1, Table 1)

Treelet 1-4 m high; stem axes proximally vertical, distally curving over to a near-
horizontal orientation, the older trunk developing from a sympodium of such proximal
portions and attaining 1-3.5 cm diameter at the base; leafy branches near-horizontal.
Young twigs densely covered with medium brown suberect 2-3 mm long hairs. Leaves
distichously arranged throughout, broad-obovate, 20-25 cm long, 9-12 cm wide, apex
acute to obtuse or rounded, base markedly cordate, auriculate, the basiscopic auricle
conspicuously larger than the acroscopic auricle, the auricles overlapping the twig,
chartaceous to thin-coriaceous, bullate, above glabrous except for the densely brown
short-hairy midrib, below with dense brown suberect 1.5-2 mm long hairs on the
midrib and sparse brown suberect 0.5-1 mm long hairs on the secondary veins, midrib
sunken above and prominent below, secondary veins 16-18 pairs, fonning bold loops
near the margin, sunken above and prominent below, tertiary and higher-order venation
subscalariform to reticulate, sunken above and prominent below, medium green and

New Polyalthia from Brunei

73

Fig. 1. Polyalthia watui K.M.Wong. A. Mature treelet displayed by Watu Awok of the Brunei
National Herbarium. B. Strongly bullate leaf supper surfaces. C. A flower from the type
specimen BRUN 21189 showing sepals (only one out of 3 indicated, s), 3 outer petals (op) and
3 inner petals (ip). D. Monocarps covered in white erect long hairs and basally subtended by
the 3 persistent sepals. (Photos: A, B, D: K.M. Wong; C: Muhammad Ariffin)

slightly reflective above, pale grey-green and matt beneath, subsessile, petioles 4-8
mm long, stout. Flowers solitary, axillary to extra-axillary, deflexed to a pendulous
position, pedicels 8-9 mm long (to 12 mm long in spirit material). Sepals 3, broad-
ovate, apex acute, 13-14 mm long, 5-6 mm wide (29 mm long, 15 mm wide in spirit

74

Gard. Bull. Singapore 68(1) 2016

Table 1. Comparison of Polyalthia bullata King, P. endertii D.M. Johnson and the new speeies.
(Measurements are from dried herbarium material.)

Character

Polyalthia bullata

Polyalthia endertii

Polyalthia watui

Flower pedicels

10-25 mm long

c. 20 mm long

8-9 mm long

Flower sepals:
shape, size

Lanceolate, 5-7 mm
long, 1.5-2 mm
wide

Lanceolate-ovate,

20-21 mm long, 11 mm
wide

Ovate, 13-14 mm
long, 5-6 mm wide

Petals: shape, size

Linear, 21-25 mm
long, 2-2.5 mm
wide

Oblanceolate, c. 27 mm
long, 7 mm wide

Oblanceolate to strap-
shaped, 24-31 mm
long, 5-9 mm wide

Persistent sepals of
fruit

5-7 imn long, 3^
mm wide

(Unknown)

20-29 mm long,

10-15 mm wide

Monocarp stipes

c. 5 mm long

(Unknown)

1-2 mm long

Monocarp surface

Puberulous, hairs
less than 1 mm long

(Unknown)

Covered in stiff erect
hairs 3-5 mm long

Leaf shape

Narrowly lanceolate
to oblong-lanceolate

Oblanceolate, slightly
panduriform

Broad obovate

Leaf dunensions

25-50 X 0.5-12 cm

16.8-32 X 4.8-8 cm

20-25 X 9-12 cm

Leaf lateral veins

25^0 pairs

20-27 pairs

16-18 pairs

Leaf surface

Conspicuously

bullate

Generally plane, not
bullate

Conspicuously

bullate

material), coriaceous, sparsely pubescent on both sides, creamy yellow. Petals in 2
series of 3, oblanceolate to strap-like, apices acute, coriaceous, outer petals 29-31
mm long, 8-9 imn wide (45 mm long, 10 mm wide in spirit material), with 3-5 bold
longitudinal ridges on the imier surface, inner petals 24-26 mm long, 5-6 mm wide
(42 mm long, 6 mm wide in spirit material), with 1-3 bold longitudinal ridges on
the inner surface, all densely covered with pale hairs mostly less than 1 mm long on
both surfaces, creamy yellow in live materiah Stamens numerous, connectives slightly
convex, apices of anther connectives bright yellow (measurements not taken). Carpels
15 seen in a single flower, elliptic-subglobose, densely pubescent, stigma sub-capitate,
puberulous. Monocarps subglobose, 5-7 mm diameter (10-15 mm diameter when
fresh), pale green to yellowish green, densely covered with stiffly erect pale 3-5 mm
long hairs, 2-12 together (very rarely solitary) embraced by the 3 persistent ovate
sepals 20-29 mm long, 10-15 mm wide (25-30 mm long, 20-25 mm wide when
fresh); stipes 1-2 mm long. Seeds 2, plano-convex, with a shallow circumferential
groove near the edge of the plane surface; endospenu glassy, ruminate by thin laminar
intrusions of the seed coat.

New Polyalthia from Brunei

75

Additional specimens examined. BRUNEI: Belait: Labi, Labi Hills Forest Reserve,
Compartment 49, Ulu Sg. Rampayoh, 20 May 2009, fruits, Azlan BRUN 22629 (BRUN, K,
SAN, SENG); Tutong: Rambai, Ladan Hills Forest Reserve, Benutan Dam catchment forest,
tributary of Sungai Benutan, 7 Jun 2015, fruits, Wong & Watu WKM 3425 (BRUN, SING),
Ladan Hills Forest Reserve, Nyamokning West, southeast of LP 230, 4”24.45’N 114‘’48.36’E,
35 m asl, riverine mixed dipterocarp forest, 6 Jun 1996, fruits, Joffre BRUN 17529 (BRUN).

Distribution. So far known only from Brunei, in the Belait and Tutong districts, in
small populations. As discussed by Joffre et al. (2015), the Belait syncline covering
both these districts is a geo-ecologically well-defined enclave that is likely to harbour
its own endemic taxa. Given that the adjacent parts of Sarawak and nearby southwest
Sabah have been generally well-collected and this species has not been documented
in those tenitories, it is not likely to have a wider distribution than in these districts.
The related Polyalthia bullata is known from Peninsular Malaysia and all territories in
Borneo, including in adjacent Sarawak as well as Brunei (Wong WKM 1710 (BRUN,
K, SING)).

Habitat. Understorey of mixed dipterocarp forest on sandy clays and alluvium criss-
crossed by shallow streams feeding tributaries of the Belait and Tutong rivers. The
more widely distributed Polyalthia bullata also occurs in lowland forest but on
hillsides and river terraces that are not as low-lying and moist as the habitat of watui.

Provisional lUCN conservation assessment. Polyalthia watui is so far documented
only from undisturbed lowland primary forest in the Labi Hills Forest Reserve, Belait
district, and several pockets in the Ladan Hills Forest Reserve, Tutong distiict. The
lUCN status proposed here is Least Concern (LC) as the species is protected in forest
reserves with no imminent threats. The Brunei Govenmient officially announced in
2014 that logging will be phased out in all forest reserves (Brunei Times, 2014).

ACKNOWLEDGEMENTS. Our botanical surveys in Bmnei Darussalam were sponsored by
the Brunei Forestry Department of the Ministry of Prhnary Resources and Tourism, and the
National Parks Board, Singapore through the Singapore Botanic Gardens. Y.W. Low assisted in
the composition of Fig. 1. Dr David M. Johnson (Ohio Wesleyan University) and an anonymous
reviewer provided useful comments.

References

Bmnei Times (2014). Logging no longer allowed in forest reserves: Ministry of Industry
and Primary Resources. 23 March 2014. http://bt.com.bn/news-national/2014/03/23/
logging-no-longer-allowed-forest-reserves-mipr (accessed on 13 Feb. 2015).

Chaowasku, T, Johnson, D.M., Van der Ham, R.W.J.M. & Chatrou, L.W (2015). Huberantha,
a replacement name for Hubera (Annonaceae: Malmeoideae: Miliuseae). Kew Bull.
70: 23.

76

Gard. Bull. Singapore 68(1) 2016

Chatrou, L.W., Pirie, M.D., Erkens, R.HJ., Couvreiir, T.L.R, Neubig, K.M., Abbott, R.J.,
Mols, J.B., Maas, J.W., Saunders, R.M.K. & Chase, M.W. (2012). A new higher-
level classification of the pantropical floweiing plant family Annonaceae informed by
molecular phylogenetics. Bot. J. Linn. Soc, 1 69: 5^0.

lUCN (2012). lUCN Red List Categories and Criteria: Version 3.1. 2nd ed. Switzerland, Gland
and UK, Cambridge: lUCN.

Joffre, A. A., Ariffin, M.A.K., Low, Y.W. & Wong, K.M. (2015). Novitates Bmneienses, 1.
A background to the botanical survey of Brunei Damssalam, and a new species of
Jarandersonia (Malvaceae). Card. Bull. Singapore 61 {\)\ 51-60.

Johnson, D.M. & Muinay, N.A. (1999). Four new species of Polyalthia (Annonaceae) from
Borneo and their relationship to Polyalthia insignis. Contr Univ. Michigan Herb. 22:
95-104.

King, G. (1892) Materials for a Flora of the Malay Peninsula. No. 4. J. Asiat. Soc. Bengal, Pt.
2, Nat. Hist. 61(1): 1-130.

Mols, J.B., Kessler, P.J.A., Rogstad, S.H. & Saunders, R.M.K. (2008). Reassignment of six
Polyalthia species to the new genus Maasia (Annonaceae): molecular and morphological
congruence. Syst. Bot. 33: 490-494.

Rainer, H. & Chatrou, L.W. (2014). AnnonBase: world species list of Annonaceae, ver. Jan.
2014. http://www.sp2000.org and http://www.annonaceae.org (accessed on 14 Oct.
2015).

Saunders, R.M.K., Su, Y.C.F. & Xue, B. (2011). Phylogenetic affinities of Polyalthia species
(Annonaceae) with columellar-sulcate pollen: Enlarging the Madagascan endemic
goxwxs Fenerivia. Taxon 60\ 1407-1416.

Sinclair, J. (1955). A revision of the Malayan Annonaceae. Gard. Bull, Singapore 14: 149-518.

Thiers, B. (continuously updated). Index Herbariorum: A global directoiy of public herbaria
and associated staff. New York Botanical Garden’s Virtual Herbarium. http://sweetgum.
nybg.org/ih/ (accessed on 30 Jul. 2015).

Turner, I.M. (2009). New species and nomenclatural combinations m Polyalthia, Meiogyne and
Mitrella (Annonaceae) from Borneo. Malayan Nat. J. 61: 267-276.

Turner, I.M. (20 1 0). New species of Polyalthia (Annonaceae) from Borneo and their relationship
to Polyalthia cauliflora. Nordic J. Bot. 28: 267-279.

Turner, I.M., Weerasooriya, A.D., Saunders, R.M.K. & Ganesan, S.K. (2014). Annonaceae.
In: Soepadmo, E., Saw, L.G., Chung, R.C.K. & Kiew, R. (eds) Tree Flora of Sabah
and Sarawak, vol. 8. Kepong, Malaysia: Sabah Forestry Department, Forest Research
Institute Malaysia & Sarawak Forestry Department.

Xue,B., Su, Y.C.F., Mols, J.B., Kessler, P.J. A. & Saunders, R.M.K. (2011). Further fragmentation
of the polyphyletic genus Polyalthia (Annonaceae): molecular phylogenetic support for
a broader delimitation of Marsypopetalurn. Syst. Biodivers. 9: 17-26.

Xue, B,, Su, Y.C.F., Thomas, D.C. & Saunders, R.M.K. (2012). Pruning the polyphyletic genus
Polyalthia (Annonaceae) and resurrecting the genus Monoon. Taxon 61: 1021-1039.

Gardens’ Bulletin Singapore 68(1): 77-86. 2016
doi: 10.3850/S2382581216000041

77

Three new species of Begonia (Begoniaceae)
from Sumbawa Island, Indonesia

D. Girmansyah

Herbarium Bogoriense, Research Center for Biology,
Indonesian Institute of Sciences, Jl. Raya Jakarta-Bogor Km 46,
Cibinong, 16911, Bogor, West Java, Indonesia
deden_bo@yahoo .com

ABSTRACT. Three new species of Begonia L., Begonia sumbawaensis Girm., Begonia
brangbosangensis Girm. and Begonia jaranpusangensis Girm., are described from Sumbawa,
Indonesia. All species are illustrated and identification keys and distribution maps are provided.

Keywords. Begonia sect. Petermannia, Begonia sect. Reichenheimia, Betunin, endemic

Introduction

Begonia L. (Linnaeus, 1753), is currently estimated to have around 1803 species
distributed throughout tropical and subtropical Asia, Africa and America (Hughes
et al., 2015b). In Southeast Asia, Indonesia is a centre of diversity for Begonia and
many new species are still being discovered (Ginnansyah & Susanti, 2015; Hughes
et al., 2015a; Undaharta et ah, 2015). CuiTently, 231 accepted species of Begonia
are known from hidonesia, distributed from Sumatra to Papua. In Sumbawa (West
Nusa Tenggara), only three species have been recorded to date {Begonia bimaensis
Undaharta & Ardaka (Undaharta et ah, 2015), B. multangula Blume (Hughes et ah,
2015b) and B. muricata Blume (Hughes, 2008). Some specimens previously attributed
to Begonia muricata are included below in the new species B. sumbawaensis.

Sumbawa is situated between Lombok to the west and Flores to the east.
Botanical exploratory efforts on Sumbawa are summarised in Van Steenis-Kruseman
(1950). Recent botanical explorations in March 2004 and July 2005 conducted by
Herbarium Bogoriense (RCB-LIPI) and sponsored by the New England Tropical
Conservatory, USA resulted in three new species of Begonia being collected. The new
species were collected from the Mt Batu Pasak complex, the Mt Ngengas complex and
the Jaran Pusang complex (Fig.l).

Three new species. Begonia sumbawaensis Ginn., Begonia brangbosangensis
Ginu. dindBegonia jaranpusangensis Girm., are described here. Begonia sumbawaensis
is placed in Begonia sect. Reichenheimia (Klotzsch) A.DC. (De Candolle, 1859)
as it exhibits the characters typical of the section: rhizomatous stems, protandrous
inflorescences, and three locular ovaries with entire placentae (Doorenbos et ah,
1998). Begonia jaranpusangensis and B. brangbosangensis are placed in Begonia
sect. Petermannia (Klotzsch) A.DC. (De Candolle, 1859) as they exhibit characters

78

Gard. Bull. Singapore 68(1) 2016

O

O

00

o

o

b

116WE 118WE

116 WE 118"6'0"E

Fig 1. Distribution of Begonia sumbawaensis Girm. (triangles), B. brangbosangensis Girm.
(circles) and B. jaranpusangensis Girm. (square).

typical of the section: upright stems, protogynous inflorescences, and three locular
ovaries with branched placentas (Doorenbos et ah, 1998).

Key to the species of Begonia from Sumbawa

la. Rhizomatous or tuberous herb; leaves ovate to broadly ovate 2

lb. Erect herb; leaves ovate to oblong 3

2a. Base tuberous; leaves lobed, upper surface with long hairs B. bimaensis

2b. Base rhizomatous; leaves entire, upper surface glabrescent B. sumbawaensis

3a. Leaves broadly ovate or orbicular, margin shallowly lobed; fruit fleshy and

indehiscent B. multangula

3b. Leaves elliptic, oblong, ovate or narrowly ovate, margin entire; fruit dry and
dehiscent 4

Three new Begonia species from Indonesia

79

4a. Leaves ovate to elliptic; petiole hairy B. jaranpusangensis

4b. Leaves narrowly ovate to oblong; petiole glabrous B. brangbosangensis

Begonia sumbawaensis Girm., sp. nov. § Reichenheimia

Similar to Begonia lugrae Ardhaka & Undaharta ( Ardi et al., 20 1 3) but differs in having
tomentose petioles (not glabrous), stipule narrowly triangular (semicircular in Begonia
lugrae), female flower tepals four (three in Begonia lugrae) and stamens 48 (90 in
Begonia lugrae), - TYPE: Indonesia, West Nusa Tenggara, West Sumbawa, Betunin
Hill, 10 July 2005, Deden Girmansyah 461 (holotype BO; isotypes BO, E). (Fig. 2)

Perennial, creeping, rhizomatous monoecious herb, up to 30 cm tall. Stems
rhizomatous, rooting at the nodes, intemodes very close, 5-10 mm long; stipules
nan*owly triangular, with dense hairs along the dorsal vein, 9 x 4.5 mm, with a hair-
like appendage at the apex covered with additional dense hairs, semi persistent. Leaves
alternate; petioles 10-25 cm long, tomentose, reddish; lamina basifixed, 10-30x 9-29
cm (in live material), asymmetric, suborbicular to broadly ovate, base cordate, lobes
overlapping, apex acute to attenuate, margin sub-entire, with minute teeth at the
end of the veins, adaxial surface glabrescent to sparsely hairy, light green; abaxial
surface shiny red with scattered short hairs, venation palmate, primary veins 7-8.
Inflorescence cymose, with 6-10 flowers, axillary, protandrous, bisexual; peduncle
10-30 cm long, diameter 2-4 mm, puberulous; bracts sub-orbicular, red, c. 3.3 x 2.5
mm, margin slightly fimbriate, persistent. Male flowers: pedicels c. 2 cm long, haiiy;
tepals 4, white to reddish, two outer tepals sub-orbicular, 1.4-2 x 1.2-1. 5 cm, base
slightly cordate, margin entire, apex rounded or slightly undulate, glabrous; two inner
tepals narrowly obovate, white, 1.2-1. 5 x 0.8-1 cm, glabrous; androecium symmetric,
the cluster globose; stamens yellow, c. 48 in number, subequal; filaments 1-1 .5 mm
long, fused at the base; anther obovoid, c. 1 mm long, dehiscing through unilateral
slits as long as anther. Female flowers: pedicels 12-18 mm long, puberoulus; tepals
4, unequal, two outer tepals orbicular to broadly ovate, c. 11 x 14 mm, margin entire,
apex rounded, two inner tepals narrowly obovate, c. 10x5 mm; ovary sub-globose,
5-7 X 2-3 mm, locules 3, placentation axile, entire, wings 3, unequal, obtuse at the
apex, the widest point at the middle of the ovary, 5 mm wide, glabrous; stigmas 3,
yellowish green, Y-shaped, 3 mm long. Fruits with pedicels 2.2-3 cm long; capsule
ellipsoid, 6-10 x 4-8 mm (excluding wings), dehiscent, splitting between the locules
and wings, wings 3, subequal, wings 7-10 mm at the widest point, thinly fibrous.
Seeds barrel-shaped, 0.35-0.37 mm long, collar cells more than a half of seed length.

Distribution. Endemic to West Sumbawa, West Nusa Tenggara, Indonesia.

Habitat Terrestrial herb on steep slopes in tropical forest between 1300-1600 m alt.

Additional specimens examined. West Nusa Tenggara: West Sumbawa, Batu Linting, 15 Jul
2005, Deden Girmansyah 506 (BO); West Sumbawa, Mt Batu Pasak, 18 July 2005, Deden

Gard. Bull. Singapore 68(1) 2016

■4i>a»>ie

1015

Fig. 2. Begonia sumbawaensis Girm. A. Habit. B. Female flower. C. Style. D. Male flower.
E. Stamen. F, Fruit in cross section. G. Fruit. H. Stipule. I. Seed. J. Bract. Drawn by A.
Kusumawati.

Three new Begonia species from Indonesia

81

Girmansyah 535 (BO); West Sumbawa, Olat Tebelah Hill, 9 Jul 2005, Deden Girmansyah 429
(BO); West Sumbawa, Upper Batu Dulang, Brang Bosang River Slope of Batu Linting, 1 5 Jul
2005, HW 12644 (BO); ZW Sumbawa, De Voogd 1634 (BO); West Sumbawa, Mt Batulanteh,
22 Apr 1961, Kostermans 18400 (A, K); West Sumbawa, September 1879, Coifs 299 (L [3
sheets]).

Notes. The epithet is derived from the name of Sumbawa Island. With its creeping habit
Begonia sumbawaensis is typical for Begonia sect. Reichenheimia. It is a very attractive
species with bright red petioles and leaf undersides, and with the inflorescence being
longer than the petioles and bearing many flowers. As such the plant has potential for
ornamental use. This species is found on steep slopes and hence was very difficult to
collect.

Begonia brangbosangensis Girm., sp. nov. ^Petermannia

Begonia brangbosangensis differs from B. lombokensis Girm. (Girmansyah, 2009)
in having the female flower solitary in the leaf axils (in pairs in B. lombokensis),
number of stamens 45 (24 in B. lombokensis), and the female flower pedicel 0.5-0. 8
cm long (1.3 cm long in B. lombokensis). - TYPE: Indonesia, West Nusa Tenggara,
West Sumbawa, Brang Bosang river, upper Batu Dulang Village, 18 July 2005, Deden
Girmansyah 528 (holotype BO; isotypes BO, E). (Fig. 3)

Perenial, erect, monoecious herb, 1 m tall. Stems erect, intemodes 2-10 cm long,
diameter 5-7 mm; stipules narrowly lanceolate, c. 10 x 4.5 mm, pale green, glabrous,
persistent. Leaves alternate; petioles 2-5 cm long, glabrous, green or reddish; lamina
nan'owly ovate to oblong, basifixed, asymmetric, 9-20 x 2.5-6 cm, base subcordate,
margin distantly serrulate, apex attenuate, adaxial surface green, glabrous, abaxial
suface green; venation pinnate, primary veins 3-4 pairs along the midrib; impressed
above, prominent beneath, pale green to burgundy beneath, glabrous. Inflorescence
racemose, bisexual, 3-7 cm long, erect, male flowers distal, female flowers basal;
peduncle 1-3 cm; bracts bright green, elliptic, 9x3 mm, margin entire, caducous.
Male flowers: pedicels c. 1 cm long, glabrous; tepals 2, white to pink, broadly elliptic,
8-1 0 X 6-9 mm, margin entire, glabrous; androecium c. 0.4 mm long, stamens c. 45 in
number, filaments 1-1.5 mm long, fused at the base, anther pale yellow c. 1 mm long,
obovoid, delnscing through unilateral slits c. 'A as long as anther. Female flowers:
pedicels 5-10 mm long, green, glabrous; tepals 2, white, obovate, base subcordate,
apex obtuse to rounded, equal, glabrous, c. 12 x 10mm; ovai*y pale green to reddish
brown, subglobose to ovoid, 8-1 5 x 8-1 3 mm (wings included), capsule ovoid, locules
3, placentation axillary, placental branches 2 per locule; wings 3, unequal, rounded at
the apex, 3-5 mm wide; styles 3, yellow, c. 6 mm long, free to the base, bifurcating with
pale yellow stigma. Fruits with pedicel 1 5 mm long, capsule ellipsoid, 8-20 x 5-9 mm
(excluding wings), dehiscent, splitting between the locules and wings, glabrous, wing
shape as for ovary, wings 8-10 mm wide at the widest point. Seeds numerous, brown,
ellipsoid, 0.34-0.36 mm long, collar cells more than a half of seed length.

82

Gard. Bull. Singapore 68(1) 2016

10 mm

6 mm

A

Fig. 3. Begonia brangbosangensis Gimi. A. Habit. B. Male flower. C. Stamen. D. Female
flower. E. Style. F. Stipule. G. Seed. H. Fruit in cross section. 1. Fruit. J. Ovary. Drawn by A.
Kusumawati.

Three new Begonia species from Indonesia

83

Distribution. Endemic to West Sumbawa, Sumbawa, West Nusa Tenggara, Indonesia.

Habitat. Terrestrial on the forest floor on wet and moist substrates especially along
stream margins and river banks at 1300-1700 m altitude.

Additional specimens examined. West Nusa Tenggara: West Sumbawa, between Brangbosang
river and Mt Batulinting, 15 Jul 2005, Deden Girmansyah 509 (BO); West Sumbawa, Upper
Tepal Traditional Village, slope of MtNgengas, top of Batu Tunin, East Moimtain Forest, 10
Jul 2005, Deden Girmansyah 463 (BO); West Sumbawa, upper Tepal Traditional village, Olah
Tebelat, Pagenong, slope of Mt Ngengas, 9 Jul 2005, Deden Girmansyah 432 (BO); West
Sumbawa, Mt Batulanteh, trail from Batu Dulang to Pusu, 19 Apr 1961, Kostemans 18347 (A,
BO,K); West Sumbawa, Mt Batulanteh, 22 Apr 1961 , Kostermans 18396 (A, BO, K).

Notes. The epithet is derived from the name of the Brang Bosang River in West
Sumbawa.

Begonia jaranpusangensis Ginn., sp. nov. § Petermannia

Begonia jaranpusangensis is similar to B.padangensis Irmsch. in habit and in
having hairy petioles, but differs in having two tepals in the male flowers (four in B.
padangensis), two tepals in the female flowers (five in B. padangensis), and female
flower pedicels 0.5-0.7 cm (10-15 mm in B. padangensis). - TYPE: Indonesia,
West Nusa Tenggara, West Sumbawa, Plampang, between Tana Silo to slope of Mt
JaranPusang, 23 July 2005, Deden Girmansyah 552 (holotype BO; isotypes BO, E).
(Fig. 4)

Perenial, erect, monoecious herb, 1 m tall. Stem green to reddish green, hirsute, 3-10
mm diameter when fresh, intemodes 2-10 cm long; stipules narrowly lanceolate, green,
puberulent, 15-25 x 4-8 mm, margin entire, apex acuminate, ending with a short hair,

1- 2 mm long, persistent. Leaves alternate; distant; petioles red, pilose, 1-5 cm long,
diameter 2-3 mm, grooved above; lamina basifixed, ovate to elliptic, 1 1-18 x 5-9 cm,
asymmetric, base rounded on the broad side and cuneate on the nan*ow side, broad side
4-6.5 cm wide, narrow side 1-3 cm wide, margin denticulate, apex acute to attenuate;
venation pinnate, primary veins 5-6 pairs, impressed above, prominent beneath.
Inflorescences racemose, protogynous, bisexual; male inflorescence monochasial
at base, sympodial at apex, peduncle 1.5-2. 5 cm long, erect, paniculate; female
inflorescence a simple dichasium with a pair of flowers, peduncle 2.5-3 cm long;
bracts bright green, narrowly elliptic, c. 15 x 5 mm, persistent. Male flowers: pedicels

2- 2.5 cm long, white to pinkish, glabrous; tepals 2, suborbicular to broadly ovate ,
white to pink, 12 x 9-10 mm, margin entire, apex rounded, glabrous; androecium c. 5
mm long, stamens c. 34 in number, filaments 1-1 .5 mm long, fused at the base, anthers
pale yellow 1.5-2 mm long, obovoid, dehiscing through unilateral slits c. ’A as long
as anther. Female flowers: pedicels green, puberulent, 5-8 mm long; tepals 5, white,
naiTowly elliptic to lanceolate, glabrous, 12-1 3 x 6-8 mm; ovary pale green, triangular
in outline, 10x4 mm (wings included), wings 3, subequal, rounded at the apex, the

Three new Begonia species from Indonesia

85

widest point 5 mm wide; styles 3, yellow, 4-5 mm long. Fruits with pedicel c.l5 mm,
capsule c. 2 X 1.5 cm (excluding wings), dehiscent, splitting between the locules and
wings. Seeds numerous, brown, broadly ellipsoid to ellipsoid, c. 0.31-0.35 mm long.

Distribution. Endemic to Mt Jaranpusang, West Sumbawa district, Sumbawa, West
Nusa Tenggara, Indonesia.

Habitat. Terrestrial herb, found on the slope of Mt Jaranpusang in rather dry conditions,
at c. 615 m altitude.

Additional specimens examined. West Nusa Tenggara, West Sumbawa, Plampang, between
Tana Silo to slope of Mt Jaranpusang, 23 Jul 2005, Deden Girmansyah 461 (BO).

Notes. The species epithet is derived from the name of Mt Jaran Pusang in West
Sumbawa. Mount Jaran Pusang is separate from the mountains in the central Mt Pasak
complex and has a drier climate. The base of the mountain is covered by bamboo
gardens and the habitat is noticeably dry in appearance. The peak of Mt Jaran Pusang
is rocky and there are few trees of any size; the floristic composition is also rather
different compared with the flora from elsewhere in the middle of West Sumbawa.
Begonia jaranpusangensis was collected from the middle slopes of Mt Jaran Pusang
and is only known from this site.

ACKNOWLEDGEMENTS. I am grateful to the Director of Herbarium Bogoriense for making
available the specimens to study. Dr Harry Wiriadinata and Mr Scott Hoover who encouraged
me to collect Begonia specimens during their 2004 and 2005 expeditions to West Sumbawa
sponsored by the New England Tropical Conservatory (NETC), and Dr Mark Hughes from the
Royal Botanic Garden Edinburgh for cormnents on an earlier version of the manuscript and for
his assistance with the English. 1 would like to thank Wahyudi Santoso and Anne Kusumawati
for their excellent line drawings.

References

Ardi, W.H., Ardhaka, I.M., Hughes, M., Undaharta, N.K.E., Girmansyah, D. & Hidayat, S.
(2013). Two new species of Begonia (Begoniaceae) from Bali and Lombok. Gard. Bull.
Singapore 65(2): 135—142.

De Candolle, A.L.P.P. (1859). Memoire sur la famille des Begoniacees. Ann. des Sci. Nat., Bot.
11:93-149.

Doorenbos, J., Sosef, M.S.M. & De Wilde, J.J.F.E. (1998). The sections of Begonia including
descriptions, keys and species lists (Studies in Begoniacoao VI). Wageningen Agric.
Univ. Pap. 98: 1-266.

Ginnansyah, D. (2009). A taxonomic study of Bali and Lombok Begonia (Begoniaceae).
Reinwardtia 12(5): 419^34.

Ginnansyah, D. & Susanti, R. (2015). Two new species of Begonia (Begoniaceae) from
Bomoo. Kew Bull. 70(2)-19: 1-7.

86

Gard. Bull. Singapore 68(1) 2016

Hughes, M. (2008). An Annotated Checklist of Southeast Asian Begonia, xii + 164 p. UK:
Royal Botanic Garden Edinburgh.

Hughes, M., Girmansyah, D. & Ardi, W. (2015a). Further discoveries in the ever-expanding
genus Begonia (Begoniaceae): Fifteen new species from Sumatra. Eur. J. Taxon. 167:
1 ^0 http://m.europeanjoumaloftaxonomy.eu/index.php/ejt/article/view/289 (accessed
on 28 Dec. 2015).

Hughes, M., Moonlight, P., Jara, A. & Pullan, M. (2015b). Begonia Resource Centre. Royal
Botanic Garden Edinburgh http://elmer.rbge.org.ulUbegonia/ (accessed on 22 Dec.
2015).

Linnaeus, C. (1753). Species plantanm: exhibentes plantas rite cognitas, ad genera i^elatas,
cum differentiis specificis, norninibus tiivialibus, synonyntis selectis, locis natalibus,
secundum systema sexiiale digestas. Holmiae: Laurentii Salvii.

Undahaita, N.K.E., I Made Ardaka, Agung Kumiawan & Bayu Adjie (2015). Begonia
bimaensis, a new species of Begonia from Sumbawa Island, Indonesia. GarB. Bull.
Singapore 67(1): 95-99.

Van Steenis-Kruseman, M.J. (1950). Malaysian plant collectors and collections: Being a
cyclopedia of botanical exploration in Malaysia and a guide to concerned literature up
to the year 1950. Flora Malesiana, Ser. I, 1: 5-605. Jakarta: P. Noordhoff

Gardens’ Bulletin Singapore 68(1): 87-95. 2016
doi: 10.3850/S2382581216000053

87

New records of Orchidaceae from Bali, Indonesia

D. Sulistiarini, D. Arifiani & Y. Santika

Herbarium Bogoriense, Research Center for Biology,
Indonesian Institute of Sciences, Jl. Raya Jakarta-Bogor KM 46,

Cibinong, Bogor, Indonesia
dsulistiarmi@yahoo.com

ABSTRACT. During plant inventory work in the forested areas of Mt Mesehe and Mt Merbuk,
Jembrana district, Bali, twenty orchid species were collected. Among the species collected,
five were confirmed as new records for Bali. The five newly recorded species are Calanthe
zollingeri Rchb.f , Plocoglottis plicata (Roxb.) Ormerod, Podochilus setptylHfolius (Blume)
Lindl., Styloglossum speciosum (Blume) T.Yukawa & RJ.Cribb, and Vanilla albida Blume.
Descriptions of taxa and images are provided.

Keywords. Calanthe, Mt Mesehe, new records, orchids, Plocoglottis, Podochilus, Styloglossum,
Vanilla

Introduction

Bali is famous for its beautiful landscapes and beaches, for which the island has
become the number one tourist destination in Indonesia. In contrast, the plant diversity
of Bali is not well known. There are few floristic publications about Bali, including
little infonnation on the orchid species of the island.

Recent classifications of the Orchidaceae recognise five subfamilies, namely
Apostasioideae, Vanilloideae, Cypripedioideae, Orchidoideae and Epidendroideae,
with about 27,800 species in total (Stevens, 2015). Schuiteman et al. (2014) have
reported that in Malesia there are about 6000 species of which 200 are found in the
Lesser Sunda Islands (Bali, Nusa Tenggara Barat and Nusa Tenggara Timur). For Bali
alone, 146 species of orchids have been recorded (Ginnansyah et al., 2013). Comber
(1990) suggested that Java had 731 species, while Sumatra had a higher number of
1118 species (Comber, 2001). However, more recently, Schuiteman et al. (2014) have
increased the number of orchid species known from Java and Sumatra to 769 and 1 126
species, respectively. Therefore, it is to be expected that more species are to be found
in Bali than those recorded by Ginnansyah et al. (2013).

Most herbarium specimens deposited in the Herbarium Bogoriense (BO) were
collected in the central and eastern parts of Bali, while fewer specimens are from the
western parts of the island. Therefore, an attempt was made recently to explore plant
diversity in the western parts, especially in .lembrana district in the forested areas of
Mt Merbuk (1386 m asl.) and Mt Mesehe (1300 m ask). These are the two highest
mountains in Jembrana district.

88

Gard. Bull. Singapore 68(1) 2016

Jembrana district, which covers 841.8 km^ or 14.93% of Bali, is situated at
8°03'40"-8°50'48"S and 114°25'53"-114°42'40"E. The topography is gently rolling
country to hilly, with a fine-grained soil texture in which the grey-brown alluvial and
regosol types are dominant. Jembrana district has two seasons, i.e., the rainy and dry
season. The heavy rainfall occurs from December to March and the dry season usually
starts from April or May. The average rainfall in 2012 was 1663 mm/year with 112
rainy days per year on average (Anonymous, 2014).

In the Mt Mesehe area, the Yeh Mesehe waterfall (at c. 980 m asl.) is an important
water source for the villages in the region. In the Mt Merbuk area, big rivers, such as
Tukad Aya, Titis and Ijo Gading, are important for maintaining forest conditions. In
Jembrana, 39. 17% of the land area consists of protected forests which in turn preserves
the water catchment. The forests in the Mt Mesehe area are in a good condition from
350 m asl upwards with cultivated areas are only below this altitude. The villagers grow
cacao, coffee, banana and coconut. From 900 m asl upwards the forest is very moist
and foggy, the litter is rather thick to about 1 0 cm, and available trails to explore the
area are veiy steep. Cyathea sp.. Rhododendron sp. and Vaccinium sp. are commonly
found at this elevation. On Mt Merbuk wild palms are common at around 500 m asl,
whereas at 600 to 760 m altitude Dipterocarpus sp., Podocarpus sp., Fagraea sp. and
Pavetta sp. are common. Along the Titis river, there are, amongst others, Nephrolepis
biserrata (Sw.) Schott, Asplenium nidus L., Dry^opteris sp., Selaginella sp., bryophytes.
Begonia sp. and some orchids. The rattans Daemonorops melanochaetes Blume and
Calamus javensis Blume, along with climbers such as Freycinetia javanica Blume and
members of the Vitaceae are also commonly found.

Methods

A plant inventory was conducted in the Jembrana district in the vicinity of Mt Mesehe
in May 2013 and in the Mt Merbuk forest area in April 2014. The collection of orchids
followed the methodology of Van Balgooy (1987). The collections were photographed
when flowering and then dried as herbarium specimens. Some spirit samples of flowers
were also prepared using a mix of glycerine 40%, alcohol 96% and distilled water at
a ratio of 1:70:29 (Rugayah et al., 2004). Sterile specimens were also collected for a
pennanent record of all orchid species in Bali. All measurements in the descriptions
are based on dried specimens.

Five of the orchid species found are new records as they are not included in
the recently published checklist of the Flora of Bali (Girmansyah et al., 2013) and
their occurrence in Bali is not noted in eMonocot (2015), Schuiteman et al. (2014),
Comber (1990, 2001), Seidenfaden & Wood (1992) and Wood et al. (1993). Many
orchid species are reported to be distributed in the Lesser Sunda Islands (LSI) without
further elaboration on which specific island(s) they can be found. In this paper we do
not include those species as new records.

New orchid records from Bali

89

Results and Discussion

The exploration of Mt Mesehe and Mt Merbuk has resulted in many new orchid
specimens of 20 species (Table 1) for Herbarium Bogoriense (BO). Previously only
about sixty orchid species have been recorded from Bali but among the 20 species
newly collected we were able to confirm that five species are new records. Four of
these species belong to the subfamily Epidendroideae, i.e. Calanthe zollingeri Rchb.f ,
PlocogJottis plicata (Roxb.) Onuerod and Podochilus serpyUifoUus (Blume) LindL,
Styloglossum speciosum (Blume) T.Yukawa & P.J.Cribb. The remaining species is
Vanilla albida Blume belonging to the subfamily Vanilloideae, Epidendroideae includes
78% of the species of Orchidaceae and is characterised by the presence of incumbent
anthers which bend forward during column elongation (Stevens, 2015; Freudenstein
& Chase, 2014). In Indonesia, Styloglossum speciosum and Plocoglottis plicata were
previously known from Java, Maluku, Sulawesi, Kalimantan and Sumatra. Calanthe
zollingeri, Podochilus seipyllifolius and Vanilla albida were previously known from
Java, Kalimantan and Sumatra. These species are relatively common, yet they have
not been recorded from Bali before.

Apart from the five newly recorded species, there are another eleven that have
previously been recorded from the Lesser Sunda Islands but further study is needed to
ascertain whether those records included Bali.

Description of taxa

Calanthe zollingeri Rchb.f, Bonplandia 5: 38 (1857); Comber, Orchids Java: 93
(1990). - TYPE: Java, Banyuwangi, Leg. ign. 2858 (holo W, n.v.). (Fig. 1)

Pseudobulbs close together, bearing 4-5 leaves. Leaves 23-40 cm long, 8-9 cm wide,
ovate, acuminate, petiole 10-12 cm long. Inflorescences 40-60 cm tall, rachis c. 6 cm
long, bearing 10-20 flowers, not all open at one time. Flowers white, about 2.5 cm
wide; sepals and petals about 1 cm long, oblong; lip white and then turning yellow to
orange, unlobed, circular, deeply split, outer margin incurved.

Distribution. Peninsular Malaysia, Sumatra, Java, Bali, Borneo.

Habitat. Lowland forest along river, also in primary forest.

Specimens examined. INDONESIA. Bali: Jembrana district: Mendoyo subdistrict, Batu
Agung village, Panca Seining, forest surrounding Mt Sekar, 550 m asl., 1 7 May 2013, N. Utami
2032 (BO); Jembrana subdistrict, Dauh Warn village, Mundulc Warn, forest surrounding Mt
Merbuk, 520 m asl., 23 Apr 2014, Y. Santika 749 (BO); Jembrana subdistrict, Batu Agung
village, Palungan Batu, Tuntuna, along Tukad Aya river, forest surrounding Mt Merbuk, 200 m
asl., 23 Apr 2014, S. Sunarti 755 (BO).

90

Card. Bull. Singapore 68(1) 2016

Plocoglottis plicata (Roxb.) Ormerod in Comber, Orchids Sumatra: 293 (2001).
- Limodorum plicatum Roxb., FI. Ind. ed. 3: 465 (1832). - Plocoglottis acuminata
Blume, Ann. Mus. Bot. Lugduno-Batavum 1: 46 (1849). - TYPE: Java, Blume s.n. (L,
n.v.). (Fig. 2)

Pseudobulbs well-spaced along rhizome, 4-6 cm long, 0.2-0.5 cm wide, cylindrical,
usually covered by leaf sheath. Rliizome creeping, branched, intemodes 1.5-2. 5 cm
long, 0.3-0.4 cm thick. Leaf 1, ovate, 20-25 cm long, 7-8.5 cm wide, acuminate,
petiole 4-7 cm long. Inflorescences from base of young pseudobulb, 30^0 cm long,
bearing several flowers. Flowers opening widely, yellow with red markings, 3 cm
wide; sepals and petals narrowly lanceolate, acute; lip in outline almost square.

Distribution. Sumatra, Java, Bali, Borneo, Moluccas, Sulawesi, Philippines.

Habitat. Lowland forest along river; primary forest, sometimes growing on rocks.

Specimens examined. INDONESIA. Bali: Jembrana district: Mendoyo subdistrict, Poh
Santen village, Pasatan, forest suiTounding Mt Mesehe, 400 m ash, 18 May 2013, D. Arifiani
1365 (BO); Mendoyo subdistrict, Batu Agung village, Panca Seming, Yeh Mesehe protected
forest, 860 m ash, 17 May 2013, K Santika 548 (BO); Jembrana subdistrict, Batu Agung village,
Palungan Batu, Pangkung Palir, along Tukad Aya river, forest surrounding Mt Merbuk, 280 m
ash, 23 Apr 2014. D. Arifiani 1416 (BO).

Podochilus serpyllifolius (Blume) Lindh, J. Proc. Linn. Soc., Bot. 3: 37 (1858);
Comber, Orchids Java: 202 (1990). - Cryptoglottis serpyllifolia Blume, Bijdr. Fh Ned.
Ind.: 296 (1825). - TYPE: ?Indonesia, T. Lobb 155 (AMES, n.v.). (Fig. 3)

Pseudobulbs absent. Stems hard, creeping, hanging, branching. Leaves very small,
in two rows along the stem, about 1 mm apart, ovate, 3-4 mm long, c. 1 mm wide,
sessile, acute. Inflorescences usually tenninal, bearing up to 4 flowers. Flowers not
opening widely, about 4.5 mm long and 1 .5 mm wide, white with a pink-purple spot in
the middle of the petal and lip.

Distribution. Sumatra, Java, Bali, Borneo.

Habitat. Primary forest, growing in moss on rocks.

Specimen examined. INDONESIA. Bali: Jembrana district: Mendoyo subdistrict, Batu
Agung village, Panca Seming, Yeh Mesehe protected forest, 935 m ash, 17 May 2013, Y.
Santika 570 (BO).

New orchid records from Bali

91

Fig. 1. A-B. Calanthe zollingeri Rchb.f. (Photos: Yessi Santika)

Fig. 2. Plocoglottis plicata (Roxb.) Ormerod. A. Habit. B. Detail of the flower. (Photos: Deby
Ariflani)

92

Gard. Bull. Singapore 68(1) 2016

Styloglossum speciosum (Blume) T.Yiikawa & PJ.Cribb, Bull. Natl. Mus. Nat. Sci.,
Ser. B, 40(4): 150 (2014). - Calanthe speciosa (Blume) Lindl., Gen. Sp. Orchid. PL:
250 (1833); Comber, Orchids Java: 93 (1990); Seidenfaden & Wood, Orchids Penins.
Malaysia Singapore: 175 (1992). - Amblyglottis speciosa Blume, Bijdr. FI. Ned. Ind.:
371 (1825). - TYPE: Java, Blume s.n. (L, n.v.). (Fig. 4)

Pseudobulbs close together, with 4-7 leaves, hidden by leaf sheaths. Leaves 40-50
cm long, 8-10 cm wide, oblong, nerves prominent, acute, leaf sheaths overlapping.
Inflorescences 45-80 cm long; sterile bracts 5, boat-shaped, 2-6 cm long; bracts
caducous, absent during flowering. Flowers 3 cm wide, petals and midlobe of lip
yellowish, sepals golden yellow; sepals and petals ovate, acuminate; lip three-lobed,
with two basal rounded calli.

Distribution. Southeastern and southern China, Japan (R 5 aikyu), Taiwan, Vietnam,
Thailand, Peninsular Malaysia, Sumatra, Java, Bali, Borneo, Sulawesi, Moluccas,
Philippines.

Habitat. Primary forest.

Specimen examined. INDONESIA. Bali: Jembrana district: Mendoyo subdistrict, Batu
Agung village, Panca Seining, Yeh Mesehe protected forest, 700 m asL, 17 May 2013, Y.
Santika 542 (BO).

Vanilla albida Blume, Cat. Gew. Buitenz.: 100 (1823); Comber, Orchids Java: 76
(1990); Seidenfaden & Wood, Orchids Penins. Malaysia Singapore: 127 (1992);
Comber, Orchids Sumatra: 130 (2001). - TYPE: Java, Blume s.n. (holo L, n.v.).

Pseudobulbs absent. Stems climbing, with intemodes 10-11 cm long, leaves alternate,
aerial roots opposite leaves. Leaves lanceolate, 15-18 cm long, 3-4 cm wide, acute,
petiole 1-1.5 cm long. Inflorescences axillary, bearing many flowers, floral bracts
obtuse. Flowers open only on one day, at first widely open and then half-closing;
sepals and petals pale yellow or yellowish green; lip white, but violet inside near the
base, recurved, trumpet-like.

Distribution. Andaman Islands, Nicobar Islands, Sumatra, Java, Bali, Borneo.
Habitat. Lowland forest.

Specimen examined. INDONESIA. Bali: Jembrana district: Mendoyo subdistrict, Poh
Santen village, Pasatan, forest surrounding Mt Mesehe, 360 m asL, 18 May 2013, D. Arifiani
1386 (BO).

New orchid records from Bali

93

Fig. 3. Podochilus serpyllifolius (Blume) Lindl. A. Habit. B. Detail of the flower. (Photos:
Yessi Santika)

Fig. 4. Styloglossum speciosum (Blume) T. Yukawa & P. J. Cribb. A. Habit. B. Detail of the
infloreseence with flower in front view (inset C). (Photos: Yessi Santika)

94

Gard. Bull. Singapore 68(1) 2016

Table 1. Orchid species collected from Mt Mesehe and Mt Merbuk. (** = newly recorded
species from Bali, names with cf. are based on sterile specimens).

No.

Species name

Notes

1

Appendicula comuta Blume

Mt Mesehe, moist forest, alt. 500-1500 m.
Epiphyte.

2

Bulbophyllum lobbii Lindl.

Mt Mesehe, moist forest, alt. 900-1000 m.
Epiphyte.

3

Calanthe cf. mcisuca (D.Don) Lindl.

Mt Merbuk, shady primary forest, alt. 400-
1 600 m, Ten-estriaf

4

Calanthe flava (Blume) C.Morren

Mt Merbuk, primary forest, alt. 700-2200 m.
Terrestrial.

5

Calanthe zollingeri Rchb.f. **

Mt Mesehe and Mt Merbuk, lowland forest
along river, also in primary forest, alt. 200-
550 m. Terrestrial.

6

Ceratostylis brevibrachiata J.J.Sm.

Mt Mesehe, moist forest, alt. 800-1 000 m.
Epiphyte.

7

Dendrobium cf montanum J.J.Sm.

Mt Mesehe, moss forest, alt. 900-1000 m.
Epiphyte.

8

Dendrobium plicatile Lindl.

Mt Mesehe, lowland forest, alt. 500-800 m.
Epiphyte.

9

Liparis condylobulbon Rchb.f

Mt Mesehe and Mt Merbuk, lowland forest
in open area, alt. 500-800 m. Epiphyte.

10

Mycaranthes oblitterata Blume

Mt Mesehe, lowland forest, alt. 400-800 m.
Epiphyte.

11

Nervilia concolor (Blume) Schltr.

Mt Merbuk, lowland forest in open area, alt.
400-600 m. Ten'estrial.

12

Phaius pauciflorus (Blume) Blume

Mt Mesehe and Mt Merbuk, lowland forest
in open area, alt. 400-700 m. Terrestrial.

13

Pinalia cf. midtiflom (Blume)

Kuntze

Mt Mesehe, lowland forest in open area, alt.
600-800 m. Epiphyte.

14

Plocoglottis plicata (Roxb.) Onnerod
**

Mt Mesehe and Mt Merbuk, lowland forest
or primary forest, sometimes growing on
rocks, alt. 200-900 m. Terrestrial.

15

Podochilus serpyllifolius (Blume)
Lindl. **

Mt Mesehe, primary forest, alt. 900-1000 m.
Epiphyte.

16

Spathoglottis plicata Blume

Mt Merbuk, lowland forest in open area, alt.
400-600 m. Terrestrial.

17

Styloglossum speciosum (Blume)

T. Yukawa & RJ.Cribb **

Mt Mesehe, primary forest, alt. 700-850 m.
Terrestrial.

18

Trichotosia ferox Blume

Mt Mesehe, primary moist forest, alt. 800-
950 m. Epiphyte.

19

Tropidia angidosa (Lindl.) Blume

Mt Merbuk, lowland forest, alt. 400-600 m.
Terrestrial.

20

Vanilla albida Blume **

Mt Mesehe, lowland forest, alt. 300^00 m.
Terrestrial becoming climber.

New orchid records from Bali

95

ACKNOWLEDGEMENTS. This study was financially supported by the Research Center for
Biology-Indonesian Institute of Sciences (DIPA 2013 and 2014). We are grateful to the Head of
the Dinas Kehutanan Jembrana, to the staff for their valuable support, and to the people of Batu
Agung village for their assistance during field work. Two anonymous reviewers are thanked for
their valuable and constructive suggestions.

References

Anonymous (2014). Profil Kabupaten Jembrana 2014. 227 p. Bali: Badan Perencanaan dan
Pembangunan Daerah dan Penanaman Modal, Pemerintah Kabupaten Jembrana, Bali.

Comber, J.B. (1990). Orchids of Java. UK: Royal Botanic Gardens, Kew.

Comber, J.B. (2001). Orchids of Sumatra. Kota Kinabalu: Natural History Publications
(Borneo) & UK: Royal Botanic Gardens, Kew.

eMonocot (2015). An online resource for monocot plants, http://e-monocot.org. (accessed on
Jim. 2015).

Freudenstein, J.V. & Chase, M.W. (2014). Phylogenetic relationships in Epidendroideae
(Orchidaceae), one of the great flowering plant radiations: progressive specialization
and diversification. Bot. 115(4): 665-681.

Girmansyah, D., Santika, Y., Retnowati, A., Wardani, W, Haerida, L, Widjaja, E.A & Van
Balgooy, M.M.J. (2013). Flora of Bali: An Annotated Checklist. Jakarta: Research
Center for Biology-LlPl & Yayasan Pustaka Obor Indonesia.

Rugayah, Retnowati, A., Windadri, F.I. & Hidayat, A. (2004). Pengumpulan data taksonomi. In:
Rugayah, E.A. Widjaja & Praptiwi (eds) Pedoman Pengumpulan Data Keanekaragaman
Flora. Pp. 5^2. Jakarta: Pusat Penelitian Biologi— Lembaga Ilmu Pengetahuan
Indonesia.

Schuiteman, A., De Vogel, E.F., Vermeulen, J.J., Kessler, P. & Vogel, A. (2014). Malesian
Orchid Genera Illustrated. http://’www.nationaalherbarium.nl/pubs/orchidweb/
Malesianorchidgenera.htm. (accessed on Oct. 2014).

Seidenfaden, G. & Wood, J.J. (1992). The Orchids of Peninsular Malaysia and Singapore.
Fredensborg: Olsen & Olsen. UK: Royal Botanic Gardens, Kew & Singapore: Singapore
Botanic Gardens.

Stevens, P.F. (2015). Angiospenn Phylogeny Website, version 12, July 2012 [and more or
less continuously updated since]. http://www.mobot.org/MOBOT/research/APweb/
(accessed on Jul. 2015).

Van Balgooy, M.M.J. (1987). Collecting. In: De Vogel, E.F. (ed) Manual of Herbarium
Taxonomy, Theory and Practice. Pp. 14-19. Jakarta: UNESCO.

Wood, J.J., Beaman, R.S. & Beaman, J.H. (1993). The Plants of Mount Kinabalu, 2. Orchids.
UK: Royal Botanic Gardens, Kew.

Gardens’ Bulletin Singapore 68(1): 97-98. 2016
doi: 10.3850/S2382581216000065

97

Olea luzonica (Oleaceae), a new name
for O. obovata from the Philippines

R. Kiew

Forest Research Institute Malaysia,
52109 Kepong, Selangor, Malaysia
ruth@frim .gov.my

ABSTRACT. A new name, Olea luzonica Kiew, is proposed to replace the later homonym Olea
obovata (Merr.) Kiew.

Keywords. Illegitimate, Linociera obovata

Introduction

The Philippine species Olea obovata (Merr.) Kiew has an illegitimate name because
Olea obovata Baker was earlier published for a species from Mauritius (Baker, 1 877:
219). This older name came to light when Hong-Wa et al. (2014) revised Noronhia
for Mauritius. Their Noronhia obovata (Baker) Hong-Wa & Callm. is based on Olea
obovata Baker and its type. This, therefore, necessitates a new name for the Philippine
Olea and it is here proposed to name it Olea luzonica Kiew because it is known only
from that island.

Taxonomy

Olea luzonica Kiew, nom. nov. -Linociera obovata Merr. [in Elmer, Leafl. Philip. Bot.
5: 1652 (1913) nom. mid.] Philip. J. Sci. (Bot.) 10: 338 (1915); Merrill, Enum. Philip.
PI. 3: 304 (1923). - Olea obovata (Merr.) Kiew, Gard. Bull. Singapore 51 : 94 (1999),
non Baker (1877); Green, Kew Bull. 57: 116 (2002). - TYPE: Philippines, Luzon,
Laguna Province, San Antonio, September 1912, Ramos Bur. Sci. 15014 (lectotype K,
designated by Kiew (1999)).

Small tree, glabrous except minutely pubemlent on branchlets and inflorescences.
Twigs grey to whitish, stout, terete, glabrous. Leaves: petioles 1-1.5 cm; lamina very
thickly coriaceous, obovate, 4-7 x 2^.5 cm, pale when dry, upper surface glossy, dull
beneath, base narrowed and more or less decurrent, margins entire, recurved, apex
broadly rounded, sometimes very shortly and broadly acuminate, sometimes even
slightly retuse; lateral veins indistinct, often subobsolete, c. 8 on each side of midrib.

98

Gard. Bull. Singapore 68(1) 2016

Inflorescences axillary, sessile, densely many-flowered cymose panicles, branched
from base, brown when dry, 2-5 cm long, the branches spreading and 2-3 cm wide.
Flowers (mature female flowers not seen) 4-merous, buds ellipsoid or obovoid, c. 2
mm long, pedicels 1-3 mm. Male flowers', calyx 0. 5-0.7 mm long, lobes irregularly
broadly triangular, 0.3-0. 5 imn long, apex acute; corolla thickish, tube 0.5 mm long,
lobes involute, 1 mm long; filaments 0.2 mm long, anthers ellipsoid, 0.8 mm long,
with a very small terminal appendage. Drupes ellipsoid 6-7 x 4.5-5 mm.

Distribution. Endemic in the Philippines, Luzon (Ilocos Norte, Laguna, Nueva Ecija
and Tayabas Provinces).

Ecology. In mossy forest at about 2000 m. From herbarium specimens, it apparently
has the habit of many trees of mossy forest as judged from its much branched, bushy
canopy with branches of upstanding, thick leaves with recurved margins at the tip of
the twigs.

Additional specimens examined. PHILIPPINES: Luzon: Ilocas Norte, Mt. Palimlim Ramos
Bur. Sci. 33262 (L); Nueva Ecija, Mt. Umingan Ramos & Edano Bur Sci 26328 (K); Tayabas,
Mt. Alzapan Ramos & Edano Bur Sci. 45667 (K), 45716 (K).

Notes. Olea luzonica is a very distinctive species in its small, very thick, obovate
leaves with a rounded apex and decurrent base, obscure lateral veins, recurved margin
and dense pyramidal inflorescences. It was first listed by Elmer (1913) as Linociera
obovata, but lacking a Latin diagnosis the name was a nomen nudum. Merrill (1915)
validated this name by providing a description and the required diagnosis. In 1999,
Kiew recognised it was an Olea species and transferred it to Olea.

ACKNOWLEDGEMENTS. I am indebted to Jose Ignacio de Juano Clavero for pointing out
the illegitimate status of Olea obovata (Merr.) Kiew.

References

Baker, J.G. (1877). Flora of Mauritius and the Seycelles. London: L. Reeve & Co.

Elmer, A.D.E. (1913). Philippine L/woczera. Leaf. Philipp. Bot. 5: 1651-1657.

Hong-Wa, C., Callmander, M.W. & Baider, C. (2014). Taxonomy and conseiwation of the genus
Noronhia Thouars (Oleaceae) in Mauritius. Candollea 69: 157-163.

Kiew, R. (1999). Reappraisal of Olea species in Malesia. Gard. Bull. Singapore 51: 85-98.
Merrill, E.D. (1915). New or noteworthy Philippine plants XII. Philipp. J. Sci., C. 10: 287-349.

Gardens’ Bulletin Singapore 68(1): 99-107. 2016
doi: 10.3850/S2382581216000077

99

A new species and a new record in Begonia sect.
Platycentrum (Begoniaceae) from Thailand

T. Phutthai^ & M. Hughes^

‘Conservation Biology Program, Division of Biological and Natural
Resources Sciences, Mahidol University (Kanchanaburi campus),
Sai-Yok, Kanchanaburi 71150, Thailand
thamarat65@hotmail.com

^Royal Botanic Garden Edinburgh, 20A Inverleith Row,
Edinburgh, EH3 5LR, Scotland, U.K.

ABSTRACT. Begonia khaophanomensis Phutthai & M. Hughes is described from a collection
made on granitic rock in Krabi Province in Peninsular Thailand. It is endemic to the type
locality of Khao Phanom Bencha National Park, and is assessed as Least Concern using
the lUCN criteria. Begonia macrotoma Innsch. is noted as a new record for Thailand from
collections in Chiangmai, Nakhon Ratchasima and Nakhon Nayok provinces; the species
is also found in China, Myanmar, NE India, Nepal and Vietnam. Both species belong to
Begonia sect. Platycentrum. A key to the species of Begonia sect. Platycentrum in Thailand
is provided.

Keywords. Begonia khaophanomensis. Begonia macrotoma, China, Myanmar, NE India,
Nepal, Peninsular Thailand, Vietnam

Introduction

The genus Begonia L. is one of the largest angiospenn genera, comprising around
1803 species (Hughes et al,, 2015). Thailand has 54 accepted species of Begonia,
which are found in habitats from near sea level to high mountain summits, with nearly
half of them occurring on karst limestone (Hughes, 2008; Phutthai et al., 2009, 2012,
2014).

Begonia sect. Platycentrum (Klotzsch) A.DC. comprises 126 species (Hughes
et al., 2015) and is widely distributed in Asia, ranging from India to the Himalayas,
Indo-China, China, Taiwan, and Malesia (Doorenbos et al., 1998; Shui et al., 2002;
Ding et al., 2014). In Thailand, six species are reported in the section to date: Begonia
cathcartii Hook.f., B. hatacoa Buch.-Ham. ex D.Don, B.palmata D.Don, B. siamensis
Gagnep, B. smithiae Geddes and B. venusta King. They are all confined to montane
forests above 1000 m in altitude (Hughes, 2008; Phutthai et al., 2009). However,
based on molecular data (Thomas et al., 2011), the placement of Begonia smithiae in
Begonia sect. Platycentrum appears to be eiToneous and is a phylogenetically rather
isolated species closer to Begonia sect. Parvibegonia A.DC. (Doorenbos et al., 1998).

100

Gard. Bull. Singapore 68(1) 2016

A new species and a new record in Begonia sect. Platycentrum are presented
here. They are characteristic of the section in having rhizomatous stems, 2-locular
ovaries with branched placentas, and anthers with extended connectives. Begonia
khaophanomensis Phutthai & M.Hughes is a rare and narrowly endemic species
which is known only from the type locality in Krabi Province. It grows in granitic
rock crevices at altitudes around 1200 m in Khao Phanom Bencha National Park. We
also report Begonia macrotoma Irmsch. as a new record for the flora of Thailand from
Chiangmai, Naklion Ratchasima and Nakhon Nayok provinces. Terminology in the
descriptions follows Beentje (2010).

Key to the species of Begonia sect. Platycentrum in Thailand

la. Leaf lamina ovate to lanceolate, without lobes 2

lb. Leaf palmatifid, with some degree of lobing 5

2a. Stems and petioles glabrous or subglabrous 3

2b. Stems and petioles with a distinct indumentum 4

3a. Leaf lamina ovate, tepals white B. venusta

3b. Leaf lamina lanceolate, tepals with red stripes on the outer surface B. hatacoa

4a. Stem and petiole puberulent, leaves glabrous above 5. siamensis

4b. Stem and petiole hirsute, leaves echinate above B. cathcartii

5a. Stem and petioles reddish brown sericeous B. palmata

5b. Stem and petioles glabrous or white hirsute or pilose 6

6a. Stem with red striations, leaf lamina deeply palmatifid, bulbils often present,

ovary glabrous B. macrotoma

6b. Stem unifoiTn green, leaf shallowly palmatifid, bulbils absent, ovary white hirsute . .
B. khaophanomensis

Begonia khaophanomensis Phutthai & M.Hughes, sp. nov. § Platycentrum
Begonia khaophanomensis is similar to B. palmata in habit and leaf shape, but differs
in having leaves occuiring in opposite pairs at the apex of the plant (not alternate),
with white short stiff hairs on the petioles and leaves (not brown sericeous), and a
white ovary with white short stiff hairs (not pinkish green and subglabrous). - TYPE:
Thailand, Krabi, Kliao Phanom Distiict, Kliao Phanom Bencha National Park, trail
from Ban San to top of Khao Phanom Bencha, on rock along trail in lower montane
forest, 8°17'02"N 98°56T7"E, 1200 m, 19 June 2006, Williams, K., Pooma, R.,
Poopath, M., Chamchamroon, V. & Seasin, S. 1943 (holotype E; isotypes BKF). (Fig.
1 , 2 )

A new Begonia from Thailand

101

Fig. 1. Begonia khaophanomensis Phutthai & M.Hughes. A. Habit. B. Staminate and pistillate
flowers. From the type K. Williams et al. 1943. (Photos: M. Poopath)

N.O.OaZ NmO.OoBL N.O.OoSl N„0,0oSL N„0.0o6 N„0,0c9

102

Gard. Bull. Singapore 68(1) 2016

Vietnam

Myanmar

Thailand

Cambodia

Vietnam

Kilometers

Malaysia

Indonesia

Sources: Esri.'lJSGS NOAA

Fig. 2. Distribution of Begonia khaophanomensis Phutthai & M.Hughes (triangle) and B.
macrotoma Irmsch. (dot).

6“0'0''N eWN 12°0’0"N 15°0'0"N 18°0’0'’N

A new Begonia from Thailand

103

Monoecious herb, c. 60 cm tall. Rhizome elongated with numerous fibrous roots,
glabrous. Stems erect, terete, pale green. Leaves 6-8 per plant (occurring as an
opposite pair subtending the inflorescence), lamina basifixed; petiole 7-12 cm long,
with dense white short stiff hairs (hirsute); leaf blade membranaceous, asymmetric,
chartaceous when dry, base deeply cordate, adaxial surface densely minutely hirsute,
dull dark green, abaxial surface paler, densely hirsute especially on veins, 8-10 x
5-13 cm, shallowly palmatifid with 6-8 lobes, margin seiTate-fimbriate with long
stiff hairs, venation palmate, midrib and lateral veins concolourous with lamina, 5-7
veins, slightly impressed above and prominent beneath, apex acuminate. Stipules
prominent, pale green, ovate-lanceolate, densely hairy, 5-15 x 3-5 mm, apex acute,
margin entire. Inflorescences terminal or axillary, bisexual, 8-10 cm long, cymose
with c. 3 staminate flowers and 2 pistillate flowers, protandrous; peduncle c. 8 cm
long, terete, pale green with dense short stiff hairs. Bracts caducous, lanceolate, pale
green 3-5 x 2-4 mm, apex acute, margin entire. Staminate flower, pedicels white, c.
10 mm long; tepals 4, white; outer 2 broadly elliptic, c. 15 x 20 mm, apex rounded,
margin entire, base rounded, outer surface with dense short scabrid hairs, inner surface
glabrous; inner 2 obovate, c. 12 x lo mm, apex obtuse, margin entire, base obtuse,
outer surface with sparse short scabrid hairs, inner surface glabrous; androecium
actinomorphic, globose, stamens numerous, yellow, filaments united at the base, c. 3
mm long, anthers oblong, c. 2 mm long, dehiscing by longitudinal slits, comiective
extended, rounded. Pistillate flowers', pedicels white, c. 10 mm long; tepals 5, white,
subequal; densely scabrid adaxially, 1 8-20 x 20 mm; styles 2, fused at base, crescent-
shaped, stigmatic band twice spirally twisted; ovary white, densely minutely scabrid,
with 3 unequal wings, 2-locular, placenta bilamellate. Fruits dehiscent between the
two smaller wings, reddish green, drying pale brown, capsule obovate, c. 14 x g
mm, abaxial wing oblong or obliquely triangular, densely minutely scabrid, c. 40 mm
long, 2 lateral wings c. 4 mm long, cucullate. Seeds numerous, brown, barrel-shaped,
0.4-0.5 mm long.

Distribution. Endemic to Peninsular Thailand (known from only the type locality).

Habitat and ecology’. On granitic rock crevices by streams in hill evergreen forest and
seasonally dry evergreen forest at c. 1200 m. Flowering and fruiting June to October.

Provisional lUCN category. Least Concern (LC). This species is only known from
the type locality in the Khao Phanom Bencha National Park which currently is well
protected and likely covers the entire natural range of the species. Hence, although
rare, the threat criteria for Critically Endangered or Endangered are not met. Begonia
khaophanomensis potentially qualifies as Vulnerable under VUD2, although with the
lack of a plausible future threat we consider Least Concern to be the most appropriate
category as long as Khao Phanom Bencha remains well managed.

104

Gard. Bull. Singapore 68(1) 2016

Notes. The opposite leaves and stiff hairs indicate an alliance to Begonia areolata Miq.
from Sumatra and Java which differs in having leaves which are minutely bullate and
with red hairs, and in having petals which are elongate-elliptic in the male flowers (not
broadly elliptic). The specific epithet refers to the district in which the type material
was collected, Khao Phanom.

Begonia rnacrotoma Irmsch., Notes Roy. Bot. Gard. Edinburgh 21; 41 (1951); Gu et
ah, FI. China 13: 185 (2007); Hughes, Amiot. Checklist of Southeast Asian Begonia
11 (2008). - TYPE: China, Yunnan, 29 June 1938, Yu, TT 17778 (holotype KUN, n.v.;
isotype E). (Fig. 2, 3)

Monoecious herb, 60-90 cm tall. Rhizome elongated with numerous fibrous roots,
glabrous, c. 20 mm diam. Stems erect, terete, pale green with numerous dark red
striations. Leaves 3-6 per plant, lamina basifixed; petiole 10-20(-30) cm long, pilose;
leaf blade membranaceous, asymmetric, chartaceous when dry, base slightly cordate,
adaxial surface densely scabrid, dull dark green, abaxial surface paler, sparsely scabrid,
glossy; 12-30 x 7-28 cm, palmatifid to deeply palmatifid with 3-8 lobes, margin
sinuate or denticulate, venation palmate, midrib and lateral veins concolourous with
lamina, 5-7 veins, slightly impressed above and prominent beneath, apex acuminate;
bulbils and plantlets fonn at the sinus of the lamuia. Stipules caducous, dark red,
ovate, 2-3 x 1.8 cm, apex cuspidate, margin entire. Inflorescences terminal, bisexual,
20-40 cm long, compound cyme, branching 1-2 times with 3-1 2 staminate flowers
and 2-8 pistillate flowers per branch, protandrous; peduncle 15-25 cm long, terete,
pale green with dense brown villous hairs. Bracts caducous, ovate, dark red, 3-10 x
4-10 mm, apex acute, margin entire. Staminate flowers: pedicels pale pink, 10-20
mm long; tepals 4, white or pale pink; outer 2 orbicular, 20-25 mm diameter, apex
rounded, margin entire, base rounded, outer surface magenta hirsute at the centre,
inner surface glabrous; inner 2 obovate, 15-20 x 5-10 rmii, apex obtuse, margin entire,
base obtuse, glabrous on both sides; androecium actinomoi*phic, globose, stamens
numerous, yellow, filaments united at base, c. 2 mm long, anthers obovate, c. 2.5
mm long, dehiscing by lateral slits, connective extended, rounded. Pistillate flowers:
pedicels pale pink, 10-20 mm long; tepals (?3-)5, white or pale pink, unequal; outer
2 orbicular, outer surface pubescent, 18-20 x 20-25 mm, inner 1-3 obovate, c. 20 x
8-12 mm, outer surface pubescent; styles 2, crescent-shaped, fused at base, stigmatic
band twice spirally twisted; ovary pale pinlc, minutely colliculate, with 3 unequal
wings, 2-locular, placenta bilamellate. Fruits dehiscent dehiscent between the two
smaller wings, pale green, drying pale brown, capsule obovate, c. 14x8 mm, abaxial
wing oblong with a rounded tip, 35-40 mm long, 2 lateral wings c. 5 mm long, curved
along the ovary. Seeds numerous, brown, ban*el-shaped. 0.5-0. 6 mm long.

Distribution. In Northern Thailand, in Chiangmai province, and in Southeastern
Thailand, in Nakhon Ratcahsima and Nakhon Nayok Provinces. Further distribution
in China, Myanmar, NE India, Nepal and Vietnam.

A new Begonia from Thailand

105

Fig. 3. Begonia macrotoma Irmsch. A. Leaf shape and bulbils/plantlets at the sinus of the leaf
lamina. B. Rhizome. C. Pistillate flowers. D. Inflorescenee. E. Staminate flowers. F. Magenta
hirsute hairs on the outer tepals. A & C from Middleton et al. 4515 in cultivation at the Royal
Botanic Garden Edinburgh, accession number 20082075; B, D-F from Phutthai 145. (Photos:
A & C: M. Hughes; B, D-F: T. Phutthai)

106

Gard. Bull. Singapore 68(1) 2016

Habitat and ecology. In granitic rock crevices by streams in hill evergreen forest and
seasonally dry evergreen forest at around 600 m. Flowering May to November; fmiting
November to January.

Provisional lUCN category. Least Concern (LC). The species has a wide distribution
in evergreen and seasonal montane forests.

Specimens examined. THAILAND: Chiang Mai: Doi Inthanon National Park, 25 Jan 1990,
Hoover, JV.S. 727 (K [3 sheets]); Doi Inthanon National Park, Wachirithan Waterfall, 19 Sep
2008, Middleton, D.J. el al 4515 (BK, BKF, E); ibidem, 24 Nov 2007, Phutthai, T. 145 (PSU,
BKF); Nakhon Ratchasima: Khao Yai National Park, Orchid Waterfall, 22 Oct 1969, van
Beusekom, C. F. & Charoenpol, C. 1834 (AAU [2 sheets], BKF, E [2 sheets], L); ibidem,
31 Oct 1970, Charoenpol, C. et al 4349 (AAU, BICF); Kliao Yai National Park, Haew Sai
Waterfall. 20 Nov 1 984, McAllanA. 9 (K [3 sheets]); Nakhon Nayok: Khao Yai National Park,
Haew Suwat Waterfall, 21 Dec 2006, Peng, C-I. & Somprasong, W. 21017 (HAST [2 sheets]).

Notes. Begonia macrotoma is a widespread species. The red striations on the stem and
the bulbils which appear at the sinus of the large (up to 30 cm long) palmatifid leaves
are distinctive. The speeies was originally described from a single specimen, which
according to the protologue has female flowers with three tepals. However all female
material seen by the authors has flve tepals; in all other aspects the specimens agree.

ACKNOWLEDGEMENTS. The authors would like to thank the curators and staff of the
following herbaria: AAU, ABD, BK, BKF, BM, C, HAST, K, E, L, PSU and SING. The Royal
Botanic Garden Edinburgh is supported by the Scottish Government’s Rural and Environment
Research and Analysis Directorate. Field studies of Begonia in Thailand were made possible by
Dr Somran Suddee and the staff of the Forest Herbarium (BKF), Department of National Parks,
Wildlife and Plant Conservation, Ministry of Natural Resources and Environment. This work
was supported by the Newton Fund Researcher Links programme, part of the UK’s official
development assistance programme administered by the British Council. We are very grateful
to two anonymous referees for correcting errors in the manuscript.

References

Beentje, H.J. (2010). The Kew Plant Glossary: An Illustrated Dictionary of Plant Terms. UK:
Royal Botanic Gardens, Kew.

Ding, B., Nakamura, K., Kono, Y, Ho, M.J., Peng, C.-I. (2014). Begonia jinyunensis
(Begoniaceae, section Platy centrum), a new palmately compound leaved species from
Chongqing, China. Bot. Stud. 55: 62.

Doorenbos, J., Sosef, M.S.M. & De Wilde, J.J.F.E. (1998). The sections of Begonia, including
descriptions, keys and species lists (Studies in Begoniaceae VI). Wageningen Agric.
Univ. Pap. 98(2): 1-266.

Hughes, M. (2008). An Annotated Checklist of Southeast Asian Begonia, xii+1 64 p. UK: Royal
Botanic Garden Edinburgh.

A new Begonia from Thailand

107

Hughes, M., Moonlight, P.W., Jara, A. & Pullan, M. (2015). Begonia Resource Centre, http://
padme.rbge.org.uk/begonia (accessed on 26 Aug. 2015).

Phutthai, T., Sands, M. & Sridith, K. (2009). Field surveys of natural populations of Begonia L.

in Thailand. Thai Forest Bull, Bot, Special Issue: 186-196.

Phutthai, T., Hughes, M. & Sridith, K. (2012). A new species of Begonia (Begoniaceae) from
Peninsular Thailand. Edinburgh J. Bot. 69: 287-292.

Phutthai, T., Hughes, M. & Sridith, K. (2014). Begonia kanburiensis (sect. Diploclinium,
Begoniaceae), a new species from Thailand. Thai Forest Bull, Bot. 42: 43^7.

Shui, Y.-M., Peng, C.-I. & Wu, C.-Y. (2002). Synopsis of the Chinese species of Begonia
(Begoniaceae), with a reappraisal of sectional delimitation. Bot. Bull Acad. Sin. 43:
313-327.

Thomas, D.C., Hughes, M., Phutthai, T., Rajbhandary, S., Rubite, R., Ardi, W.H. & Richardson,
J.E. (2011). A non-coding plastid DNA phylogeny of Asian Begonia (Begoniaceae):
evidence for morphological homoplasy and sectional polyphyly. Mol. Phylogenet. Evol.
60: 428^44.

Gardens’ Bulletin Singapore 68(1): 109-124. 2016
doi: 10.3850/S2382581216000089

109

The resurrection of Boesenbergia albosanguinea
(Zingiberaceae) with a new record
for Peninsular Thailand

J.D. Mood^ A.G. Hussain^ & J.R Veldkamp^

Ry on Arboretum, University of Hawaii,

3860 Manoa Road, Honolulu, Hi 96822, U.S A.
boesenbergia@.gmail.com

^Herbwalk Consultancy, Batu 8, Jalan Ayer Hangat,

07000 Langkawi, Kedali Darul Ainan, Malaysia
-''Naturalis Biodiversity Center, RO. Box 9517,

2300 RA Leiden, The Netherlands

ABSTRACT. Boesenbergia albosanguinea (Ridl. ) Loes. (Zingiberaceae) is resurrected from the
synonymy of B. prainiana (King ex Baker) Schltr. It is redescribed in detail with comparative
tables, figures, and illustrations. This species is a new record for Thailand.

Keywords. Boesenbergia prainiana, Langkawi Islands, limestone, Malaysia, Penang

Introduction

During fieldwork in Satun Province for the Flora of Thailand Project in 2012, a
Boesenbergia species [J. Mood & P Vatcharakorn M3291 (BKF)] was found growing
on a limestone outcrop near the sea (Fig. 1 ). Although it was superficially similar to
other large Boesenbergia species in the peninsula, such as B. trangensis K.Larsen and
B. plicata (Ridl.) Holttum, its distinct inflorescence and unusual habitat placed it as an
unknown species. In a follow-up review of all Boesenbergia published from Thailand
and Peninsular Malaysia, only one species appeared to be similar, B. albosanguinea
(Ridl.) Loes. Curiously, that species had been made a synonym of B. prainiana (King
ex Baker) Schltr. by Holttum (1950). As this latter species had been collected on several
occasions by the first author, it was well-known and could be described as a small to
medium sized, 1-2 leaf ginger found growing in wet, shady forest areas on sandstone
or quartz-derived soils. It is not known to occur near the sea or on limestone. In order
to sort this issue of synonymy and try to positively identify the Satun collection, an in-
depth investigation of the taxonomic history of these two species was initiated.

Taxonomic History

In September 1 894 a ginger plant cultivated at the Botanic Gardens Penang flowered
for the first time and was illustrated in excellent detail (Fig. 2). The drawing was

no

Gard. Bull. Singapore 68(1) 2016

annotated by Charles Curtis (1853-1928) as “12-18 in. high, sepals white, linear,
incurved; upper petal white with pink tinge, lower large with dark red margins,
stamens/anthers two celled, Perak, 1894, Nat. size.” Five years later Ridley (1899)
published this ginger as Gastrochilus albosanguineus ['' albo-sanguineus'] with a brief
description. No mention was made of the artwork or specimen. During or soon after this
publication, Curtis added more annotations to the 1894 drawing, ""Gastrochilus albo-
sanguineus Ridl., collected by F.A. Wooldridge on Maxwell’s Flill, Perak, flowered in
the botanical garden of Penang, Sept. 1 894” and with a separate pencil note “drawing
of the type collection”. This latter note refers to a specimen at Kew (K) labelled as the
holotype. Both the drawing and this specimen are annotated with a stylized “A”.

In 1902 several more living plants identified as Gastrochilus albosanguineus
were brought to the gardens by Curtis from Langkawi, from which specimens were
taken (SINGO 155 198, STNGO 155248, SINGO 155266) and a watercolour drawn by M.
Hussain (Fig. 3). Five years later, Langkawi was added to the distributional record of
G. albosanguineus based on this material (Ridley, 1907).

Although Kuntze (1891) replaced Gastrochilus Wall, with Boesenbergia
Kuntze, as Gastrochilus Wall, is a later homonym of Gastrochilus D.Don (Don, 1 825),
some botanists of the day, including Ridley and Curtis, did not accept this change
and continued to use Gastrochilus. It was not until Loesener (1930) that Gastrochilus
albosanguineus was eventually moved to Boesenbergia albosanguinea (Ridl.) Loes.
Holttum (1950) later reviewed the Boesenbergia of Peninsular Malaysia. He decided
thdiX Boesenbergia albosanguinea was the same as B. prainiana and discussed a number
of reasons why Ridley’s taxon is just “re-describing” B. prainiana. Among them were
minor inconsistencies in plant/stem height of the type as compared to the drawing,
calling the longer stem length (noted in the protologue) as “maybe due to conditions
of cultivation.” His conclusion was that “There is no other clear distinction from B.
prainiana.’’" It should be noted that in this discourse, Holttum erroneously uses ""B.
albo-marginata"" tliroughout (rather than B. albosanguinea) to include the holotype
which he cites as “Maxwell’s Hill, per Wooldridge, cult. Penang (type of G albo-
marginata)."" There is no doubt to which species Holttum is referring (based on the
references) and this error is to be regarded as a slip of the pen and not a nomen novum.

Boesenbergia prainiana was first described as Kaempferia prainiana King
ex Baker [Kings collector = Kunstler 726 (CAL, K, SING)] from Goping, Perak,
Malaysia (Baker, 1890). Ridley (1899) transferred it to Gastrochilus Wall, and later
Schlechter (1913) to Boesenbeigia. Holttum’s (1950) description added considerable
detail to the earlier protologue, as did the several publications by Ridley (1899, 1907,
1924).

Materials and Methods

Soon after the collection of J. Mood & P. Vatcharakorn M3 291, an investigation was
begun to study the taxonomic history, specimens, illustrations and photographs from
Malaysia and Thailand of Boesenbergia albosanguinea and B. prainiana. In August

Resurrection of Boesenbergia albosanguinea

111

Fig. 1. Boesenbergia albosanguinea (Ridl.) Loes. A. Mature plants on limestone. B.
Inflorescence and flower. C. Dissected inflorescence with flower. D. Anther with staminodal
cup. E. Flower dissected. F. Rhizome with roots. From J. Mood & P Vatcharakorn M3 291.
(Photos: J. Mood)

2013 another visit to Satun Province, Thailand was undertaken to reassess the coastal,
limestone habitat and look for more populations of B. aff albosanguinea. In addition,
BK and BKF herbaria were visited to study and photograph specimens, as was SING
herbarium later in March 2014. With considerable information in hand, a final fact-
finding trip was made to Langkawi Islands, Malaysia in August 2015 to locate, study

112

Gard. Bull. Singapore 68(1) 2016

W A / •

J! ■

^(,.ljti£^X^ ij ^.^uv (TU

Fig. 2. Boesenbergia albosanguinea (Ridl.) Loes. Ink line drawing by an unknown artist (1894)
at Penang Botanic Gardens. Reproduced with permission of the Singapore Botanic Gardens.

Resurrection of Boesenbergia albosanguinea

113

Ctjjrtnau^

'Aa»m mf

//" ,

O^0t£*»£u P.

.t4*

y. 9- o a.

Fig. 3. Boesenbergia albosanguinea (Ridl.) Loes. Ink line drawing with watercolour by Md.
Hussain at Penang Botanic Gardens (1902). Reproduced with permission of the Singapore
Botanic Gardens.

114

Gard. Bull. Singapore 68(1) 2016

and document any Boesenbei^ia aff. albosanguinea populations which might remain,
as over 100 years had passed since the last known collections. At the same time, any
other Boesenbergia species encountered were documented, with special emphasis on
finding B. prainiana and, if so, in what habitat.

Results

The isolectotype of Boesenbergia prainiana in Singapore Botanic Gardens
(SING0044027) is a two-leafed plant, c. 30 cm tall with erect leaves and a very narrow,
cylindrical inflorescence c. 20 cm. long. The plant is tufted with only a c. 3 cm stem
made up of a bladeless sheath and two leaf sheaths. No flowers are present. Across
Peninsular Malaysia and adjoining Peninsular Thailand, considerable variation can
be seen in plant height, leaf size/shape and inflorescence length/shape. Unmentioned
in any known description is that this species is evergreen and as such has a growth
habit distinct from deciduous Boesenbergia species such as B. plicata. With one to
two thick leaves per element, Boesenbergia prainiana is similar to B. minor (Baker)
Kuntze, another evergreen ginger from Perak. Since evergreen Boesenbergia species
can grow throughout the year, plant elements do not require a large foliar area for
perennation and are often unifoliate with the inflorescence coming directly off the
rhizome, clasped by a bladeless sheath and one leaf sheath (Fig. 4). Due to unknown
factors, occasionally up to four leaves can occur [Corner 302Q9 (SING)]. The leaf
number aside, stem length is c. 3 cm in material measured from Malaysia and Thailand.

To further address Holttum’s synonymy, comparisons of both living fertile
plants and herbarium specimens of the two species were made. The most obvious
difference is vegetative, as Boesenbergia albosanguinea has a distinct stem made up
of tightly appressed leaf sheaths with 4-6 (rarely 2) thin-textured leaves, while B.
prainiana has a very short stem and 1 or 2 (rarely 3) thick-textured leaves per element.
The inflorescence on the latter is elongate and cylindrical or sometimes slightly
flattened with a short peduncle covered by the sheaths. The many dull green, red-
dotted bracts (up to 22) are loosely appressed and appear puffy. As the inflorescence
matures, the bracts often open outward. In comparison, Boesenbergia albosanguinea
has a lanceolate inflorescence with fewer (up to 16), firm, tightly appressed, shiny
green bracts. Both species have distichous bracts with the rachis fully covered on both
sides.

In a comparative floral test, fresh flowers of Boesenbergia aff. albosanguinea
{J. Mood & P. Vatcharakorn M3291) and of B. prainiana from a Peninsular Malaysian
collection [J. Mood 3395 (BKT)] were compared to the 1894 drawing of the former
(Fig. 2) and a watercolour of the latter (Fig. 4). The artwork and living samples were
easily matched and distinguishable by species. The same flowers were then pressed
and dried to compare with those on the holotype of Boesenbergia albosanguinea
(Fig. 5f). The flower from the Thai collection matched in shape and size (Fig. 5d),
whereas the flower of B. prainiana was smaller with a shorter floral tube and smaller,
vertically oriented lateral staminodes which barely covered the labellum (Fig. 5e). In

Resurrection of Boesenbergia albosanguinea

115

Fig. 4. Boesenbergia prainiana (King ex Baker) Schltr. Ink line drawing with watercolour by
Juraimi at Singapore Botanic Gardens (1948). Reproduced with permission of the Singapore
Botanic Gardens.

116

Gard. Bull. Singapore 68(1) 2016

Boesenbergia albosanguinea, the lateral staminodes initially hide the long anther, so
that it cannot be seen from the top looking down. This appearance is due to the long
staminodal length, broad width and full overlap of the margins. Only later in the floral
development do the broad staminodal apices slightly curl toward the corolla lobes,
opening the entrance and making the anther tip slightly visible from above. Even then,
the result is a nairow, tubular entrance for pollinators, something mentioned by Ridley
(1899) and seen in the drawings (Figs. 2, 3, 7). Conversely, in Boesenbergia prainiana
the lateral staminodes are shorter, naiTower, acute at the apices, and only overlap at
their bases. Upon opening of the flower, this morphology allows for over half the anther
length to be seen from the top, providing a broad, rounded, top entrance for pollinators.
The top of the anther and connective is glabrous and shiny with glandular hairs only
along the thecae margins. This is an important diagnostic character state as compared
with Boesenbergia albosanguinea which is completely covered with glandular hairs
on both anther and connective. Thus the basic floral differences between these two
species rest in the length of the floral tube, labellum shape/length, lateral staminode
shape/length and anther length/vestiture (Table 1).

Table 1. Comparison of Boesenbergia albosanguinea (Ridl.) Loes. and B. prainiana (King ex
Baker) Schltr. from living plants.

Character

B. albosanguinea (Thailand)

B. prainiana (Malaysia)

Plant height

To c. 60 cm, not tufted

To c. 40 cm, tufted

No. of leaves

(2-)4-6

1-2 (-3)

Leaf longevity

Deciduous

Evergreen

Petiole length

2-11 cm

2-15 cm

Lamina

c. 38 X 15 cm

c. 24 X 7 cm

Infloreseence

To c. 20 X 2.5 cm, lanceolate to
fusifonn, flattened

15-23 X 2 cm, oblong to
cylindrical, slightly flattened

Bracts

Shiny green, tightly appressed

Dull green, red-dotted, puffy,
later loosely imbricating

Floral tube

c. 3.7 cm long

c. 2.5 cm long

Lateral staminodes

Rotund, c. 20 X 12 mm

Obovate, c. 7 x 2 mm

Labellum

Saccate, c. 3 x 1.7 cm

Saccate, c. 2 x 1.2 cm

Labellum apex

Bilobed, margin frilled

Entire, margin plain

Labellum colour

White with dark red pattern

White with a dark red pattern

Anther

c. 13 mm long, adaxial glandular
hairs throughout

c. 7 mm long, glandular hairs
on the margins of thecae only

Flowering

July to mid-October

May-November

Ecology

Limestone outcrops, seashore

Evergreen forest, mountains

Elevation

5-20 m

nomially >100 m

Resurrection of Boesenbergia albosanguinea

117

Fig. 5. Species comparison. A. Boesenbergia prainiana (Baker) Schltr. (left), B. albosanguinea
(Ridl.) Loes. (right). B. B. prainiana inflorescence and flower. C. Boesenbergia prainiana,
(left), B. albosanguinea (right). D. Pressed and dried flower of B. albosanguinea {M3291).
E. Pressed and dried flower of B. prainiana {M2 172). F. Pressed and dried flower of B.
albosanguinea (holotype). (Photos: J. Mood)

When Ridley (1899) published Boesenbergia albosanguinea, he classified the
known Boesenbergia species into three “groups” based on the position and source of

118

Gard. Bull. Singapore 68(1) 2016

the inflorescence: Acrcinthi (spike borne on the top of a leafy stem), Mesanthi (centre
of the leaf tuft), and Exanthi (outside the leaf tuft). Boesenbergia albosanguinea,
along with the type of the genus, B. puJcherrima (Wall.) Kuntze, was placed in the
first group, while B. prainiana was placed in Exanthi with species now considered
as Scaphochlamys Baker. Holttum made no mention of this classification which,
although now rather outdated, has some diagnostic importance. The character
state of having a significant stem vs little or none at all is quite important. Clearly
Boesenbergia albosanguinea is caulescent (stemmed) as can be seen in the drawings
(Figs. 2, 3), although on the holotype, which is a poor specimen, it is less distinctive
due to separation of the leaves and lack of inclusion of the full stem (Holttum, 1950).
If the 1 894 drawing is compared to this type (supposedly drawn from the same plant),
it is initially hard to see distinctive similarities except in the leaves. If this drawing is
compared to the isolectotype of Boesenbergia prainiana at SING, the caulescent vs
acaulescent (tufted) character state is very evident. If the inflorescences of the types of
both species are compared with the 1 894 drawing (Fig. 2), they are very similar, but
differ in length and number of bracts.

The historic materials aside, if well-prepared and fully documented herbarium
specimens of the two species are compared, two additional identifying clues are the
date of collection and location/ecology. Boesenbergia prainiana, being evergreen,
occurs primarily in wet, evergreen forest on sandstone or quartz derived soils while
B. albosanguinea is deciduous, goes dormant for c. 5 months of the year and has only
been found near the sea on shaded, limestone outcrops. Consequently, the latter cannot
be collected November to March, whereas the former can be collected year-around.
It was also stated that the original collection area of B. albosanguinea was Maxwell’s
Hill (c. 1000 m), far inland from the sea. The type locality of Boesenbergia prainiana
is also in Perak. Cun'ently there are no other Boesenbergia species known from the
Thaiping Hills area that have a morphology similar to B. prainiana, with the exception
of Boesenbergia minor.

So how is this incongruence of habitat (mountain vs coastal) explained if
Boesenbergia albosanguinea is synonymous with B. prainiana as Holttum stated?
Firstly, the holotype of Boesenbergia albosanguinea was not collected in the field
on Maxwell’s Hill, but was from a cultivated plant in the botanic gardens of Penang.
Supposedly this plant was originally given to the gardens by Theodore A. Wooldridge,
an orchid collector who employed local people to make collections. There are many
avenues for eiTor, starting from the time of collection to months later when it flowered
in Penang, e.g., labelling, accession records, etc. At least four years prior, Curtis had
already collected at least one specimen in Langkawi [Curtis 2677 (SING)]. Given
Curtis’s love of horticulture and previous employment from 1 878-1884 as a collector
for the horticultural company Veitch & Son, England, he most likely always collected
living plants for the gardens. Consequently, it seems that when the drawing was made
and then the holotype processed from the same plant, the resultant components were
not taken from Wooldridge’s donated plant, but from a different plant collected in
Langkawi by Curtis. As Ridley was writing his description prior to publication (Ridley,
1899), it is quite likely he saw living plants at the Penang Botanic Gardens as he stated

Resurrection of Boesenbergia albosanguinea

119

Fig. 6. Boesenbergia albosanguinea (Ridl.) Loes. A. A.G. Hussain with wild plants on
limestone at Pulau Langgun, Langkawi. B. Mature plant population. C. Flowering plant. D.
Flower in profile. E. Flower showing anther. (Photos: A.G. Hussain)

“an exceedingly similar if not identical plant occurs also in Langkawi {Curtis 2677)''
an observation difficult to deduce from herbarium specimens alone. Note: Curtis made
eight explorations to Langkawi Islands 1888-1902 (http://www.nationaalherbarium.
nl/FMCollectors/C/CurtisC .htm) .

As a final comparison of materials, in 2015 the second author photographed
(Fig. 5 & 6) and collected plants of Boesenbergia albosanguinea [Ghani s.n. (KEP)]
on Palau Langgun, a small, limestone island off the northeast coast of Langkawi Island.
Based on AGH’s many years of local collecting, this is the only location where this

120

Gard. Bull. Singapore 68(1) 2016

species has been found in recent times. Further, the only other Boesenbergia species
known to occur on Langkawi and the surrounding islands are B. curtisii (Baker) Schltr.
and B. plicata.

Taxonomy

=Boesenbergia albosanguinea (Ridl.) Loes. in Engler & Prantl, Nat. Pflanzenfam., ed.
2, 15a: 566 (1930). - Gastrochiliis albosanguinea Ridl., J. Straits Branch Roy. Asiat.
Soc. 32: 109 (1899) {''albo-sanguinea''). - Type: Specimens from a plant cultivated
at Penang Botanical Gardens, Sep 1894, "'Wooldridge'' [but more likely Curtis] s.n.
(holotype K! [K0()0255404]). (Fig. 1-3, 5-7; Tab. 1, 2).

Boesenbergia prainiana auct. non (Baker) Schltr.: Holttum, Gard. Bull Singapore 13:
111 (1950).

Deciduous, perennial herb up to 60 cm, tightly clumping; rhizome with multiple
elements developing linearly and vertically, c. 3 cm tall, 1 cm diam., externally
yellowish white, internally with two concentric rings, both dark yellow, new rhizome
elements produced at some nodes; roots fleshy to 22 cm long, 4 mm diam., white,
short root hairs along the full length, swollen and fusifonn at the tips, these c. 5 x

1 cm, white, surface smooth, root hairs along the full length; fibrous roots few from
the rhizome to 27 cm long. Stems five to numerous, up to 7 cm long, base ovoid, c.

2 cm diam., without bladeless sheaths (cataphylls), with (rarely 2) 4-6 lealy sheaths
6-16 cm long, dark red, changing to green towards the ligule, surface finely veined,
glabrous. Leaves (rarely 2) 4-6, lower leaves in pairs, nearly opposite; petiole 2-11
cm, longer on upper leaves, green, glabrous; ligule bilobed, each lobe triangular, 2-15
mm long, shortest on upper leaves, translucent, glabrous, from the ligule base a red,
hyaline margin extends down the leaf sheath 2-7 cm long; lamina elliptic to ovate, 15
X 9 cm (lower) to 38 x 15 cm (upper), base rounded, apex acuminate, adaxially veins
raised, medium shiny green, glabrous, abaxially convex between the veins, light green,
glabrous. Inflorescence tenninal, clasped between the sheaths, peduncle short, c. 8 mm
diam.; spike broadly lanceolate to slightly fusifonn, 15-20 long, 2 cm wide, c. 1 cm
thick, exserted for half of its length, ovate in cross-section, dull green with a reddish
centre in the lower one-third. Bracts distichous, overlapping equally on both sides
of the rachis, cymbifomi, lanceolate when opened and flattened, lowest bract sterile,
9 cm long, fertile bracts open to the base, c. 3 x 3 cm, distally decreasing slightly in
size, green in the centre, light red on a wide margin, glabrous; bracteole lanceolate,
curved, open to the base, on the opposite side of the floral tube fi'om the bract, margins
overlap and fully enclose the floral tube, 4.2 cm long, 4 mm diam. at the base, white,
glabrous. Flowers 16-18, one flower per bract, c. 6 cm. long, flowering sequence
basipetalous (from the apex downward), labellum oriented 90° to the bract apex, all
facing the same direction and downward. Calyx tubular, c. 1.1 cm long, translucent
white, glabrous, apex undulate, truncate. Floral tube c. 3.7 cm long, c. 4 mm diam.

Resurrection of Boesenbergia albosanguinea

121

Fig. 7. Boesenbergia albosanguinea (Ridl.) Loes. Ink line drawing with watercolour by Linda
Ann Vorobik (2015). Based on J. Mood & P Vatcharakorn M3291.

122

Gard. Bull. Singapore 68(1) 2016

at base, white, glabrous; dorsal corolla lobe broadly elliptical, cymbiform, c. 25 x 14
mm, apex cucullate, white, glabrous, ventral corolla lobes elliptical, c. 2.5 x l.o cm,
apex cucullate, white, glabrous; androecial cup oriented 90° to the floral tube, c. 8 x 6
mm wide, throat with long hairs. Labellum deeply saccate, orbicular (natural shape),
c. 3 X 1.7 cm wide, c. 3 cm wide (flattened), throat light red, maculate, lip streaked
with dark red to the apex, lobe margins violet with age, glabrous and iridescent on
both sides, apex emarginate, 2-3 nun, overall white; lateral staminodes obovate, c.
2.2 X 1.3 cm, apex slightly reflexed, white, sparsely pubescent, iridescent. Stamen c.
13 imn long, filament c. 3 x 2 mm, white, dorsal, with glandular hairs, thecae c. 11 x
2 mm (each), white, dehiscent full length, connective white, dorsally with glandular
hairs, no anther crest, pollen white. Ovary trilocular, elongate, c. 5 x 2 mm, green,
glabrous; style filiform, c. 6 cm, white, stigma triangular, white, ostiole oval with “v”
notch, glabrous; epigymous glands aculeate, c. 6 mm long, yellow. Fruit not seen.
[Measurements based on living, cultivated material of J. Mood & P. Vatcharakorn
M329J from Thailand].

Distribution. Malaysia: Langkawi, Pulau Langgun; Thailand: Satun Province.

Ecology. Found on limestone outcrops in shaded habitats in close proximity to the sea.

Phenology. Observations in Satun Province and Langkawi indicate that flowering
normally occurs from July to mid-October. Flowers open in the morning and close the
following day.

Etymology. Named for the white and blood-red colour of the labellum.

Specimens examined. MALAYSIA: Kedah: Langkawi, Pulau Langgun, limestone outcrop,
shoreline forest, 10 m asl, 15 Sep 2015, Ghani s.n. (KTP); no exact location, Sep 1890, Curtis,
C. 2677 (SING); no exact locations, cultivated at Penang Botanical Gardens, no dates (SING
[SING0155198, S1NG0155248, SlNGOl 55266]).

THAILAND: Satun: La Ngu, Ko Kabeng, 80 m, Sep 1 999, Phengklai, C. 12105 (BKF), 12106
(BKF); La Ngu, Mu Ko Phetra N.P., 70 m, 10 Sep 2008, Middleton, D.J. et al. 4436 (BKF,
E); La Ngu, Mu Ko Phetra N.P., 30 m, 20 Sep 2010, Middleton, D.J. et al. 5492 (E); near Ko
Phetra, 10 m, evergreen scmb forest on limestone, 06°51.162’N 99°45.78rE, 1 Aug 2012,
Mood, J. & Vatcharakorn, P. M3291 (BKF); near Langu, 54 m, evergreen scrub forest on
limestone, 06°51 .162’N 99°45.781’E, 4 Aug 2013, Mood, J. & Vatcharakorn, P. M3386 (BKF).

Notes. This species as it appears in Satun Province is upright to slightly deeumbent
with thick, multiple stems in a clump, quite similar to the vegetative habit of
Boesenhergia trangensis and B. plicata. The leaves are also plicate, but tend to be
slightly smaller in size with a rounded leaf base. When fertile, it is easily identified by
the very symmetrical, lanceolate inflorescence that is narrow at the base, wider in the
centre and slowly tapered to the apex. The bracts are symmetrical and tightly overlap
on both sides of the rachis. The leaf sheath margins and lower bracts are reddish which
gives the appearance of a broad, red streak on the stem and partially up the centre of

Resurrection of Boesenbergia albosanguinea

123

the inflorescence. The inflorescence protrudes for about half its length out of the leaf
sheaths and maintains a mostly vertical stance. The flowers are pure white with a light
red, narrowed, maculate pattern in the tliroat, and a lip lightly streaked with dark red
especially on the apex margin. Ridley’s comment on the narrow opening for pollination
is due to the large, overlapping lateral staminodes which cover roughly two-thirds of
the labellum length, forming a tube. In the Langkawi populations, the plants tend
to be generally less robust, shorter in height with narrower, shorter leaves. The leaf
sheaths are red but the colour does not extend onto the rachis. The inflorescences are
more cylindrical, less flattened with slightly longer, nan'ower bracts which sometimes
deflex slightly away from the rachis on some plants. Flower shape and colour are
nearly identical to the Thai populations, albeit slightly smaller.

Boesenbergia prainiana (King ex Baker) Schltr., Repert. Spec. Nov. Regni Veg. 12:
316 (1913). - Kaempferia prainiana Baker in Hook.f,, FI. Brit. India 6: 220 (1890).
- Gastrochilus prainianus (Baker) Ridl., J. Straits Branch Roy. Asiat. Soc. 32: 115.
(1899); Ridl., Mat. FI. Malay Penins. 2: 18 (1907); Ridl., FI. Malay Penins. 4: 247
(1924). - Type: Malay Peninsula, Perak, Gopeng, Kinta Valley, King’s Collector
(Kunstler) 726 [cited as “226” by Ridley (1899, 1907)] (lectotype K [K000255402!],
designated here; isolectotypes CAL [CAL0000001005!], K [K000255403!], SING
[SING0044027!]). (Fig. 4; Table 1)

Conclusions

It is concluded that Boesenbergia albosanguinea is distinct from B. prainiana. The
Langkawi collections by Curtis labelled as Boesenbergia albosanguinea are confirmed,
as are those from Satun Province, the latter constituting a new record for Thailand.

The disparity of Wooldridge’s type locality in the mountains of Perak as
compared with the documented coastal collections in Langkawi and Satun Province
cannot be explained by any known historical references such as accession books or
associated Wooldridge memorabilia (pers. com. Singapore Botanic Gardens Library).
The facts remain that Boesenbergia albosanguinea has never again been recorded from
the Thaiping Hills and, ecologically, it is unlikely that species otherwise only known
from coastal limestone sites would also be found in a distinctly different, mountainous
environment. Therefore, the only logical explanation for this inconsistency is that the
plant at Penang used for the holotype, protologue and illustration was not the same
plant Wooldridge collected. More likely it was one of Curtis’s plants collected from
Langkawi between 1890 and 1893.

ACKNOWLEDGEMENTS. We would like to thank the staff of SING and BKF for continued
assistance; Laura Green (K) for specimen assistance; Eric Sinnaya (Langkawi, Malaysia) for
field assistance; The Field Museum, Chicago, USA (F) for use of laboratory facilities; and
Linda Ann Vorobik (Berkeley, USA) for the watercolour artwork.

124

Gard. Bull. Singapore 68(1) 2016

References

Baker, J.G. (1890). Scitamineae. In: Hooker, J.D. (ed) The Flora of British India 6: 198-264.
London: L. Reeve & Co.

Don, D. (1825). Prodromus Florae Nepalensis. Pp. 23-37. London: Gale.

Holttum, R.E. (1950). The Zingiberaceae of the Malay Peninsula. Gard. Bull. Singapore 13:
106-117.

Kuntze, O. (1891). Revisio Generum Plantarum 2: 683-698. Felix: Leipzig.

Loesener, T. (1930). Zingiberaceae. In: Engler, A. & Prantl, K. (eds) Die Naturlichen
Pflanzenfamilien, ed. 2, 15a: 541-640. Leipzig:Engelmann .

Ridley, H.N. (1899). The Scitamineae of the Malay Peninsula. J. Straits Branch Roy. Asiat.
Soc. 32: 85-184.

Ridley, H.N. (1907). Materials for a Flora of the Malayan Peninsula 2: 1-63. Singapore:
Methodist Publishing House.

Ridley, H.N. (1924). Flora of the Malay Peninsula 4: 233-285. London: L. Reeve & Co., Ltd.
Schlechter, R. (1913). Die Gattungen Gastrochilus Don. und Gastrochilus Wall. Feddes Repert.
Spec. Nov. Regni Veg. 12: 315-317.

Gardens’ Bulletin Singapore 68(1): 125-137. 2016
doi: 10.3850/S2382581216000090

125

Boesenbergia siphonantha (Zingiberaceae),
a new record for Thailand and Vietnam
with notes on the molecular phylogeny

J.D. Mood^, H.D. Tran^, J.F. Veldkamp^ & L.M. Prince^

^Lyon Arboretum, University of Hawaii, 3860 Manoa Road,
Honolulu, Hi 96822, U.S.A.
boesenbergia@ginail.com
^National University, University of Science,

Ho Chi Minh City, Vietnam
^Naturalis Biodiversity Center, RO. Box 9517,

2300 RA Leiden, The Netherlands
"^The Field Museum, Department of Botany, 1400 S Lake Shore Dr.,

Chicago, IL 60605, U.S.A.

ABSTRACT. Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick.
(Zingiberaceae) is newly recorded from Thailand and Vietnam. Its nomenclatural history,
taxonomy, and molecular phylogeny are discussed. Figures, a comparative table and a
watercolour illustration are provided.

Keywords. Andaman Islands, Gastrochilus, Kaempferia

Introduction

During field work in 201 0 for the Flora of Thailand Project, an unusual Boesenbergia
was discovered growing on and around limestone outcrops under deciduous forest in
Kanchanaburi Province [J. Mood & R Chalermglin M2 05 6 (BKF)]. The plant with four,
deeply plaited laminae on long petioles was highlighted by a terminal inflorescence
and a single flower with a shiny lavender lip and red throat. Except for the colouration,
the floral appearance was reiTiiniscent of Boesenbergia longiflora (Wall.) Kuntze,
due in part to the long floral tube and saccate labellum. On further examination of
other plants in the Kanchanaburi population, numerous radical inflorescences were
observed. Except as an abnormal occurrence, bi-positional flowering, defined here as
radical and terminal inflorescences on the same element, is quite rare in Zingiberaceae.
However, it is not without precedent as Boesenbergia prainiana (Baker) Schltr., B.
tenuispicata K.Larsen, and B. trangensis K.Larsen consistently exhibit this habit.
Bi-positional flowering was later observed in two other populations, a second site in
Kanchanaburi [J. Mood & P Vatcharakorn 3081 (BKF)] and in Tak Province [/. Mood
& R Vatcharakorn 3366 (BKF)].

126

Gard. Bull. Singapore 68(1) 2016

In 2008, preceding the Thai collections, the second author discovered an
unidentified Boesenbergia species at Cat Tien National Park, Dong Nai Province,
Vietnam [Tran et ah 125 (SING, VNM)] during MSc research at the Vietnam National

\ -s

University, Ho Chi Minh City (Tran, 2009). Later, photos of this plant were sent to JDM
for possible identification, along with a leaf tissue sample for addition to the authors’
ongoing molecular phylogenetic research on Boesenbergia. Although the taxon could
not be identified immediately, the molecular results showed that it grouped in the same
clade as the three aforementioned Thai collections. Later, moiphological comparisons
also indicated close similarity except for plant stature with the Thai collections being
taller (Table 1). During further study, Boesenbergia specimens at AAU, BK, BKF, C,
CAL, CMU, CMUB, E, K, L, P, SING, QBG, VNM and W were surveyed. The search
produced three unidentified, morphologically similar collections from Thailand and
one from northern Myanmar, Surprisingly, an Andaman Islands species, Boesenbergia
siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick., was also vei^ similar.

Boesenbergia siphonantha is considered to be a rare, insular endemic from
the evergreen and semi-deciduous forests of the Andaman Islands, India. It was
described by Baker (1890) as Kaempferia siphonantha based on Kings Collector 572
(K). This and three similar specimens deposited in CAL were collected by Kunstler
on 21 July 1884 in the Andaman Islands during exploration for George King, then
Director, Royal Botanic Garden, Calcutta. It was named to describe the flower’s very
long floral tube. For reasons unknown. Baker did not associate this new taxon with
Boesenbergia longiflora which also had radical inflorescences and flowers with a
long floral tube. Perhaps his statement in the Gardeners' Chronicle (Baker, 1894: 34)
shows his sentiment: ''Gastrochilus [Boesenbergia (Kuntze, 1891)] is hardly worth
separating as a genus Ifom Kaempferia''. Consequently he classified it as a Kaempferia
L. along with six others which had little similarity to this new species. Of these, only
Kaempferia parvula King ex Baker and K. elegans Wall, have withstood the test of
time and remain in Kaempferia.

Considering this information, the Thai and Vietnamese specimens were compared
to the lectotype, protologue (Baker, 1890), and later descriptions of Boesenbergia
siphonantha (Sabu et al., 2004; Kumar et al., 2010), all of which compared favourably.
To further verify the tentative identification, a complete set of photos of the Thai

v

collections was sent to J. Leong-Skomickova (SING) who had firsthand knowledge of
this species. Although some differences were noted and discussed, it was eventually
agreed that the non-Andaman collections were representative of Boesenbergia
siphonantha sensti lato. Unfoitunately, at the time, this conclusion could not be
supported phylogenetically since a tissue sample of Boesenbergia siphonantha from
the Andaman Islands was not available. Recent molecular research by Aishwarya et
al. (2015), which included Boesenbergia siphonantha, later allowed for inclusion of
partial data here. The molecular results support the decision to identify the Thai and
Vietnamese taxa as Boesenbergia siphonantha.

Boesenbergia siphonantha, new record for Thailand and Vietnam

127

Materials and Methods

Field research. In 2008, HDT collected a voucher with silica-dried leaf tissue from a
single population of Boesenbergia siphonantha in Vietnam. Between 2010-2015, JDM
collected B. siphonantha vouchers with silica-dried tissue samples from three different
populations in Thailand. All of the populations were thoroughly studied, documented,
and photographed. Ex situ nursery cultivation was accomplished in Thailand with
several living collections, providing additional information.

Molecular phylogeny. The above tissue samples were used in this analysis. Additional
sequences providing the scaffold were taken from the authors’ ongoing research.
Boesenbergia siphonantha Sabu 73-1 is not available in GenBank but a partial tmK
sequence, con*esponding to the matK genetic fingerprint region, was generously
provided by M. Sabu (University of Calicut, India). ITS data were not available for
that sample. A complete list of samples and GenBank accession numbers are provided
in Appendix 1 .

DNA extraction and analytical methods follow Mood et al. (2013) and will
only be summarised here. The entire plastid trnK region was amplified. Amplification
was done in two parts, the first using IF and 1235R pruners and the second using mlF
and 2R. The nuclear ribosomal ITS (nrlTS) region was amplified using the 18S-F
and 26S-R primers (Prince, 2010). Data were collected on an ABI Genetic Analyzer
(ThermoFisher Scientific) and trace files for each specimen were edited in Sequencher
v4.9 (Gene Codes Corporation, Ann Arbor, Michigan, USA). Consensus sequences
were exported from Sequencher for manual alignment in Se-al (Rambaut, 1996). Areas
of ambiguous alignment were identified and analyses were conducted both including
and excluding these data. Maximum parsimony analyses were run in PAUP* (version
4.0b 10; Swofford, 2002) for each genomic data partition, firstly independently and
later in combination. Branch and bound search methods were conducted in each case
using “farthest” stepwise addition, saving a maximum of 100,000 trees. Branch support
was also estimated using Branch and Bound parsimony bootstrap (BS) in PAUP*.

Results

The ITS analyses produced eight shortest trees based on 97 potentially phylogenetically
informative characters (PPIC) with a consistency index of 0.6703 and a retention
index of 0.7980 (excluding uninformative characters). The trnK analyses, with only 35
PPIC, generated 21 shortest trees (consistency index=0.7400, retention index=0.8750).
The combined partition matrix yielded 132 PPIC and generated 18 shortest trees
(consistency index=0.6598, retention index=0.5231) when the sample Sabu 73-1
(partial tmK sequence only) was excluded from the analyses.

The ITS partition included four samples of Boesenbergia siphonantha {M2056,
M3081, M3 366, and T123), while the trnK partition included those already mentioned,
plus a partial sequence from Sabu 73-1. Analyses of all data partitions, alone or in

128

Gard. Bull. Singapore 68(1) 2016

combination, group the samples of Boesenbergia siphoncmtha together in a strongly
supported monophyletic clade (100% bootstrap support for ITS, 98% for trnK, and
98% for the combined analyses). Exclusion of the partial trnK sequence for Sabu 73-1
resulted in a clade bootstrap value of 100%. The sample Sabu 73-1 is identical to the
other four samples for the region sequenced. Characters supporting the monophyly
include a large number of autoapomorphic substitutions distributed across the coding
and non-coding regions (3 from the ITSl, 5 from the ITS2, 1 from the 5' trnK-matK
intergenic spacer, and 4 from the matK coding region). A unique 3 base pair insertion
was also observed in the 5 'trnK-matK intergenic spacer.

For simplicity, only a single phylogeny is shown here; a phylogram of one of
the most parsimonious trees from the combined data analyses where gaps are treated
as missing data, and the sample Sabu 73-1 was excluded (Fig. 1). Bootstrap values
are provided above the branch. The ITS analyses further resolved a moderately
supported (86% BS) relationship between the Vietnam sample (T123) and one sample
from Thailand (M3366). The closest infeiTed relatives from the sampling utilised
here were members of the Boesenbergia longiflora clade, but that relationship was
only weakly supported (BS 68%). This contrasts with results of the trnK analyses,
where Boesenbergia albomaculata S.Q.Tong and B. pulcherrima (Wall.) Kuntze were
indicated as closest relatives, again with only weak support (74%).

78

100

100

98

100

10 changes

96 i-^ B. kerrii

100

B. longiflora

B. collinsii

B. hamiltonii

B. maxwellii

B. kingii

100

B. siphonantha M3366

^ — B, siphonantha T123
B. siphonantha M2056
B. siphonantha M3081

B. pulcherrima

B. albomaculata

B. plicata plicata

B. tenuispicata

B. clivalis
B. rotunda

B. ochroleuca

Kaempferia sp. M2043

Kaempferia parviflora M3087

Fig. 1. Combined analysis of Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk.
& Skomick. using ITS and trnK sequence data. Bootstrap values are provided above the branch
for those with > 50% support.

Boesenbergia siphonantha, new record for Thailand and Vietnam

129

Taxonomy

V

Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick., Rheedea
14: 55 (2004). — Kaempferia siphonantha King ex Baker in Hook.f., FI. Brit. India 6:
222 (1890), — TYPE: India, Andaman Islands, 1884, King’s Collector 372 (lectotype
CAL [CAL0000000916]; isolectotypes CAL [CAL0000000912, CAL0000000913], K
[K000640517]), first step designation by Sabu et al. (2004), second step here. (Figs.
2 - 6 )

Deciduous^ perennial herb 20-60 cm tall, tightly clumping. Rhizome with multiple
elements, development in various directions forming a clonal mat, subteiTanean,
globular, 1 .2-1 .5 cm diam., cream-yellow inside, faintly aromatic, bitter; primary roots
few, fleshy, conical, elongate, to 12 cm long, 1 cm. diam. at the top, white, surface
smooth, short root hairs full length, the terminus swollen, spherical to obovoid, 1-2.5
cm long, 0. 8-2.2 cm diam., white, short root hairs the full length, many fibrous roots
from the rhizome to c. 17 cm long. Stems c. 5 cm long, c. 1 .1 cm diam., oval in cross
section, leafless sheaths 1-2, deeply corrugate, green or purple-red. Leaves 4-7 per
stem; leaf sheaths 10-21 cm long, finely ribbed with white blotches, many scattered
hairs, dark green, margin brown; ligule bilobed, lobes linear to rounded, 1-6 mm long,
light green or translucent turning pale brown, glabrous or with few hairs; petiole 3-12
cm, ribbed, green, glabrous; lamina oblong-lanceolate or ovate 10-26 x 4-12 cm,
base cordate, sometimes oblique, apex acute or acute-acuminate, veins 3-7 mm apart,
adaxially dark green, glabrous, abaxially lighter green or purple, glabrous or slightly
pubescent. Inflorescence radical and tenninal, the radical inflorescence attached to
a rhizome near the stem base, the terminal inflorescence between the leaf sheaths,
sometimes shortly exserted, flowering sequence basipetalous; peduncle 1-3 cm long,
narrow, slender, branched or unbranched; spike cylindrical, 4-6 cm long, c. 0.4 cm
diam., base white, apex dark purple-brown, ribbed; bracts 2-8, distichous, ovate-
lanceolate to linear, 3.5-5 x 0.5-1 cm, white, green or green with maroon tinge at
the apex, glabrous, overlapping equally on both sides of the rachis; bracteole tubular,
1-2.9 cm long, c. 0.1 cm diam., glabrous or pubescent, white or cream, translucent,
apex 2 or 3-toothed, laterally split 1-3.6 mm. Flowers 2-8 per inflorescence, one per
bract, 7- 1 2 cm long, erect; calyx tubular, c. 6 x 1,5 mm, translucent white or white with
tiny maroon dots, apex tri-dentate, c. 3 mm longitudinal slit; floral tube cylindrical,
6.5-9 cm long, c. 2 mm diam., white, glabrous; dorsal corolla lobe triangular to
lanceolate, cymbifonn, 1.2-1. 3 x 0.4-0.6 cm, sometimes mucronate, cream, glabrous;
lateral corolla lobes linear, c. 1 .3 x 0.4 cm, cream, glabrous, veins translucent, margin
translucent, all lobes deflexed 1 80° away from the labellum at maturity; androecial
tube 4-6 mm long, c. 4 mm wide, throat with few hairs; labellum deeply saccate,
ovate to obovate (in live plants), 2 x 0.5-1 .7 cm, cream-white, yellowing with age,
throat and medial line bright red, maculate, colour broadening outward, changing
in last third to dark pink, maturing dark purple or distal half violet with reddish
bands toward the centre, externally covered in short glandular hairs, margin slightly
undulate, sometimes crumpled, apex irregular, emarginate; lateral staminodes obovate

130

Gard. Bull. Singapore 68(1) 2016

Fig. 2. Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick. A.
Flowering plant. B. Flower. C. Flower disseetion. D. Seed with aril. (Photos: J. Leong-
Skomickova of an ex situ plant from the Andaman Islands)

to oblong, 0.8-3 x 0.4-1 cm, closely appressed with the labellum towards the base,
cream-white, dorsally covered with short, glandular hairs or glabrous, apex revolute.
Stamen c. 7 mm long; filament 1-4 mm long, white, glabrous; anther elliptical, pale
yellow, darker towards the tip, glabrous, thecae 5-6 x 3-3.7 mm (each) at opening,
5-6 X 4^.7 mm at maturity, rotating away from labellum 90°, dehiscent full length.

Boesenbergia siphonantha, new record for Thailand and Vietnam

131

Fig. 3. Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick. from
Kanehanaburi, Thailand. A. Plants in situ. B. Flower on a radieal infloreseenee. C. First day
flower. D. New flower on a terminal infloreseenee. From J. Mood & R Chalermglin M2056.
(Photos: J. Mood)

white, light brown at senescence, connective white, anther crest absent, pollen white.
Ovary trilocular, 3-6 x 2 mm, placentation axile, white, glabrous, shiny; style filiform,
to 7.5 cm long, white; stigma white, ostiole ciliate; epigynous glands linear, two, 4-4.5
mm long, yellowish or pale cream, apex acute. Fruit a capsule, elliptical, c. 1 cm
long, trilocular, white with red spots throughout, darker on the interior, dehiscence

132

Gard. Bull. Singapore 68(1) 2016

loculicidal, valves rolling outward into coils; seed ellipsoidal, brown, hirsute, apex
yellowish, funiculus present, yellowish, aril medusa-form, yellow-white, translucent.
(Note: This description is based on the protologue and collections from Thailand and
Vietnam.)

Distribution & Ecology. Andaman Islands: Moist, deciduous and inland evergreen
forests on humus rich soil, 5^5 m elevation. Thailand: On and around limestone
outcrops in deciduous, secondary forest with bamboo, medium to heavy shade at c.
70-800 m elevation. Vietnam: Deciduous Lagersti^oemia L. forest on lateritic rocks.

Phenology. See Table 1 .

Additional specimens examined. THAILAND: Mae Hong Son: Baan Bo Khai, 800 m, 12 Sep
1999, Srisanga, P. & Pujf, C. 1067 (QBG); Baan Bo Khai, 800 m, 12 Sep 1999, Srisanga, P &
Puff, C. 1069 (QBG); Tak: N. of Ban Ta Song Yang, 1 7°32.691 ’ N 97°56.291 ’£,180 m, 28 Jul

Table. 1. Comparison of Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. &
Skomick. from three geographical areas

Character

India

(Sabu et al. 2004)

Thailand

{M2056)

Vietnam

{Tran 123)

Plant height

20-30 cm

50-60 cm

c. 30 cm

Petiole length

3-6 cm

10-12 cm

4-6 cm

Lamina dimensions

10-15 X 4-7 cm

23-26 X 10-12 cm

12-15 X 8 cm

Inflorescence (radical)

Branched

Unbranched

Unbranched

Inflorescence (termmal)

Unbranched

Unbranched

Unbranched

Flowers per inflorescence

4-8

2-5

2 or 3

Flower length

10.5-12 cm

7-10.5 cm

c. 9.5 cm

Labellum

c. 20 X 5-17 mm

c. 21 X 11 mm

c. 20 X 14 mm

Flowers per day

Several

One

One

Floral display position

Above the lamina

Below the lamina

Intermediate

Phenology

F ebruary-August

July-August

July-August

Boesenbergia siphonantha, new record for Thailand and Vietnam

133

Fig. 4. Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick. from
Kanehanaburi, Thailand. A. Inflorescence opened. B. Flower with calyx, bracteole and bract
removed. C. Stamen with staminodal cup at base. D. Senesced flower with thecae rotated 180°.
E. Rhizome with storage roots. From/. Mood & P. Chalermglin M2 05 6. (Photos: J. Mood)

2013, Mood, J. & Vatcharakorn, P. 3366 (BKF). Kanehanaburi: Sai Yok, Wangkamen, 200
m, 29 Jan 2000, Phengklai et al. 14098 (BKF); W of Chong Sadao 20 km, 14° 12.626’ N, 99°
02.925’ E, 70 m, 21 Aug, 2011, Mood, J. & Vatcharakorn, P 3081 (BKF).

VIETNAM: Dong Nai: Cat Tien National Park, August 2008, Tran et al. 123.

Note: AHuk, A. s.n. collection from northern Myanmar, Jul 1892 (CAL) could also be this
species.

134

Gard. Bull. Singapore 68(1) 2016

Fig. 5. Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick. from Dong
Nai Province, Vietnam. A. Mature plant with terminal inflorescence. B. Mature plant with
radical inflorescence. C. First day flower. D. Dissected inflorescence and flower (Scale in cm).
From Tran et al. 123. (Photos: H.D. Tran)

Discussion

The Andaman Islands were physically connected to the Southeast Asian mainland
along the Arakan Yoma ridge in southwestern Myanmar at the end of the Pleistocene

Boesenbergia siphonantha, new record for Thailand and Vietnam

135

Fig. 6. Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skomick. Ink line
drawing with watercolour by Linda Ann Vorobik (2015).

136

Gard. Bull. Singapore 68(1) 2016

c. 10,000 years ago (www.worldwildlife.org/ecoregions/im0101). This land bridge
occun‘ed due to ocean levels being c. 100 m lower than at present. Although the
duration of the connection is unknown, it was long enough to allow dispersal of
species to and from the islands, to the point that the present-day flora of the Andamans
has 72% of its species in common with the mainland. Most of the remaining species
are also found in the adjacent Nicobar Islands which have a greater species similarity
to Peninsular Malaysia and Sumatra, (www.woiidwildlife.org/ecoregions/im0101). It
is not known which direction Boesenbergia siphonantha spread during this era of low
sea levels but, based on its close phylogenetic relationship to the B. longiflora clade
of six continental species, most likely its origin is also continental. The moiphological
variations observed among the countiy populations show considerable plasticity in
vegetative form, floristic habit and ecology.

Vegetatively, these differences are not unlike other widely distributed
Boesenbergia species such as B. kingii Mood & L.M. Prince. Floristically, the Andaman
populations are very showy with multiple flowers displayed well above the leaves. In
contrast, the continental plants nomially only produce one flower at a time, hidden
down amongst the leaves. This

significant variation suggests very different pollination strategies which are yet to
be investigated. Finally, although the ecology among country populations varies
considerably, it has been shown from ex situ cultivation experiments in India using
Andaman plants (Kumar et al., 2010) and in Thailand with Thai plants (pers. obs.), that
this species is quite adaptable to a variety of environmental regimes.

ACKNOWLEDGEMENTS. We thank the staff at BKF, QBG, and SING for assistance; Piya
Chalennglin (TISTR), Pramote Triboun (TISTR), and Poonsak Vatcharakom (Thailand) for
field assistance; The Field Museum, Chicago, USA (F) for use of laboratory facilities; Jana
Leong-Skoraickova (SING) for photography of B. siphonantha in the Andaman Islands; and
Linda Ann Vorobik (Berkeley, USA) for the watercolour and plate composition.

References

Aishwarya, K., Vinitha, M.R., Thomas, G. & Sabu, M. (2015). Anew species of Boesenbergia
and rediscovery of 5. rotunda (Zingiberaceae) from hidia. Phytotaxa 197: 186-196.
Baker, J.G. (1890). Scitaminae. In: Hooker, J.D. (ed) The Flora of British India 6: 220. London:
L. Reeve & Co.

Baker, J.G. (1894). New or noteworthy plants: Gastrochilus albo-lutens. Gard. Chron., ser. 3,
16: 34.

Kumar, P.K.M., Sabu, M., Thomas, V.P., Prasanth, A.V. & Mohanan, K.V. (2010). A study of
Island Purple Ginger [Boesenbergia siphonantha (Baker) M.Sabu et al.]- A potential
ornamental ginger of the tropics. Ind. J Bot. Res. 6: 165-170.

Kuntze, O. (1891). Revisio Generum Plantanim 2: 682-698. Leipzig: Felix.

Mood, J.D., Prince, L.M., Veldkamp, J.F. & Dey, S. (2013). The history and identity of
Boesenbergia longiflora (Zingiberaceae) and descriptions of five related new taxa.
Gard. Bull. Singapore 65: 47-95.

Boesenbergia siphonantha, new record for Thailand and Vietnam

137

Prince, L.M. (20 1 0). Phylogenetic relationships and species delimitation in Canna (Cannaceae).
In: Seberg, O., Petersen, G., Barfod, A.S. & Davis, J.I. (eds) Diversity, Phylogeny, and
Evolution in the Monocotyledons, Pp. 307-331. Aarhus: Aarhus University Press.
Rambaut, A, (1996). Se-Al (v2.0all) Sequence Aligtment Editor. http.7/tree.bio. ed.ac.uk/
software/seal/ (accessed on 26 Nov. 2012).

Sabu, M., Prasanthkumar, M.G., Skomickova, J. & Jayasree, S. (2004). Transfer of Kaempferia

siphonantha Baker to Boesenbergia Kuntze (Zingiberaceae). Rheedea 14: 55-59.

Swofford, D.L. (2002). PAUP*: Phylogenetic Analysis Using Parsimony (*and other methods),

vers. 4.0b 10. Sunderland, Massachusetts, USA: Sinauer Associates, Inc.

Tran, H.D. (2009). The Diversity and Ecology of Zingiberaceae Martinov in Southeast

^

Vietnam. Unpublished M.Sc. Thesis. 112 pp. Ho Chi Minh City: Vietnam National
University.

Appendix 1 : GenBank accession numbers for Zingiberaceae used in this study. Identification:
plant sample number [for newly sequenced samples] (collector and voucher number, herbarium),
ITS GenBank number/tniK GenBank number.

Boesenbergia albomaciilata S.Q. Tong: M11C83 {Murata, J. et al. 20050595K, MBK)
KU 1 593 17/KU 159408. Boesenbergia clivalis (Ridl.) Schltr.: M11C127 (Lim, C.K. s.n., UPM)
KU159398/KU 159409. Boesenbergia collinsii Mood & L.M.Prince: Mood, J. 12PJ71 (BK)
JX99275 1/JX9928 12. Boesenbergia kerrii Mood, L.M.Prince & Triboun: Mood, J. & Triboun,
P. 12PI 70 (BK) JX992756/JX99281 7. Boesenbergia hamiltoniiMood, S. Dey, & L.M. Prince:
DeyNU53 (CAL) JX992754/JX992815. Boesenbergia kingii Mood & L.M.Prince: Mood, J.
& Vatcharakorn, P. 12P173 (BK) c2-JX992789, c3-JX992790, c4-JX992791, cJX992792,
c8-JX992793/JX992829. Boesenbergia maxwellii Mood, L.M.Prince & Triboun: Mood, J.
& Triboun, P 12P172 (BK) JX992800, JX992833. Boesenbergia ochroleuca (Ridl.) Schltr.:
M3116 {Mood, J. & Vatcharakorn, P. 3116, BfCF) KU159399/KU159410. Boesenbergia plicata
van plicata (Ridl.) Holttum: Mood, J. cfe Vatcharakorn, P 3177 (BKF) JX992807/JX992840.
Boesenbergia pulcherrima (Wall.) Kuntze: Mood, J. 08P276 (BKF) JX992748/JX992809.
Boesenbergia rotunda (L.) Mansf: M11P27 {Mood, J. 11P27, BKF) KU159400/KU15941 1.
Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skornick.: M2 05 6 {Mood,
J.& Chalermglin, P. 2056, BKF) KU 1 5940 1/KU 1594 12. Boesenbergia siphonantha (King
ex Baker) M.Sabu, Prasantlik. & Skornick.: M3081 {Mood, J.& Vatcharakorn, P. 3081, BKF)
KU159402/KU159413. Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk.
& Skornick.: M3366 {Mood, J. & Vatcharakorn, P. 3366, BKF) KU159403/KU 159414.
Boesenbergia siphonantha (King ex Baker) M.Sabu, Prasanthk. & Skornick.: Tran & al. 123
(SING, VNM) KU159404/KU159415. Boesenbergia siphonantha (King ex Baker) M.Sabu,
Prasanthk. & Skornick.: Sabu, M. 7i-/(CALI) Not registered in GenBank. Boesenbergia
temiispicata K. Larsen: M3292 {Mood, J. 3292, BKF) KU159405/KU159416. Kaempferia sp. :
M2043 {Mood, J. 2043, BKF) KU159395/KU 159406. Kaempferia parviflora Wall, ex Baker:
M3087 {Mood, J. 3087, BKF) KU159396/KU1 59407.

Gardens’ Bulletin Singapore 68(1): 139-144. 2016
doi: 10.3850/S2382581216000107

139

Boeica ornithocephalantha (Gesneriaceae),
a new species from northern Vietnam

F. Wen' T.V. Do^, X. Hong'*, S. Maciejewski^-’ & Y.G. *

^Guangxi Key Laboratoiy of Plant Conservation and Restoration Ecology
in Karst TeiTaiii, Guangxi Institute of Botany, Guangxi Zhuang
Autonomous Region and the Chinese Academy of Sciences,
CN-541006, Guilin, Guangxi, China
wenfang760608@139.cora

^Gesneriad Conservation Center of China (GCCC),
CN-541006, Guilin, Guangxi, China
^Department of Biology, Vietnam National Museum of Nature,
Vietnam Academy of Science and Technology, 1 8 Hoang Quoc Viet,

Cau Giay, Ha Noi, Vietnam
dovantruong_bttn@yalioo.cora

"^The Key Laboratory of Conseivation and Employment of Biological
Resources of Anhui, Herbarium, College of Life Sciences,

Anhui Nonnal University, Wuhu, CN-241000, Anhui, China

hongxinl989@vip.qq.cora

^The Gesneriad Society, Inc. 1122 East Pike Street, PMB 637,
Seattle, WA 98122-3916, USA
tecml949@gmail.com

Corresponding author: weiyigang@aliyun.com

ABSTRACT. A new species, Boeica ornithocephalantha F.Wen, Y.G. Wei & T.V.Do
(Gesneriaceae), is described from the northern part of Vietnam. This new species is most
similar to Boeica ferniginea Drake, but clearly differs from the latter by the unusual corolla. A
provisional lUCN conservation assessment is provided.

Keywords. Boeica, Gesneriaceae, lUCN conservation assessments, Vietnam

Introduction

The genus Boeica Clarke (Gesneriaceae) was first published by Clarke (1874). It
is a small genus in subfamily Didymocarpoideae, tribe Trichosporeae, subtribe
Leptoboeinae of the Gesneriaceae (Weber et ah, 2013). Currently, there are about
twelve species of Boeica from China, Myanmar, Bhutan, northern India and the
northern part of Vietnam (Wang et ah, 1 990, 1 998; Li & Wang, 2004; Weber, 2004), the
species described most recently being B. glandulosa B.L.Burtt (Burtt, 2001). Boeica
species usually grow in shaded and damp locations with the different species having
variable flowering and fhiiting seasons, thereby often making it a challenge to collect
specimens for identification. Except for Boeica guileana Burtt (Burtt, 1977), which is

140

Gard. Bull. Singapore 68(1) 2016

a rosette plant without distinct stems, the remaining species of Boeica are caulescent,
including the newly described species below.

During a field investigation of the flora of northern Vietnam we collected an
unknown species of Boeica which required further investigation. Plants were grown
at the nursery of Guilin Botanical Garden and the Gesneriad Conservation Center
of China (GCCC) from seeds collected in the Pu Hu Nature Reserve, Quan H6a
district, Thanh H6a province, northern Vietnam. When the plants flowered, the floral
moiphology provided further confinnation that the collection was a new species of
Boeica. Michael Moller, a Gesneriaceae researcher at the Royal Botanic Garden
Edinburgh, also supported this conclusion. We describe and illustrate the proposed
new species here and provide a provisional lUCN conservation assessment following
the guidelines in lUCN (2012).

Taxonomy

Boeica ornithocephalantha F.Wen, T.V.Do & Y.G.Wei, sp. nov.

Most similar to Boeica fermginea Drake but B. ornithocephalantha is characterised
by a shorter petiole (1-1.5 cm long vs 3-5 cm long in Boeica ferruginea), adaxial leaf
blade densely glandular and non-glandular pubescent (adaxial ly appressed puberulent,
abaxially sparsely woolly to glabrescent, woolly to villous along veins in Boeica
ferruginea), peduncle 1 2-20 cm long and sparsely glandular pubescent (5-8 cm and
villous in Boeica ferruginea), bracts 3 (2 in Boeica ferruginea), corolla in lateral view
reminiscent of the head of a bird and outside glabrous (not reminiscent of a bird and
outside sparsely pubescent in Boeica ferruginea), corolla tube 1-1.2 mm long (c. 2
mm long in Boeica ferruginea), and disc inconspicuous or nearly none (circular, c. 0.2
mm high in Boeica ferruginea). - TYPE: Vietnam, Thanh Hoa province, Quan H6a
district, Quan Hoa town, Pu Hu Nature Reserve, alt. 900 m, 18 July 2014, flowering.
Wen Fang WF1407 18-01 (holotype VNMN; isotype IBK). (Figs. 1 & 2)

Herbs, stoloniferous. Stems 8-18 cm long, unbranched or rarely branched, densely
yellowish-brown woolly to villous or pilose when young, mostly glabrescent when
mature, rarely glabrous; rhizomes short, 2-4 cm long, c. 2 mm in diameter. Leaves
alternate, intemodes c. 1 cm long, usually 6-8 leaves clustered at the top of stem;
petiole 1-1.5 cm long, densely brown villous; blades ovate-elliptic to oblong, 10-
18 X 7-10 cm, mature leaf blades usually ascending, apex obtuse to rounded, base
attenuate, margin in*egularly serrate, densely glandular and non-glandular pubescent
on the upper surface, upper surface distinctly bullate, lateral veins 10-13 on each
side, impressed adaxially and prominent abaxially, densely yellowish-brown woolly
on the veins of the lower surface, the rest yellowish-brown villous. Inflorescence
axillary, a dichasium, 12- to 35-flowered or more; peduncle 12-20 cm long, c. 1.2 mm
in diameter, sparsely purplish brown and white erect glandular pubescent, the hairs
varying in length; bracts 3, the larger two narrowly lanceolate, c. 5 mm long, c. 1 mm
in diameter at base, apex acute, margin entire, the remaining one linear, c. 1.5 mm

Boeica ornithocephalantha, a new species from Vietnam

141

Fig. 1. Boeica ornithocephalantha F.Wen, Y.G.Wei & T.V.Do. A. Top view of plant. B. Upward
view of plant. C. Cyme with open flowers. D. Front view of cyme. (Photos: Fang Wen)

long, 0.2-0. 3 mm in diameter at base, apex acuminate, margin entire, outer surface
sparsely purplish brown glandular puberulent, inside nearly glabrous; pedicels 1 .5-4.5
cm long, 1-1.2 mm in diameter, sparsely purplish brown and white erect glandular
pubescent. Calyx divided to the base, 5-lobed, apex green, the rest pinkish purple,
lobes linear lanceolate, 4-5 mm long, c. 0.9 mm in diameter at base, margin entire,
outside reddish purple glandular puberulent, inside nearly glabrous; Flowers slightly
fragrant. Corolla small, 4-6 mm long, c. 5 mm in diameter, outside glabrous, initially
shallowly campanulate, limb inconspicuously 2-lipped, two larger lobes of abaxial
lip indexed from the middle and covering the anthers; corolla tube extremely short,
1-1.2 mm long; adaxial lip 2-lobed at least to middle of lip, lobes nearly equal, 3-4.5
mm long, c. 2 mm in diameter at base, wider but mostly shorter than abaxial lip lobes,
external margin of lobes white, the centre of lobes green, internal margin of lobes
white to pale pink, the centre dark purplish red; abaxial lip 3-lobed, all white, lateral
lobes larger, broadly lanceolate to oblong, apex obtuse, c. 3.5 mm long, c. 1.5 mm in

142

Gard. Bull. Singapore 68(1) 2016

Fig. 2. Boeica ornithocephalantha F. Wen, Y.G.Wei & T.V.Do. A. Obliquely view of corollas.
B. Inside of corolla. C. Outside of corolla. D. Pistil and calyx. E. Capsule. (Photos: A, E: Fang
Wen; B-D: Hua-Fei Cen)

diameter at base, the central lobe lanceolate, apex acuminate and indexed, 3.5-4 mm
long, 1.2-1. 5 mm in diameter at base. Stamens 4, free; filaments white, 0.5-0. 8 mm
long, glabrous, adnate to the base of corolla; anthers dark purplish red, cordate, c. 0.5
mm long, 0.4-0.6 mm in diameter at base, dehiscing poricidally; staminode 1, c. 0.1
mm long, dark purple to black, adnate to the base of corolla. Disc inconspicuous or
nearly absent. Ovary ovoid, 1.5-2 mm long, c. 1 mm in diameter, glandular puberulent;
style 5-7 mm long, mostly glabrous but glandular puberulent at the base. Stigma 1,
apex truncate, pale green. Capsule linear, nearly glabrous, 1.5-2 cm long.

Distribution. Only known from Pu Hu Nature Reserve, near En Village, Quan H6a
town, Quan H6a district, Thanh Hoa province, Vietnam.

Habitat. Primarily growing on shaded slopes in valleys above streams, often locally
common, at low altitude. It occurs on rocks covered with humus under evergreen
forest, not prone to human disturbance.

Boeica ornithocephalantha, a new species from Vietnam

143

Etymology. The scientific name is due to the perception by the authors thatthe lateral view
of the mature corolla looks like the head of a bird. The epithet, ''ornithocephalantha'',
is composed of the Greek elements ‘omitho-’ for bird, ‘cephal-’ for head and ‘-antha’
for flower.

Provisional lUCN Conservation Assessment. Vulnerable VU B2ab(ii,iii). This species
is only known from very few collections and details on the size of the population in Pu
Hu Nature Reserve are unknown. We acknowledge that the type locality is protected
from exploitation and development by being in a Nature Reserve, thereby guaranteeing
the plants protected status. Based on our observations during the field work cuiTently
the plants appear to be locally abundant. However, the known habitat is also disturbed
by intentional and unintentional human activity such as for path building. According to
the lUCN red list categories and criteria, the species should be considered Vulnerable
(lUCN, 2012).

Notes. Boeica species are characterised by an indumentum of shiny bristly brown
hairs, a corolla with a short tube and flat limb, four free stamens, and poricidal or
transverse anthers that are coherent at the tips (Pellegrin, 1926; Burtt, 1977; Li &
Wang, 2004). Among the 12 known species, some have a distinctly zygomoiphic
corolla, a very short corolla tube, a spreading corolla limb, and four obvious stamens
(here connivent), traits that Burtt (1977) considered to be ‘primitive’. The new species
possesses some of the above-mentioned morphological traits.

ACKNOWLEDGEMENTS. We thank Dr Michael Moller of the Royal Botanic Garden
Edinburgh for the recognition of this species, and Hua-Fei Cen for the photos. We also
acknowledge the Vietnam Ministry of Agriculture and Rural Development and the Vietnam
National Museum of Nature for granting the collecting permissions. This study was
financially supported by the Guangxi Natural Science Foundation (201 3GXNSFAA01 9071,
2013GXNSFBA019078 & 20I5GXNSFBB139004), Guangxi Forest S & T Projects (Gui Lin
Ke Zi [2014] 27), International S and T Cooperation Projects of Guangxi (Guikehe 1347004-4)
& Guilin (20130412) and the Science Research Foundation of the Guangxi Institute of Botany
(Guizhiye 11005).

References

Burtt, B.L. (1977). Studies in the Gesneriaceae of the old world. XLI. Notes on Boeica and
Didissandra. Notes Roy. Bot. Card. Edinburgh 35: 369-374.

Burtt, B.L. (2001). Flora of Thailand: annotated checklist of Gesneriaceae. Thai Eorest Bull,
Bol 29: 81-109.

Clarke, C.B. (1874). Commelynaceae et Cyrtandraceae Bengalenses. London: Spink & Co.

lUCN (20 1 2). lUCN Red List Categories and Criteria: Version 3. 1. 2nd ed. - Gland, Switzerland
and Cambridge, UK: lUCN,

Li, Z.Y. & Wang, Y.Z. (2004). Boeica. In: Li, Z.Y. & Wang, YZ. (eds) Plants of Gesneriaceae
in China. Pp. 109-112. Zhengzhou: Henan Science and Technology Publishing House.

144

Gard. Bull. Singapore 68(1) 2016

Pellegrin, F. (1926). Les Gesneracees-Cyrtandrees d’Indo-Chine. Bull Soc. Bot. France 73(3):
412^29.

Wang, W.T., Pan, K.Y., Li, Z.Y, Weitzman, A.L. & Skog, L.E. (1998). Gesneriaceae. In: Wu,
Z.Y. & Raven, P.H. (eds) Flora of China 1 8: 244-401 . Beijing, China: Science Press and
St. Louis, Missouri, USA: Missouri Botanical Garden Press.

Wang, W.T., Pan, K.Y., Zhang, Z.Y. & Li, Z.Y (1990). Gesneriaceae. In: Wang, W.T. (ed) Flora
ReipiibUcae Popularis Sinicae 69: 125-581. Beijing: Science Press.

Weber, A. (2004). Gesneriaceae. In: Kubitzki, K. & Kadereit, J.W. (eds) The Families and
Genera of Vascular Plants, vol. 7. Dicotyledons. Lamiales (except Acanthaceae inch
Avicenniaceae). Heidelberg: Springer.

Weber, A., Clark, J.L. & Moller, M. (2013). A new formal classification of Gesneriaceae.
Selbyana 31(2): 68-94.

Gardens’ Bulletin Singapore 68(1): 145-172. 2016
doi: 10.3850/S2382581216000119

145

An expansion of the genus Deinostigma (Gesneriaceae)

M. Moller', K. Nishii", HJ. Atkins', H.H. Kong^ M. Kang^
Y.G. WeP, F. Wen', X. Hong‘'& D.J. Middleton'

^Royal Botanic Garden Edinburgh^ 20 A Inverleith Row,
Edinburgh EH35LR, Scotland, U.K.

^Key Laboratory of Plant Resources Conservation
and Sustainable Utilization, South China Botanical Garden,
Chinese Academy of Sciences, Guangzhou 510650, China
^Guangxi Key Laboratoiy of Plant Conservation and Restoration
Ecology in Karst Terrain, Guangxi Institute of Botany,
Guilin 541006, China

"^College of Life Sciences, Anliui Normal University,

Wuhu 241000, China

^Herbarium, Singapore Botanic Gardens, National Parks Board,

1 Cluny Road, Singapore 259569
david_niiddleton@nparks . go v. sg

ABSTRACT. Based on molecular, morphological and cytological studies the previously
monotypic genus Deinostigma W.T.Wang & Z.Y.Li has been expanded to include several
species previously ascribed to Primulma Hance. Deinostigma now comprises seven species,
including one previously placed in synonymy. The new combinations Deinostigma cicatricosa
(W.T.Wang) D.J.Middleton & Mich.Moller, Deinostigma cycnostyla (B.L.Burtt) D.J.Middleton
& H.J.Atkins, Deinostigma cyrtocarpa (D.Fang & L.Zeng) Mich.Moller & H.J.Atkins,
Deinostigma eberhardtii (Pellegr.) D.J.Middleton & H.J.Atkins, Deinostigma minutihamata
(D.Wood) D.J.Middleton & H.J.Atkins and Deinostigma tamiana (B.L.Burtt) D.J.Middleton
& H.J.Atkins are made. Deinostigma eberhardtii is lectotypified. The genus is defined by
a combination of an alternate leaf arrangement, hooked hairs on many plant parts, flowers
with the pedicel inserted at an angle and off-centre on the receptacle, and, where known, a
somatic cliromosome number (2n) of < 36. This new circumscription of the genus expands its
distribution from Vietnam into South China.

Keywords. Molecular phylogeny, ovary morphology, Primulina, taxonomy

Introduction

The genus Deinostigma W.T.Wang & Z.Y.Li in the Gesneriaceae currently has only
one species, D. poilanei (Pellegr.) W.T.Wang & Z.Y.Li from the southern Annamite
range of Vietnam. It was erected as a genus to accommodate the species first described
as Hemihoea poilanei Pellegr. This species was placed in Hemiboea C.B. Clarke due
to its bilocular ovary and the perception that one of the locales was sterile, a trait of
the species in Hemiboea. Wang & Li (1992) argued that it did not belong in Hemiboea
due to having alternate leaves, free bracts, inside of corolla glabrous, filaments broader

146

Gard. Bull. Singapore 68(1) 2016

in the upper half, anthers hairy, anther locules divaricate with apices confluent, disc
absent, and stigma bifid. In further arguments they noted how it differed from other
Asian genera and concluded that a new genus was necessary to accommodate it. Since
then, the status and relationships of Deinostigma poilanei have remained obscure due
to being known from only very few specimens and because relatively little research
has been done on the Gesneriaceae of Vietnam.

During work at the Museum National d’Histoire Naturelle in Paris for an as-yet-
unpublished checklist of the Gesneriaceae of Cambodia, Laos and Vietnam by DJM, it
became clear that Deinostigma poilanei was similar to a number of species from Vietnam
and China that were moved into Primulina Hance from Chirita Buch.-Ham. ex D.Don
by Weber et al. (2011), namely P. cycnostyla (B.L.Burtt) Mich.Moller & A.Weber,
P. cyrtocarpa (D.Fang & L.Zeng) Mich.Moller & A.Weber, P. eberhardtii (Pellegr.)
Mich.Moller & A.Weber, P. minutihamata (D.Wood) Mich.Moller & A.Weber and P.
tamiana (B.L.Burtt) Mich.Moller & A.Weber. None of these Deinostigma-hke species
were included in the molecular phylogenetic analyses by Weber et al. (2011) but were
moved into Primulina based on their previous inclusion in Chirita sect. Gibbosaccus
C.B. Clarke by Wood (1974). All species of the hitherto Chirita sect. Gibbosaccus that
were included in the molecular analyses formed a single highly supported clade with
Primulina tabacum Hance, the type of Primulina (Weber et al., 2011).

Deinostigma poilanei and the species of Primulina similar to it share a number
of moiphological traits that are not found in other species of Primulina. These are
alternate leaf an*angement (opposite or verticillate in the remaining Pnwu/mu species),
hooked hairs on many plant parts but particularly on the pedicels, and flowers with
the pedicel inserted at an angle and off-centre on the receptacle. In several species
the fruit is strongly curved. The alternate leaf arrangement is not particularly clear in
the species with a congested rosette of basal leaves but is nevertheless observable by
only a single leaf emerging from the apical meristem at a time. Differences also exist
in the basic chromosome numbers, with Primulina having exclusively x = 18 (> 100
species counted out of > 150 described) (Moller & Pullan, 2015 onwards) while one
Deinostigma-hke species, P tamiana, has been counted with x = 16 (Christie et al.,
2012). In other features the plants are indeed similar to Primulina. It should also be
noted that these Deinostigma-hke, Primulina species occur on a variety of substrates
but not on limestone and that the majority of the remaining Primulina species occur
on limestone substrates.

In Wang et al. (1998) Chirita cicatricosa W.T.Wang is placed in synonymy
of C. minutihamata D.Wood (= Primulina minutihamata), typified by material from
China and Vietnam respectively. We found that the material from China has longer,
more slender and more falcate fruits and somewhat larger flowers than material fi"om
Vietnam. Coupled with their large disjunct distribution, and pending a revision of the
species, we suspect that they may represent distinct species and treat them thus here
(see also below).

The aim of this study was to investigate the relationship between Deinostigma
and Primulina and clarify the status of the Deinostigma-likQ Primulina species.

An expansion oi Deinostigma

147

Materials and Methods

Plant materials

Herbarium specimens and living collections of Deinostigma poilanei and the
Deinostigma-\\kQ Primulina species were studied in the Royal Botanic Garden
Edinburgh and the Museum National d’Histoire Naturelle in Paris.

Materials for moiphological and phylogenetic analyses were collected in
Vietnam {Deinostigma poilanei, Primulina tamiana) and China {Primulina cyrtocarpa,
Chirita cicatricosa) (Table 1). Data for the phylogenetic analyses were downloaded
from GenBank (including one additional sample of Primulina minutihamata from
China which we are treating here as Chirita cicatricosa). These basically represented
a reduced matrix of Old World Gesneriaceae as presented in Middleton et al. (2015).
Altogether 132 samples (129 species) were included, covering all 32 genera currently
recognised in the subtribe Didymocarpinae of tribe Trichosporeae (Moller et al., 2009,
2011, 2014; Weber et al., 2013; Middleton et al., 2014a, 2015). The sampling included
20 samples of 19 species oi Primulina, including the type, P. tabacum (Table 1). The
phylogenetic trees were rooted on samples of Microchirita (C.B. Clarke) Yin Z.Wang
(Moller et al., 2009, 2011).

DNA extraction, PCR and phylogenetic analysis

Sequences of the nuclear ribosomal internal transcribed spacers (ITS) and the plastid
trnL-V intron-spacer (^mL-F) for four samples, Chirita cicatricosa, Deinostigma
poilanei, Primulina cyrtocarpa, and P. tamiana, were obtained. The extraction of
genomic DNA was carried out using a CTAB procedure (Doyle & Doyle, 1 987, 1 990),

The PCR amplification of ITS and trnL-¥ were perfomied using primers ‘5P’
(5’-GGA AGG AGA AGT CGT AAC AAG G-3’) and ‘8P’ (5’-CAC GCT TCT CCA
GAC TAC A-3’) (Moller & Cronk, 1997) and ‘c’ (5-CGA AAT CGG TAG ACG CTA
CG-3’) and ‘f (5’-ATT TGA ACT GGT GAC ACG AG-3’) (Taberlet et al., 1991),
respectively, run on a Biorad TlOO™ Thermal Cycler (Kernel Hempstead, UK). The
10 pL reactions contained 1 pL lOx NH^ reaction buffer (Bioline, UK), 1 pL dNTPs
(2 inM), 0.3 pL MgCl, (50 inM), 0.4 pL of each primer (10 pM), 5.6 pL ddH^O, 0.1
pL Biotaq polymerase (5U/pL) (Bioline, UK) and 1 .2 pL DNA template. The PCR
thermocycle profile for ITS started with an initial denaturation for 3 min at 94°C,
followed by 30 cycles of 1 min at 94°C, 1 min at 55°C and 1.5 min at 72°C, finished
with a final extension step for 5 min at 72°C. For trnL-¥ it was: initial denaturation for
4 min at 94°C, followed by 30 cycles of 45 s at 94°C, 45 s at 55°C and 3 min at 72°C,
with a final extension step for 10 min at 72°C. PCR products were run on 1% agarose
gels to check for amplification success and quality. PCR amplified fragments were
purified using ExoSAP-IT (Affymetrix, UK) following the manufacturer’s protocol,
and sequenced using the dideoxy chain-termination method. Sequencing samples were
prepared using the BigDye Terminator v3.1 Cycle Sequencing Kit (Thermo Fisher
Scientific, UK) following the manufacturer's recommendations, and sequencing was
earned out by the Edinburgh Genomics sequencing service (University of Edinburgh,

148

Gard. Bull. Singapore 68(1) 2016

UK). Editing and assemblage of sequencing results were perfonned using the programs
Sequencher 4.5 (Gene Codes Coip, Ann Arbor, USA). The newly acquired sequences
were added to the reduced matrix of Middleton et al. (2015) and the matrices realigned
manually. They were subsequently submitted to GenBank (Table 1).

Since the combinability of the ITS and trnL-F matrices, tested with the ILD test
(Farris, 1995a, 1995b), implemented as PHT in PAUP* 4.0al46 (Swofford, 2002),
did not indicate incongruent phylogenetic signals (P = 0.58), the two matrices were
analysed together. The reconstruction of phylogenetic trees by maximum parsimony
(MP) and Bayesian inference (Bl), including the calculation of bootstrap (BS) and
posterior probability (PP) branch support values, were carried out as previously
described (Moller et al., 2009, 2011; Weber et al., 2011; Middleton et al., 2015): the MP
analysis on the combined data was carried out in PAUP* v.4.0bl0 (Swofford, 2002),
on unweighted and unordered characters. Alignment gaps were treated as missing data.
Starting trees were found by parsimony ratchet (Nixon, 1999), in PAUPRat (Sikes &
Lewis, 2001) and PAUP*, and the saved trees further optimised in PAUP*, with both
TBR and Multrees on. Statistical branch support was obtained from 10,000 heuristic
bootstrap replicates each starting with a random addition tree, optimized with TBR on
and Multrees off in PAUP* (Moller & al., 2009, 2011).

The BI analyses were run in MrBayes v.3.1.2 (Huelsenbeck & Ronquist,
2001; Huelsenbeck et al., 2007). Models and parameter prior settings were obtained
independently for the trnL-F, the ITS spacers and 5.8S sequences using MrModeltest
v.2.3 (Nylander, 2004), and were GTR + I + G for trnL-F and the ITS spacers, and
SYM + I + G for the 5.8S gene, respectively, as suggested by the Akaike Information
Criterion (AIC; Akaike, 1974). Five million generations were run in two independent
analyses each with four Markov chain Monte Carlo (MCMC) chains. One tree was
sampled every 1000^ generation (= 5000 trees), and the first 250 trees (5%) discarded
as burn-in, detemiined after plotting the generations against the Log(n) likelihoods
and a majority mle consensus tree constmct with the ‘sumt’ command and posterior
probabilities (PP) obtained in MrBayes.

Cytology

The chromosome numbers for Deinostigma poilanei {R. Rybkovd HB 222) and
Primulina cyrtocarpa {M.Mdller &Y.G. Wei MMO 06-908) (Table 1), were determined
from root tips as previously described (Jong & Moller, 2000; Christie et al., 2012).
For Chirita cicatricosa {ZuUn 131585, China, Guangxi, Shangsi), leaf cuttings were
cultivated in pots at the South Chma Botanical Garden, Chinese Academy of Sciences.
Actively growing root tips were harvested and pretreated in the dark with 0.1%
colchicine and 0,1% 8-Hydroxyquinoline (1:1) at room temperature for 3 hours and
then fixed in 3 : 1 absolute ethanol : glacial acetic acid at 4°C for 2 hours. They were
macerated in a mixture of 1 : 1 IM HCl and 45% acetic acid at 37°C in a water bath
for 45 min, and stained and squashed in 1% aceto-orcein.

An expansion oi Deinostigma

149

Results and Discussion

Phylogeny

The MP analysis resulted in 204 most parsimonious trees with a length of 4123 steps,
Cl of 0.3772 and RI of 0.6797. For the B1 mns, the average standard deviation of
split frequencies was 0.003949 indicating a strong convergence of the two runs.
Furthemiore, a close correlation of the PP values between the two runs was observed,
confirming the reproducibility of the runs.

In both the MP (Fig. 1) and BI (Fig. 2) phylogenetic trees, Primulina s.s.
(excluding Chirita cicatricosa, P cyrtocarpa, andP. tamiana) fonns a highly supported
clade (BS = 100%; PP= 1), and, most importantly, is the sister clade to Petrocodon
with maximum branch support (BS = 1 00%; PP = 1 ). Deinostigma poilanei, together
with Chirita cicatricosa, Primulina cyrtocarpa andP tamiana, fonns a separate clade
(BS = 73%; PP = 0.88), which is sister to the monotypic Metapetrocosmea W.T.Wang
with maxumim branch support (BS = 100%; PP = 1). Although most of the genera
are in highly supported clades, as in previous studies (Mdller et al., 2009, 2011), the
backbone of the phylogenetic tree is not resolved. However, since both Primulina s.s.
and the Deinostigma clade fonn strongly supported sister relationships to other genera
respectively, it is unlikely that the two genera are closely related. Consequently, we
transfer the Deinostigma-Mks Primulina species to Deinostigma and refer to them thus
hereafter.

Morphology

All species are herbs. They are all probably perennial and, judging from the numerous
leaf scars on the stems of some species, they are likely to be deciduous in the dry season.
In particular, Deinostigma cycnostyla has a thick stem with numerous congested leaf
scars. The other species have a relatively thin stem and species such as Deinostigma
minutihamata are mostly procumbent.

All species have an alternate leaf arrangement although this is not so obvious
in Deinostigma cycnostyla where the leaves are very congested. The alternate leaf
arrangement is in contrast to Primulina s.s. where the leaves are opposite or in whorls,
usually of three. The leaf blade is ovate to elliptic with a weakly {Deinostigma tamiana)
to strongly (D. cyrtocarpa) crenate or dentate margin. In all species the length of the
petiole is very variable within an individual, but compared to most other Asian genera,
it is generally long in proportion to the length of the leaf blade, and often longer than
the blade.

The inflorescences arise Ifom the axils of the upper leaves, are borne on
long peduncles, and are dichasia with the typical paired-flower arrangement of the
Gesneriaceae. They are few-flowered in most species to many-flowered in Deinostigma
eberhardtii. In most species the inflorescence is fairly lax but is rather congested in the
terminal branches in Deinostigma cycnostyla. There are hooked hairs on the pedicels,
which are not found in Primulina s.s.

The corolla is white, blue or variations on purple (or combinations of these),
infiindibuliform, with the lower lip 3-lobed and the upper lip 2-lobed. From the colour
and morphology bee pollination is likely.

150

Gard. Bull. Singapore 68(1) 2016

Microchirita

Codonoboea

Henckelia

Billolivia

Aeschynanthus

Metapetrocosmea peltata
Deinostigma tamiana
Deinostigma poilanei
Deinostigma cyrtocarpa
Deinostigma cicatricosa_KN173
Deinostigma cicatricosaJCWB
Agalmyla
Pseudochirita
Loxostigma

Allostigma guangxiense
Chayamaritia
Petrocosmea
Oreocharis
Conandron ramondioides

Ridleyandra

Hexatheca fuiva

Cyrtandra

Didymostigma

Cathayanthe biflora
Liebigia barbata
Allocheilos guangxiensis
Gyrocheilos
Didymocarpus
Raphiocarpus sinicus

Anna

Briggsiopsis dela vayi

Glabrefla
Lysionotus
Hemiboea
Petrocodon
Primulina gemelia
Primulina dryas
Primulina pinnata
Primulina glandulosa
Primulina Timbrisepala
Primulina giand.var.yangshuo.
Primulina hochiensis
Primulina tabacum
Primulina renifolia
Primulina luochengensis
Primulina ligulifoimls
Primulina lon^angensis
Primulina linearifolia
Primulina minutimaculata
Primulina wentsaii
Primulina ophlopogoides

Fig. 1. Maximum parsimony strict consensus tree based on eombined ITS and trnL-¥ sequenee
data. Clades representing entire genera are collapsed. Numbers along the branches are bootstrap
values. Asterisks denote branehes reeeiving < 50% support.

An expansion oi Deinostigma

151

0.78

Microchirita
Codonoboea
Henckeiia
Didymostigma
Billolivia

Conandron ramondioides

Ridleyandra

Metapetrocosmeapeltata

0.88

Deinostigma tamiana
Deinostigma poilanei
Deinostigma cynocarpa
Deinostigma cicatricosa_KN173
Deinostigma cicatricosa_XWB
Hexatheca fulva

0.95

0.69

Cyrtandra
Oreocharis
Aeschynanthus
Agalmyla

Cathayanthebiflora

Atlocheilos guangxiensis

Gyrocheilos

Liebigia barbata

Didymocarpus
Pseudochirita
Loxostigma

Atlostigma guangxiense

Chayamaritia
Petrocosmea

Briggsiopsis dela vayi

Glabrella
Hemiboea
Anna

Raphiocarpus sinicus

Lysionotus
Petrocodon
Primuiina gemeila

Primulina dryas
Primuiina pinnata
Primulina glandulosa
Primuiina fimbrisepala
Primulina giand.var.yangshuo.
Primulina hochiensis
Primulina renifolia
Primulina luochengensis
Primulina liguliformis
Primulina tabacum
Primulina longgangensis
Primulina linearifolia
Primulina minutimaculata
Primulina wentsaii
Primulina ophiopogoides

Fig. 2. Bayesian inference majority rule consensus tree based on combined ITS and trnL-¥
sequence data. Clades representing entire genera are collapsed. Numbers along the branches
are posterior probability values. Asterisks denote branches with < 0.5 posterior probability.

152

Gard. Bull. Singapore 68(1) 2016

There are two fertile stamens and three staminodes (the central one sometimes
obscure). The filaments are geniculate around the middle and glandular or hairy
distally. The anthers are haiiy or glandular in all species.

The ovary of Deinostigina poilanei is small, c. 5 mm long, at an oblique or
sometimes almost a right angle to the pedicel and slightly curved upwards, similar to
D. cycnostylci (c. 2.4 mm long), D. eherhardtii (c. 4.5 mm long), D. tamiana (c. 5.5
mm long) and D. cyrtocarpa (7-9 mm long). At maturity, the capsules in Deinostigma
poilanei, D. tamiana and D. cyrtocarpa are 1.5-2 cm long and in D. eberhardtii
2. 5-2. 9 cm long. In these species, the capsules are falcate and inserted at an angle to
the pedicel to be earned ± horizontally (not known in Deinostigma cycnostyda).

In Deinostigma cicatricosa and D. minutihamata, the ovary is much larger, c.
12-18 mm long, and only at a slight angle in relation to the pedicel. In Deinostigma
cicatricosa, the mature capsule is 4.5-5 cm long, has a slight curve and is slender, while
in D. minutihamata, the capsule remains straight, 2. 3-3. 5 cm long, and is broader. In
all Deinostigma species where it is known tlie capsule dehiscence is loculicidal.

The internal stmeture of the ovaries could not be studied in all species. In the
species studied the mtemal stmeture varies considerably. In Deinostigma poilanei
it is bilocular for its entire length, with axile recurved bifid placentation (Fig. 3A). In
Deinostigma tamiana and D. cicatricosa only the basal part is bilocular while in the
middle and distal parts the carpels are not fiised and the ovary is unilocular (Fig. 3B,
C). We surveyed other species previously within the circumscription of Chirita, and
now included in other genera (i.e., HenckeUa dielsii (Borza) D.J.Middleton & Mich.
Moller, Microchirita prostrata J.M.Li & Z.Xia, Primulina hochiensis (C.C.Huang &

X. X.Chen) Mich.Moller & A. Weber and Primulina liguliformis (W.T.Wang) Mich.
Moller & A. Weber), and found them to possess a unilocular ovary for their entire length
(Fig. 3E-G). The exception was Primulina dry’as (Dunn) Mich.Moller & A.Weber, the
ovary of which is bilocular throughout but with the abaxial locule being sterile (Fig. 3D).

Chromosome numbers

The chromosome number of Deinostigma poilanei and D. cicatricosa was determined
as 2n = 32, that of D. cyrtocarpa as 2n = c. 30 (Fig. 4). For all species, the cliromosomes
within each complement did not differ significantly in size and were c. 0.8- 1.2 pm in
length. Deinostigma tamiana was counted previously as 2n = 32 (Christie et al., 2012).

The counts for all other Primulina species to date (139 counts for 118 species
and 4 varieties, Moller & Pullan, 2015 onwards) were unifonnly 2n = 36, except for a
tetraploid count of 2n = 72 for one accession of P longgangensis (W.T.Wang) Y.Liu &

Y. Z.Wang (Christie et al., 2012) and one count of 2n = 28 for the same species (Cao et
al., 2003), the latter likely erroneous since two other counts of P. longgangensis showed
2n = 32 (Liu et al., 2012; Kang et al., 2014). Overall, the chromosome size of species
of Primulina s.s. is slightly larger than those with 2n = c. 30 and 32 chromosomes,
being mostly up to 1.6 pm long, with the exception of P. aff balansae (Drake) Mich.
Moller & A.Weber with chromosomes up to 2.0 pm long. Overall, the chromosome
numbers are in full congruence with the phylogeny, separating Primulina s.s. with 2n
= 36 from those with 2n = c. 30 and 2n = 32 chromosomes.

An expansion oi Deinostigma

153

A)

Deinostigma

poilanei

B)

Deinostigma

tamiana

C)

Deinostigma

cicatricosa

D)

Primulina

dryas

E)

Primulina

liguliformis

F)

Henckelia

d/e/s/7

G)

Microchirita

prostrata

near base middle near tip

Fig. 3. Photographic sections taken near the base, the middle and the tip of ovaries of diverse
species belonging to Deinostigma W.T.Wang & Z.Y.Li (A-C), species previously included in
Chirita Bueh.-Ham. (D-F) Microchirita prostrata J.M.Li & Z.Xia (G). (Photos: M. Moller)

154

Gard. Bull. Singapore 68(1) 2016

• • ^ •

B

♦

r *\
» ;

■\

Fig. 4. Chromosome spread preparations of three Deinostigma W.T. Wang & Z.Y.Li species. A.
Deinostigma poilanei (Pellegr.) W.T. Wang & Z.Y.Li prometaphase with 2n=32 chromosomes.
B. Deinostigma cicatricosa (W.T. Wang) D.J. Middleton & Mich.Moller metaphase with 2n =
32 chromosomes. C. Deinostigma cyrtocarpa (D.Fang & L.Zeng) Mich.Moller & H.J.Atkins
prometaphase with 2n = c. 30 chromosomes. Scale bar: 10pm. (Photos: A, C: M. Moller; B:
Hui-Min Li)

Geography

The Annamite range of mountains that straddles the border between Vietnam and
Laos, and extends into NE Cambodia and further south in Vietnam to just north of Ho
Chi Minh City, is known to be an area of high biodiversity and home to many endemic
species of plants and animals (Averyanov et al., 2003; WWF, 2015). The Annamites
are particularly interesting for Gesneriaceae as the genus Billolivia DJ.Middleton,
now with seven species (all of which were also described as new), was recently
described from the southern end of this range (Middleton et al., 2014a, 2014b; Vu et
al., 2015), Deinostigma, however, occurs across almost the full length of the mountain
range and into southern China, a distribution pattern not otherwise observed in other
Gesneriaceae genera except for those which are generally much more widespread (e.g.
Aeschynanthus Jack, Didymocarpus Wall., Rhynchotechum Blume).

Conclusion

In summary, phylogeny, cytology and morphology support a separation of Chirita
cicatricosa (previously included in synonymy oi Primulina minutihamata), Primulina
cyrtocarpa and P tamiana from Primulina and their integration into an expanded
genus Deinostigma with a distribution range covering Southern China and Vietnam.
Primulina cycnostyla, P eberhardtii and P minutihamata must also be moved into
Deinostigma based on their close morphological similarities to species which have
been included in the phylogeny. The genus includes species with leaves in alternate
arrangement with distinct nodes (except congested inD. cycnostyla), bilocular ovaries,
at least at the base, and a chromosome number smaller than 2n = 36, these characters
distinguishing Deinostigma from Primulina s.s. Metapetrocosmea, though monotypic
and sister to Deinostigma in the phylogeny, is excluded from Deinostigma due to its
many differences, such as the unilocular ovary, epipetry, free anthers, capitate stigma,
and the capsule globose and straight in relation to the pedicel.

An expansion oi Deinostigma

155

Taxonomy

We do not attempt a revision here of the speeies now included in Deinostigma but
note that a revision is needed. The only major change to the existing taxonomy that we
make is to resurrect Chirita cicatricosa from synonymy of Primulma minutihamata
and make combinations in Deinostigma for both (see below). All type material cited
below has been seen by the authors.

Deinostigma W.T.Wang & Z.Y.Li, Acta Phytotax. Sin. 30(4): 356 (1992). - TYPE:
Deinostigma poilanei (Pellegr.) W.T.Wang & Z.Y.Li

Chirita subsect. Cicatricosae W.T.Wang, Bull. Bot. Res., Harbin 1(4): 69 (1981). -
TYPE: Chirita cicatricosa W.T.Wang

Perennial herbs, caulescent with distinct or short stem. Leaves simple, alternate,
sometimes congested into a rosette, petiolate; blade slightly peltate or not, margin
crenate or dentate, secondary veins pinnate. Inflorescences axillary, cymose; pedicels
with hooked hairs. Flowers with the pedicel inserted at an angle and off-centre on the
receptacle. Calyx lobes divided to base, elliptic, those on ventral side slightly longer
and wider. Corolla white, purple, blue or combinations thereof, infundibulifomi,
lower lip 3-lobed, upper lip 2-lobed, lobe apices rounded. Fertile stamens 2, filaments
slightly curved, anthers adnate face to face, hairy or with glands, staminodes 3 but
with centi'al staminode sometimes obscure. Nectary 5 -crenate or apparently lacking.
Ovary fusiform, bilocular throughout or at least near base, then unilocular from middle
to apex; stigma of only lower lip developing, broad, flat and weakly 2-lobed. Fruit
straight to strongly falcate, oblique in relation to the pedicel, dehiscing loculicidally;
many-seeded, seeds unappendaged.

Distribution. Seven species in southern China and Vietnam. Some of the Vietnamese
material was collected close to the border with Laos and it may also occur in that
country.

Deinostigma cicatricosa (W.T.Wang) D.J.Middleton & Mich.Moller, comb. nov.
- Chirita cicatricosa W.T.Wang, Bull. Bot. Res., Harbin 1(4): 69 (1981). - TYPE:
China, Guangxi, Dongxing, Banba Commune, Renbei, 3 October 1976, Fang, D. etal
1525 (holotype GXMI [GXMI050619]). (Fig. 5A-D)

Distribution. China (Guangxi).

Notes. Wood (1974) included a specimen from Southern Guangxi (although he cited
it as being from ‘Kwangtung’ (Guangdong)) in his new species Chirita minutihamata,
along with material, including the type, from Vietnam. Wang (1981) later described
Chirita cicatricosa from Guangxi without explicitly including the Chinese material

156

Gard. Bull. Singapore 68(1) 2016

of C. minutihamata or referring to that species. Wang (1985), Wang et al. (1990) and
Wang et al. (1998) placed Chirita cicatricosa in synonymy of C. minutihamata and
cited localities corresponding to the type locality of C. cicatricosa and the material
cited by Wood (1974). We acknowledge that the material from China and the material
from Vietnam are indeed very similar but the differences between them, particularly in
the longer, slender, more falcate fruits and the somewhat larger flowers of the Chinese
material, along with the widely disjunct distribution, lead us to suspect that they may
be recognised as distinct species when the group is revised. We therefore provide the
combination in anticipation of this.

Deinostigma cycnostyla (B.L.Burtt) D.J.Middleton & H.J.Atkins, comb. nov.
- Chirita cycnostyla B.L.Burtt, Notes Roy. Bot. Gard. Edinburgh 23: 96 (1960). -
Primulina cycnostyla (B.L.Burtt) Mich.Mdller & A.Weber, Taxon 60: 781 (2011). -
TYPE: Vietnam, Da Nang, BaNa, 1000-1500 m, 27 February 1939, Poilane, E. 29123
(holotypeP[P00602510]).

Distribution. Only known from the Ba Na Hills of central Vietnam.

Notes. This species has not been included in molecular phylogenetic analyses but has
been transferred to Deinostigma based on its morphological similarity to Deinostigma
poilanei.

Deinostigma cyrtocarpa (D.Fang & L.Zeng) Mich.Mdller & H.J.Atkins, comb. nov.
- Chirita cyrtocarpa D.Fang & L.Zeng, Acta Phytotax. Sin. 31(5): 468 (1993). -
Primulina cyrtocarpa (D.Fang & L.Zeng) Mich.Mdller & A.Weber, Taxon 60: 781
(2011). - TYPE: China, Guangxi, Hezhou City, 130-140 m, 16 June 1991, Zhou L.S.
& Zeng L. 1263 (holotype GXMI [GXMI050608]). (Fig. 5E-H)

Distribution. NE Guangxi (Hezhou).

Deinostigma eberhardtii (Pellegr.) D.J.Middleton & H.J.Atkins, comb. nov. - Chirita
eberhardtii Pellegr., Bull. Soc. Bot. France 73: 418 (1926). - Primulina eberhardtii
(Pellegr.) Mich.Mdller & A.Weber, Taxon 60: 782 (2011). - TYPE: Vietnam, Thua
Thien-Hue, Baika, Eberhardt 2466 (lectotype P [P00602512], designated here;
isolectotype VNM).

Distribution. Vietnam (Thua Thien-Hue and Da Nang).

Notes. This species has not been included in molecular phylogenetic analyses but has
been transferred to Deinostigma based on its morphological similarity to Deinostigma
poilanei.

An expansion oi Deinostigma

157

Fig. 5. Deinostigma cicatricosa (W.T.Wang) D.J.Middleton & Mich.Moller (A-D) and D.
cyrtocarpa (D.Fang & L.Zeng) Mich.Moller & H.J.Atkins (E-H). A. Habit and mature fruits.
B. Flower cut open. C. Flower top view. D. Flower front view. E. Habit. F. Mature fruits. G.
Flowering branch. H. Flowers front view. (Photos: A, B, E, F: M. Moller; C, D, G, H: Yi-Gang
Wei)

158

Gard. Bull. Singapore 68(1) 2016

Deinostigma minutihamata (D.Wood) DJ.Middleton & HJ. Atkins, comb. nov. -
Chirita minutihamata D.Wood, Notes Roy. Bot. Gard. Edinburgh 31: 370 (1972). -
Primulina minutihamata (D.Wood) Mich.Moller & A.Weber, Taxon 60: 783 (2011).
- TYPE: Vietnam, Kon Turn, Ngok Pa Not, 2300 m, 12 December 1946, Poilane, E.
35803 (holotype P [P00602518]; isotype P [P00602519]).

Distribution. Vietnam (Kon Turn).

Notes. See notes under Deinostigma cicatricosa. This species has not been included in
molecular phylogenetic analyses but has been transferred to Deinostigma based on its
morphological similarity to D. cicatricosa and D. poilanei.

Deinostigma poilanei (Pellegr.) W.T.Wang & Z.Y.Li, Acta Phytotax. Sin. 30(4): 357
(1992). - Hemiboea poilanei Pellegr., Bull. Soc. Bot. France 73: 421 (1926). - TYPE:
Vietnam, Khanh Hoa, Nha Trang, 300 m, 29 May 1922, Poilane, E. 3846 (holotype P
[P00606338]; isotype P [P00634330]). (Fig. 6A-E)

Distribution. Vietnam (Klianh Hoa, Thua Thien-Hue and Da Nang).

Deinostigma tamiana (B.L.Burtt) D.J.Middleton & H.J.Atkins, comb. nov. - Chirita
tamiana B.L.Burtt, Gloxinian 49(4): 20 (1999). - Primulina tamiana (B.L.Burtt)
Mich.Moller & A.Weber, Taxon 60: 785 (2011). - TYPE: Originally collected as
Soviet-Vietnam Expedition 0/114 from Vietnam, Vinh Phuc, Tam Dao National
Park, cultivated in RBGE under accession number 1998 1743* A, vouchered for the
herbarium as CULTE 15738 (holotype E [E00269898]). (Fig. 6F-J)

Distribution. Vietnam (Vinh Phuc, Tam Dao NP).

ACKNOWLEDGEMENTS. We are grateful to R. Rybkova for providing plant material of
Deinostigma poilanei; the horticultural staff of the Royal Botanic Garden Edinburgh (RBGE)
for the cultivation of research material, pailicularly S. Barber and A. Ensoll; S. Barber for
photographs of Deinostigma poilanei; and the Science Technical Services at RBGE for
access to laboratory facilities and their support of the molecular and morphological work. We
acknowledge financial support from the Percy Sladen Memorial Fund (2006) and the RBGE
Foreign Travel fund (2006; 2007), and the Guangxi Natural Science Foundation (2015GXN
SFBB 1 39004/20 15GXNSFBA 139 105) for fieldwork, and the Museum Nationale d’Histoire
Naturelle for funding DJM’s visit. The research of DJM in Singapore Botanic Gardens is
supported by the National Parks Board, Singapore. The Royal Botanic Garden Edinburgh is
supported by the Rural and Environment Science and Analytical Services division (RESAS) in
the Scottish Government.

An expansion oi Deinostigma

159

Fig. 6. Deinostigma poilanei (Pellegr.) W.T.Wang & Z.Y.Li (A-E) andZ). tamiana (B.L.Burtt)
D.J.Middleton & H.J.Atkins (F-J). A. Habit. B. Flower side view. C. Flower front view.
D. Immature fruit. E. Mature fruit. F. Habit. G. Flower side view. H. Flower front view. I.
Immature fruit. J. Mature fruit. (Photos: A, B, C, F-J: M.Moller; D, E: Sadie Barber)

160

Gard. Bull. Singapore 68(1) 2016

References

Akaike, H. (1974). A new look at the statistical model identification. IEEE Trans. Automat.
Control 19: 716-723.

Averyanov, L.V., Phan, K.L., Nguyen, T.H. & Harder, D.K. (2003). Phytogeographic review of
Vietnam and adjacent areas of Eastern Indochina. Komarovia 3: 1-83.

Cao, L.M., Cao, M., Tang, X.L. & Wei, Y.G. (2003). Chromosome numbers of 4 species in the
Gesneriaceae from Guangxi. Guihaia 23(4): 331-333.

Christie, F., Barber, S. & Moller, M. (2012). New clii'omosome counts in Old World
Gesneriaceae: numbers for species hitherto regarded as Chirita, and their systematic
and evolutionary significance. Edinburgh J. Bot 69(2): 323-345.

Doyle, J.J. & Doyle, J.L. (1987). A rapid DNA isolation procedure for small quantities of fresh
leaf tissue. Phytochem. Bull Bot. Soc. Amer. 19: 11-15.

Doyle, J.J. & Doyle, J.L. (1990). Isolation of plant DNA from fresh tissue. Focus 12: 13-15.
Farris, J., Kallersjo, S.M., Kluge, A.G. & Bult, C. (1995a). Constmcting a significance test for
incongmence. Syst. Biol. 44(4): 570-572.

Farris, J., Kallersjo, S.M., Kluge, A.G. & Bult, C. (1995b). Testing significance of incongruence.
Cladistics 10(3): 315-319.

Huelsenbeck, J.P. & Ronquist, F. (2001). MrBayes: Bayesian inference of phylogeny.
Bioinformatics 17(8): 754-755.

Huelsenbeck, J.P., Larget, B., Van der Mark, P., Ronquist, F., Simon, D. & Teslenko, M. (2007).
MrBayes, ver. 3.1.2. Bayesian Inference of Phylogeny. Application program distributed
by the authors under the GNU General Public License, http:// mrbayes.csit.fsu.edu.
(accessed on 30 Mar. 2016).

Jong, K. & Moller, M. (2000). New chromosome counts in Streptocarpus (Gesneriaceae) from
Madagascar and the Comoro Islands and their taxonomic significance. PI. Syst. Evol.
224(3): 173-182.

Kang, M., Tao, J.J., Wang, J., Ren, C., Qi, Q.W., Xiang, Q.Y. & Huang, H.W. (2014). Adaptive
and nonadaptive genome size evolution in Karst endemic flora of China. New Phytol.
202(4): 1371-1381.

Liu, R.R., Pan, B., Zhou, T.J. & Liao, J.P. (2012). Cytological studies on Primulina taxa
(Gesneriaceae) from limestone karsts in Guangxi province, China. Caiyologia 65(4):
295-303.

Middleton, D.J., Atkins, H.J., Luu, H.T., Nishii, K. & Moller, M. (2014a). Billolivia, a new
genus of Gesneriaceae from Vietnam with five new species. Phytotaxa 161 (4): 241-269.
Middleton, D.J., Leong-Skornickova, J. & Nguyen, Q.B. (2014b). A new species of Billolivia
(Gesneriaceae) from Vietnam. Card. Bull. Singapore 66(2): 189-194.

Middleton, D.J., Nishii, K., Puglisi, C., Forrest, L. & Moller, M. (2015). Chayamaritia
(Gesneriaceae: Didymocarpoideae), a new genus from Southeast Asia. PI. Syst Evol.
301(7): 1947-1966.

Moller, M. & Cronk, Q.C.B. (1997). Origin and relationships of Saintpaulia (Gesneriaceae)
based on ribosomal DNA internal transcribed spacer (ITS) sequences. Amer. J. Bot.
84(8); 956-965.

Moller, M., Pfosser, M., Jang, C.G., Mayer, V, Clark, A., Hollingsworth, M.L., Barfuss,
M.H.J., Wang, Y.Z., Kiehn, M. & Weber, A. (2009). A preliminary phylogeny of the
“Didymocarpoid Gesneriaceae” based on three molecular data sets: incongruence with
available tribal classifications. Amer. J. Bot. 96(5): 989-1010.

An expansion oi Deinostigma

161

Moller, M., Forrest, A., Wei, Y.G. & Weber, A. (2011). A molecular phylogenetic assessment
of the advanced Asiatic and Malesian didymocarpoid Gesneriaceae with focus on non-
monophyletic and monotypic genera. PI Syst. Evol. 292(3-4): 223-248.

Moller, M., Chen, W.H., Shui, Y.M., Atkins, H. & Middleton, D.J. (2014). A new genus of
Gesneriaceae in China and the transfer of Briggsia species to other genera. Gard. Bull.
Singapore 66(2): 195—205.

Moller, M. & Pullan, M. (2015 onwards). RBGE WebCyte2 - An updated Gesneriaceae
cytology database, http://elmer.rbge.org.uk/webcyte/webcyteintro.php (accessed on 30
Mar. 2016).

Nixon, K.C. (1999). The parsimony ratchet, a new method for rapid parsimony analysis.
Cladistics 15(4): 407-414.

Nylander, J.A.A. (2004). MrModeltest v2. Program distributed by the author. Uppsala:

Evolutionary Biology Centre, University of Uppsala.

Sikes, D.S. & Lewis, P.O. (2001). PAUPRat beta software, ver. 1: PAUP* Implementation
of the Parsimony Ratchet. Computer program distributed by the authors. Storrs, USA:
Department of Ecology and Evolutionary Biology, University of Connecticut,
Swofford, D.L. (2002). PAUP*: Phylogenetic Analysis Using Parsimony (*and other methods),
ver. 4. Sunderland, Massachusetts: Sinauer.

Taberlet, R, Gielly, L., Pautou, G. & Bouvet, J. (1991). Universal primers for amplification of
tlnee non-coding regions of chloroplast DNA. PI. Molec. Biol. 17(5): 1105-1109.

Vu, N.L., Pham, H.N., Nguyen, T.V. & Luu, H.T. (2015). Billolivia tichii (Gesneriaceae), a new
species from Vietnam. Phytotaxa 219(2): 190-194.

Wang, W.T. (1981). Notulae de Gesneriaceis Sinensibus (II). Bull. Bot. Res., Harbin 1(4): 35-
75.

Wang, W.T. (1985). A revision of the genus Chirita (Gesneriaceae) in China (II). Bull. Bot. Res.
5(3): 37-86.

Wang, W.T. & Li, Z.Y. (1992). Genus novum Gesneriacearum e Vietnam. Acta Phytotax. Sin.
30(4): 356-361.

Wang, W.T., Pan, K.Y., Zhang, Z.Y. & Li, Z.Y. (1990). Gesneriaceae. In: Wang, W.T. (ed) Flora
Reipublicae Popularis Sinicae 69: 125-581. Beijing: Science Press.

Wang, W.T., Pan, K.Y, Li, Z.Y, Weitzman, A.L. & Skog, L.E. (1998). Gesneriaceae. In: Wu,
Z.Y. & Raven, RH. (eds) Flora of China 1 8: 244-401 . Beijing, China: Science Press and
St. Louis, Missouri, USA: Missouri Botanical Garden Press.

Weber, A., Middleton, D.J., Fomest, A., Kiew, R., Lim, C.L., Rafidah, A.R., Sontag, S., Triboun,
R, Wei, Y.G., Yao, T.L. & Moller, M. (2011). Molecular systematics and remodelling of
Chirita and associated genera (Gesneriaceae). Taxon 60(3): 767-790.

Weber, A., Clark, J.L. & Moller, M. (2013). A new fonnal classification of Gesneriaceae.
Selbyana 31(2): 68-94.

Wood, D. (1974). A revision of Chirita (Gesneriaceae). Notes Roy. Bot. Gard. Edinburgh 33(1):
123-205.

WWF (2015). Greater Annamites Ecoregion. World Wide Fund for Nature, http ://wwf panda.
org/what_we_do/where_we_work/project/projects_in_depth/greater_annamites_
ecoregion/ (accessed on 15 Dec. 2015).

162

Gard. Bull. Singapore 68(1) 2016

c/2

CO

■of

(N

OO o^

CO

oo

H

o

oo

o^

^ o^

CO

o^

"—I

00

HH

CN

(N

o^

CN CN

CO

o^

CO

oc

u

o\

o^

(N

o^ o^

CO

CN

CO

CN

o

zn

C/2

[_y

d"

CO

pp

d-

CO

P-H

CO

)-0

a

d" d"

CO CO

pp PP

o

in

CO

CO

a

o

in

CO

CO

a

HH

HH

'

<

<

ffi

'

cx

pp

ffi

'

Pp

ffi

in

CO

.— I

C3^

O

Oc

oc

o

O

00

OO

d-

oo

in

d"

m

CN

(N

in

(N

.-H

H

H

CO

CO

.-H

CO

Jj

o

O

O

CO

CO

o

CO

1

in

Pm

,

m

pp

in

P^

Ph

,

a

ffi

a

ffi

in

Pp

,

a

ffi

I ^

>:§ B

cd ^ Sh

u ^ B

d

Q

aj

d

,s Cti

§ 'Sj'^

'm ti

_r I—*

gxc

C3 cc
(U -o

B

M _W)

JS ^
"3

B ^

c3 o
^ JJ

^ u

r .

Cu o

«' ,J_,

t» -T; (U

<1^ 3

S T3
pj <u
cx S o

13 ^ w

&H PLh ^

r-. cs

CO ^ CO

<U ^ (D

.3 § .3

Cl- ^ ci-

.e-H

o

. 3 ^

</)

o .s
a

a>

Q

W W

w w

o o.

rv CO
O

-m GO

.3 H

H "73
(U !C

's -I

3

53

O o
c^ cP
^ n
o ^

.3 si
c .2

CO ;/3
(U M

n w
^ o

(N O
m

<D d
-d d

PP

J T3

. d

^ d

« d

^ ’3)

e2 '§

c3 ^

CO

S 00
12 -5

Co OJ
S ^

'b

02 d

Cu

\f- cn
CO -H
00) lo

^ o^

Co o
S ^
-02 1=!
'*~i cO
S2

u

g d-
CO r-j
Co CO

q; S

-CO

o

oo

. On|
co^ O
CV) oo
oc
iP oc

»N .-H

00 m

g;s

|S

^ IS

feq u

03

01

o g

^ d

:cPP

d j

(N

oc

£ SIS)
^ °o

^ w

o:o

l§

“^3

03

01

^PP

G i-i

^ 3
^ PP

OP

t)«

Agalmyla clarkei (ElmQr) RBGE-PNH1999(P99) 13 E Philippines, Leyte Island, FJ501540

B.L.Burtt [Cult. RBGE 19991911] Mt. Lobi

Agalmyla clarkei (Elmer) RBGE-PNHl 997 IS26 [Cult E Philippines, Luzon, - FJ501360

B.L.Burtt RBGE 19972530A] Barangay Penicuason

Agalmyla glabra (Merr.) Hilliard RBGE-PNHE 1999 28 E Philippines, Camiguin HQ632892 HQ632989

& B.L.Burtt Island

Agalmyla paucipilosa Hilliard & Smith & Galloway 261 E Indonesia, Sulawesi, Mt. HQ632893 HQ632990

B.L.Burtt Ranteinario

An expansion of Deinostigma

163

. — 1

O

'd-

(N

m

in

so

so

OS

os

m

(N

.— (

.— (

r-

os

os

os

os

o o

o

SO

1— I

T— (

1— I

<— (

os

os

(N

(N

(N

m

m

in

in

in

in

(N

(N

m

m

m

l/q lyq

m

.-H

oo

00

oo

00

m

m

so

so

so

o o

so

o

os

os

os

os

so

so

a

a

a

Ph Ph

a

in

a

a

ffi

ffi

ffi

pp

' 9

IH

X

X

'Sf

i^

o

r^

00

OS

O

os

os

OS

os

oo

m

m

(N

o

o

.-H

OS

oo

00

oo

'sf

os

i—i

1—1

1—1

oo

oo

(N

(N

(N

»n

Cd

in

in

in

in

in

rs|

rs|

m

m

m

m

H

oo

00

oo

00

m

m

so

so

so

o

so

o

Os

os

os

os

so

so

a

a

a

in

a

m

a

a

X

pp

X

' 9

P-H

X

' 9

Pm

pp

X

c/l

(O

I

CO

03 ^
• ^
c/2

o

c

w

o

CO

a

r\

•

X

ao

=s Et'

§ 2

• ^

u

pq

0

o

N

M)

fl

O

hP

rs

• ^

X

OT)

s &
o «
^ s

C3 O

o

Q.

cd

• ^

X

60

o3

§

• ^
(U

a

w

g'

'.'J

O s i/5

r. r.

cd' O cd’

§

S)

cd

-G

G3

_

G3

u

u

u

u

pp

HH

rs

m ^

Ph g

' pp

HH

rs

W

Ph

rs

w

rs

W

uS

I

I

Ph

cd O
d CJ

C3,

c o 3
□ ■■So
^ CQ -K

s

D Z.
o
c

S Q

cd

h-1

s

cd

B

■;>

w

cd

c td
o

cd

Q

cd

PQ

cd

>

O

cfcz

!>

2 O -M
I— 1 C

-•r ‘51!
> +->

S P -52

G cu Q

<u

■;>

w

G

PP

G

Ph

o

G

Q

• ^
A3

o'

o

G

Id

G

_o

rs

6X)

G

o

ts

60

G

G

t/3

60

G

O

S

td

a

o

G

O

CJ

H

^ n
G

CQ

Gh

G

S

a

G

hP

H-»

C/5

5

60

cf

60

G

O

A3

g

r".

G

G

.a

+-•

B

2

B

G

p

u

o

C3

PP

G

G

G

G

o

G

G

+-»

rs

G

G

Cu

g'

G

O

o

o

o

• 1-H

• iH

A3

• ^
A3

>

>

U

u

w

w

pp

pp

>— (

w

fN

Co

fN

I

A3

•-.6 <0

-I

•o

• •*>•»

O)

63

•o

*0

I

G3

•--r oo

“a§
S' o

cu ^
!0

tN-

O)

"a

oo

C=3

6S

~s;

SpQ

§03

r’^ ^

1.^

Sr '>4

s

s

Oo

Os

<]

Co

o

o

K

63

< ^

SpS

o op
^ q

^ o

^ §

^i:c5)

S

S

fN

'd-

s

Q

sf

o

'♦-N*

iSr-

Po

K

t2

>6

^ rv-5

I

OO

66

50 ^

•o

0^

n3

c3

5

-2 PP

1'^'

CQ

2

c>o

60

' G
O

tzi

d3

•2

S3 S
.'^ >

63

§

* ^xi

8)

H'

^Pd

SJ^ ^

£ S

X)

60

03

'o

Ph

63

^ §

* ^X*

63 C

^ >h'

1

g*

63

G 60

^ a

C63 00
s2 C

•336 G

S

a

53

O

•S' -‘-‘
Soii

G T3
O -td

:§^.N

a!(OE

^ •

•5Ph

"o ^

•’'*«* ^
pp

i

O H- 1

S:

-S6

s

.2^

H

•t»i^ Z

X ^

63 ^

pxi ^

2PP

63

S3

S3

• rx*

Qp

c/3

G

‘s^

Pd

i|§

36 po
32 03

P*^ 1— ^

•6: -a

•2^

So

•

cp

.J

1=^

2;

O

G

O

C 03

+»a

63 Tj

'2: 'O
.S§

H-:

•p-i ;

30

G
O
-<— >
03

TD

AS

63

63

63

63

c/3

G
» ^

<c

Pp

G3

CJ

£

>)

op

g-l

op

Pd

I

U

63

I

5

164

Gard. Bull. Singapore 68(1) 2016

in

(N

CN

(N

in

in

in

(N

(N

(N

m

m

m

(N

(N

NO ^

in

NO

NO

OO

(N

o

O

(N NO

m

ON

ON

NO

NO

'd-

o

00 00

in

(N

in

(N

m

in

in

m

m

oo 00

m

m

(N

m

CN

(N

(N

i-H

m

'O

i-H

NO

i-H

i-H

i-H

o

NO

00 oo

o

a

2

ON

Cp

s

a

2

ON

Cp

H-5

ON

Cp

ON

Cp

in

Cp

a

2

>H ^

in

*—>

Cp

m

m

in

(N

m

Ph

m

in

(N

m

CIh

(N

CO

00

ON

in

in

in

o

<N

o^

m

OO

m

ON

m

CN

in

m

in

in

in

CN

in

CN

CN

<N

I-H

CN

(N

(N

I-H

m

I-H

G^

i-H

o

^H

I-H

^H

o

NO

o

^ ’ 1

,

On

m

On

ON

ON

in

cy

in

HH

2

c

Cp

*—>

Cp

Cp

*—)

Cp

Cp

2

*—>

Cp

■o

m

m

(N

o

C3

z;

!=1

o

C

r^H
• ^
c3

H

Ph

2 :

o

03

O

2

SP

o

pp

2

r'

T3

a

43

•

03

PP

H

Ph

2

• ^

o

03

C/D

S-i •■
(U ^

Ph D
- ^
.2 ^
c/) 03

-2

13

03

PX) .

“oi

O Ph

!-i .

2

C3

- 3?

os iP

2

>D !U
03 H^

13

§

I

CP

zn

Oi

p

CP

CP

GO

§

03

too

too

sP

vh Pp
P Ph

3 03

'5? a

43

C/D

•N

iH

OJ

C/D

o3

Pp

r\

too

§

Ph

r-,

03

’c«

>>PP

03 2

13

C/D

Sh

(U

C/D

oS

Ph

too

SP

cd

PP

os

Ph

•>,

2

^2

o3

2^

» ^

13

o

SP

o

pp

§

(P»

o

2

o
• ^

(73

I-

g3

p4'2

o3 Vi
^ »-
P* PP
Cp <u
- ^
.2 >?
M 03

s-s

13

2^ ^
w o

• 1-H H

O o3
O ^
CO H

ry3 ^
<U

O ,-OS

CP H

pp

CJ

fl

(U

pp

" o
2 U

W

W

W

W

Ph

w

12

w

GO

4

W

in

Q I
o §

oo

'o

*n

(P

s

K

O

-Hi

Ip

o

fN

in

>3

-Hi

P

s

Ci

s;

o

-Hi

P

in

oo

Pto

00

p

hCS

1

*0

u

K

00
On
On

1

cq

op

t\.

On

*0

U

s
ci

si

O
P

§

P

;q

in

§

fN

Oi

oo

o

Oo

« •.
»«•»

p

-Cs

hP

p*

op

u

s:

a

p

3

•^oi

fo

p«;

O

•2 03

op
3 2
3

I'Q

S

SP

o

G

O

H->

3

a>

o

<u

3

• ^

s ^

^ ^

3
* ^

s;

1?

§s

3

o

SO ^

♦ •

SO

3

3

<5

O

Si

Ҥ

ICI ^ (U
3 PC ^

X , , 0)

3 ±P =5

3

• 1-H
2

o

p

sP

o

-l->

4h

|3

tools

*>«iA •

t!^

1-4

:2U

l+H

p4

o

0

2

3

3

1

t3
• ^

2

o

OJ

• t-H

GO

*

3

3

O

r«^

3

3

3 O
O O
45 O
^ N

2=^

Cj

(U

U

m

u

•

too

3

3

P

1

2

op

• ^

2

Cp

3^

P

33

3

2

X

(U

Vi

1

m

2

3 d
too ^

2 r H

"3 2

3 Cp

s o

d'

An expansion oi Deinostigma

165

in

os

o

in

os

(N

m

' 0 |-

os

oo

OS

os

os

os

in

00

CN

oo

oo

oo

os

Os

m

o

o^

o

o

o

os

os

os

os

os

os

o

os

os

os

os

0

O

in

X

><!

P

P

P

W

W

PP

X

r>

r-

o

o

so

00

r--

in

oo

00

oo

00

os

m

m

oo

oo

oo

oo

<N

in

in

o

00

o

o

o

m

T—i

T— (

os

os

OS

os

so

o

o

os

o

os

os

os

a

in

in

X

X

X

1 Pp

Pp

X

Oo

On

£

On

On

K

K

U

*A

Oo

< 0 )

<N

On

.m

^ >

^CQ

I®

=S

20

oy

I

05

.

^ o

O'O

Co

Oj

K'ii

O

•-0 Oo

»3g

■I

02 ^

•O

Q:^

-o

o

c/3

O

ffi

o

K

K

O

§

I

K

I

CJ-

O

c/3

o

X

o

K

K

O

§

I

o

g

cj-

c 3

|j^

s X
~2 o

s: ro
CJ'

(U

o O W

"i

§

I

K

cS-

u

O

-(->

D

O T3
>1 •^^

O

■(«<i

o

.o

o

o

2^1 r-

o H

>v

o

o
• ^

<23

Q

c

o

T 3

lg

ss

O

O

• "Xii

o

Q

&i)

a

03

!-

a>

:0

E&s

.b«

!>3

o

H ^
o

'ii

CcO

Ph

&M

o lo

2 -

KS

c/,

2

s; o

S

Q

u

CcO

13

CIh

s >-:

^ N

’5

^ CUD

s

Q

'H iXi

§ .a

m ^
o <
pq H

■ 'X

o
o
>->
JJ

o ^
»*•. • ^

J? ^
K o’

•

Q

o

K

O

• 1^

o

19973431/19981743]

Didymocarpus antirrhinoides Jong, K. 9009 [Cu\t. RBGE E Malaysia, Perak, Bujong FJ501513 DQ912671

A. Weber 1 9650167] Melaka, Ipoh.

Didymocarpus citrinus Rid\. Davis, P. 69437 [Cult. E Malaysia, Perils, Kedah AJ492293 DQ9 12669

RBGE 19830510] Peak

Card. Bull. Singapore 68(1) 2016

m

(DO

(N

CN CO

d'

(DO

(ps

0

m

d'

(DO

(DO

0

d'

d-

10

m

(PS

OS

(ps

0

so

in

(DO

so

SO

SO

0

(ps

(PS

0 0

so

(PS

OS

OS

0

in

in

(PS

(N

(N

<N

m

(N

(N

10 ^

m

(N

<N

(N

m

m

m

(N

l-H

f-H

t-H

m

m

ro

lyp i/p

t-H

m

m

m

m

f-H

F— (

m

(PS

(PS

(PS

so

so

so

0 0

0

so

so

so

so

0

0

so

a

a

a

a

a

a

Ph PLh

ITS

a

a

a

a

in

in

a

Q

Q

Q

X

X

X

<<

P

X

X

X

X

P-i

P-i

X

in

so

0

(N

CO

so

(N

0

d-

r-

in

'Cj-

0

0

0

0

'Cf

CO

(DO

G^

OS

(DO

(DO

'Cf

CPS

os

CPS

CPs

CO

CO

C50

CN

m

m

(N

(N

<N

in

in

(N

(N

IN

(N

in

in

(N

CN

■— (

CO

CO

CO

y-^

I— I

CO

CO

CO

CO

CO

G^

0

0

so

SO

so

0

0

so

SO

so

so

0

0

so

in

h^5

in

hX

a

a

a

in

h^

in

4 ^

a

a

a

cy

in

h^5

in

4 ^

a

<

P

pp

X

X

X

Pp

Pp

X

X

X

X

Pp

Pp

X

^ K

cn

S-H ''
(U ^

CLh <d
- ^
.2 k

c /2 C3
C3

H t'

>H C
« O

c ^

00^

^ o o
00 o

■g S'S

O g*

1—*' rrt' S

S c
cx

(L> X

z o

(50 C

c ^
O o

T3 O

M c
S

§ s

O ^
n ^

• r-^

o

a

cc

3 ^

^ R
c ^

(50§ ^

I

(50 fi (50

s S c3

o 3 ?3

'o 3

u g o §

ccf 17 R

C z pH o

• »-H • »-H

u u

X

(50

c

2 >.
5 '•-’

o §

cd O

c

U

X

(50

G

=i -P

o §

O

si ^

^ R

(50 ^

d o
o ^
ps^ 00
3

X y

3^
O §

o

d

§

CCj '53

O rH

d

^ s

55

f\ rv

CC3 (5i

d d

• ^ ^

41 41

u u

rs

W p

cx X

>4

w

w E9

CQ

HH

uS^

r\

w

w

s;

S3

a •^-.

4:i

•R* <5^

w

“==

“B§

S' o

SD ^

1:2 ^

•o

;:3

.

■o

•-4 rr)

“8§

^'2

01

0^

. . <N

X 4 :

^2§

“8§

so

t-S

I g

P rN

PI -H

s

N ^

Irr

.

is

N’ ^

s

S

o

o

Cl,

Co <U
S 4^

'***■ r V

"*»■ r- <

P (50

• d

Q I

Co S ^

i ^ h-:

13 -45
S3 Q

^ 2^ 5-*

-SPri

S3 -d O

SJ Co •

o o CO

S 5 c j

* l«^ ■

q q

s:

•SP^

iX

S2 sh

33^

p o
^ 41

.C 3.3

17^

d 41 ^

4 ^

41

d P

'S!

x ;>
■do^

S3

CO EX

s 5r
Is c^
S c;

Cl Ei-.
rTi

I >

"ti (50 (50
CO S S

H‘ H’

o

P d
■d >

C 30 (50

Co S 3

III

■42 H H

pS's;

,(U p

P H
ffi ^

3

X -d

o ^
43 44

S3 S3
X X
O O

43 -d

•*^ *1^

S S

SU X

An expansion of Deinostigma

0

SO

d-

in

OS

d-

00

00

r--

SO

os

so

so

d-

so

00

SO

os

0

oo

os

in

OS

d-

OS

os

in

os

<N

(N

OS

in

1— I

(N

(N

m

(N

in

(N

(N

in

(N

cn

m

(N

m

in

m

m

>— (

m

(N

m

m

(N

m

I— I

m

I— (

00

so

so

0

so

.— I

so

so

1— I

so

0

0

so

0

os

a

a

in

a

os

a

a

os

a

in

in

a

in

ffi

ffi

td

X

td

*—>

X

X

td

X

td

td

X

Ph

m

d-

0

o^,

m

00

00

in

r--

(N

r-

so

so

^-

(N

r--

00

00

00

m

00

(N

00

00

<N

00

Os,

OS

00

ro

0

(N

(N

in

(N

m

(N

d"

m

(N

d-

d-

(N

in

in

m

m

1 — 1

m

(N

m

(N

m

>— I

1 — (

m

i-H

1— (

so

so

0

so

1 — 1

so

0

^H

so

0

0

so

0

0

a

X

a

X

in

Gj

PM

a

X

OS

Ph

a

X

m

•— j

Ph

OS

pp

a

ffi

in

Pp

in

*—>

Pp

a

X

in

PP

in

*—>

Pp

• ^

O ^

fin Cj ^

cd ^ .S3

OP

r\ r\

• 1-H ^ ^

X o X

0P7 OP

^ ^ OS ^

O S O S

d' o ^ R

• ^ ^

4:3 -Q

U U

OP ^
C o
•?4. '-*

OP ^
c ^

J-s,

6 g

U o,

^ D

-d

c to

c/5

CO

H

S -3 s

>—1 t/5 CO G CO

d (u d d ^ O

-dd d-Pco-ti d-!^
^ g > g

^ ^ S d CJ r d

>>
CO GO
CIh

u

ct O CO n cO ®

Vs e \ t'V ^i»x

d ^ J

_d

U

^ r
i 2 ^ '+-5

(-’"'Ph

^r-^ d ”

id § ^

“ !<
!z ^ ?
^ *'■ ^
_r co ' I

• S H ^

d ^

^ u

cO

-iO) (U

d 5 >

^ d G

8 ^ P

dD ^ <5
§) c/5 it
1^ lo ^

dn

Z

CO

CO W
d ^

CO CO

c /5 QJ
co'’

CO U-

rO ^
d CO

r,T3
CO O

^ u

co'

'm q

S-S

o "
’d
d

§

d

S 5^

iS I

^ S
• ^
d3

u

w w

^'2

’~~i

CNi

s:

^ ^ VO
• Spd Os

^ ^ ^
o

"5 ^

tlTl

W o

S ^ -Q

«|s

O cj

OJ S

C-> S
d .

cO d1

ffi.R

o d

“53

Q s,

:§§

~!< ^

Q

s:

dO

C§=^

d

■O o

Co -t-i
0)

> dO
rO I2
^ Tt

do . >3

•2 W -2

vj n

^ <X)

:§:§

2<

OP

d

<u

Sh

C/5 ^

> Q

2 :2

;s

- d

•2 d

•2 "S

Q

Pst ;

2 0

PsC 'd

s; ^

cs <u

<5 d^

ts

I'd

~o

2

G

1 §

2 CLh

O

§

168

Gard. Bull. Singapore 68(1) 2016

'O

in

CN ro

oo

o

oo

o

(N

ic\ ro

>— I

r--

'O

in

1— I

o

m

o

m

rsi

m

Os

Os

(N

in

(N

m

m

m

m

0\ C^

m

<N

CN

m

in

m

m

I— I

m

I— 1

I— I

m

m

I— I

(N

I— I

o

o

CO CO

o

'sO

o

1— I

o

a

ffi

in

Pm

a

X

in

5

P-H

in

>—i

Ph

a

X

a

ffi

in

Pp

o^

Pp

in

t— >

Pp

o

oo

CO

00

m

r--

NO

(N

oo

r-

o^

o

ON

ON

ON

ON

oo

oo

(N

oo

CN

in

CO

(N

in

m

t-H

(N

t-H

t-H

t-H

m

t-H

(N

'sO

o

o

o

o

o

NO

o

o

a

X

in

Sc

in

in

in

in

a

X

in

ON

m

pp

Pp

Pp

Pp

Pp

Pp

Pp

•— s

P^

Pp

X 3

B &

^ i

O §

cC O ^

c ^ 3

z a

cB.

o

O

"h^
O '

X S'

C -C
3U

& C >i 4=1

u u

o

rv

*

o

X

1

GX)

0

c3

P

CG

'O! ^

m (j

o

§

>> O

3

o

-3 P=H

o

o

3

• ^
413

Ch C 3

• ^

413 4=1

u u

3 w

so

^ s ^ cc ^

^s3igS2:

K

|S

‘X3 \C)
tvjf^

5 ^
.^0\

K W

•2S
^ S

rvi

g 'so ^
.SP<=N O

O) 6^

§

=o =o

ss

^ FT

2- d ''^

K :s 'i) ^

rOl =>5 l-r

■f; a gm

= ^^=c
^ ^ 3

^9

"Cl

OC c3
!3 P4

?>''

^ SJ

•F l-M
O

o H'
.2?

C GO

-iG S

^ L_J

13^

O ^
o c
SG =i

"C QQ
C .

■Sc

£p

(Stapf) Yin Z. Wang 20000897

A'ficrochirita sericea {Rid].) Rafidah, A.R, FRI 64328 KEP Malaysia, Kelantan, IF912548 JF912521

A. Weber & Rafidah Gunung Reng

An expansion oi Deinostigma

169

in

in

0

S'

'5f

0

m

04

0

00

0

1— (

CN

(N

I— I

1— I

.— I

m

04

S4

04

00

in

50

0

0

S'

0

0

0

0

0

0

0

0

in

in

in

m

m

in

cn

m

m

m

m

m

m

m

m

(N

(N

m

m

S'

m

m

m

m

CO

m

m

m

I— I

1— I

.— I

50

50

05

50

50

50

50

50

50

50

50

0

03

05

a

a

50

a

a

a

a

a

a

cx

a

in

Pm

Pp

ffi

ffi

P4

ffi

ffi

ffi

ffi

ffi

ffi

ffi

m

Pp

On

05

00

00

S'

50

m

1 — I

m

. — 1

04

'Ct

^H

04

>-H

m

04

04

04

G"

S'

m

cn

05

05

00

05

05

05

On

05

05

05

On,

cn

in

in

04

04

m

04

04

04

04

04

04

04

04

in

04

04

m

m

S'

m

m

m

m

ro

m

m

m

i-H

l-H

T— (

50

50

05

50

50

50

50

50

50

50

50

0

05

r-r

05

r-T

a

a

50

r-r

a

a

a

a

a

a

a

a

in

Ph

ffi

ffi

pp

X

X

X

X

X

X

X

X

Pp

g

S

0

to

s

Dfl

S

0

0

CCS

• ^
_rH

to

G

to

0

G

to

G

G

0

G

4=1

1

X

Ph

B

Q

N

G
• ^

N

0

T3

G

•

oa

0

• ^
■ 5 ^

t/3

ca

rH

G

G

0

CJ

GO

si

0

4P

k. J

cc3

4=1

H- *

03

GO

Ph‘

#5

1

#s

X

to

G

H-J

•\

M

S

0

TD

r^

• ^

X

X

G
» ^

r>

G

g

Ph

Cn

G

0

'oo

Q

cs

rH

G
• ^

r\

• ^
4P
GO
*\
0

0

Ph

CN

• ^

X

G

4=1

GO

CN

• ^
X

CN

• ^

X

CN

ca

G

0

xs

r\

Co

00

r'

H

(U

e>x)

s

CCS

S

cd

s

s

:o

30

G

S

s

"S

s

0

r 1

to

G

CCS

G

CCS

C/5

0

>>

-M

G

0

G

G

0

0

G

• S

G

C3

i

;d

a

G

G

:3

ca

G

a

G

d'

ca

G

G

G

d'

ca

G

ca

G

G

G

X

X

s

cd
• ^

C/3

0

s

s

s

s

0

g

0

C3

G

G

m

eg

X

G

G

G

G

0

G

G

a

G

G

0

G

G

a

G

G

r^H

C3

X

ccs'

S

0

0

ccs'

_g

0

50

os'

a

ccf

G

Q

0

50

_G

X

ci'

G

_G

0

0

ci

_G

0

50

_G

0

50

G

0

50

g'

_G

0

50

G*'

_G

hJ

X

13

X

r~|

X

X

'rG

X

(—1

X

X

4—4

H

U

u

u

u

u

U

u

u

u

u

U

u

w

CQ

r\

W

w

w

m

pq

qq

qq

>— (

HH

HH

CN

w

CN

w

CN

w

GO

On

oo

S

ci

sf

0

50

1

5>0

OO

D=:

~sf

Oo

g i

^ ,

qV t\

^2 ^

x:- io:

50

50 ^ 50

•O -o

00

01

53

i-«

50

:0

t\

,

5^

5:35

OJ

s'

53

s

5

o

53

5^

(\

5S)

5C
50
' — »

:0

<05

03

t\

503

ej

. »>
•

K,'^

00

03)

50

'N

ON ^
^ JN

I

S

Co

e)

>0

So

g K,

^ o

lZT^

<0 ^
S3
:0

^3

is

“3^

^52

CO s
S3
:0

;:3

S On

^ o

CO S
S3
:0

00

fN

fN

1

*N

03

Oi

50*'

^ o

c3 <D

SI

o H-:

s

S3

S

g

50

Q

QO

Xi

I

T3 40
"3 5cS

ai X

^5p

ccJ

0 “^
■2d^
53 t-

't-i CD

•S'S

s<d

50 ^

X

00

§

40

U

53

• ^oi

e

§

~s
o

g

O

3; ^
^ .

to 00
50 S3
43 !0

•S3S

50

00

I

U

pq

U

5S

S3

£!

s

~s

50

53

5U

00

^ o

#'i

o

50

S!

s

S3

50

o

g

o

to

II

5h

0)

o

S)

•*^

53

r

50 OD

5^

*

s

-s:

50

o

5i0

I

<

>

0

U

53

-s

s

1

s

~s

50

O

g

O

§

Ph

53

O

S

X %-.

•g^

;§<

&

0-5 S

:0

•»i^

4=

50

50

O

50

to

O

I .

rj 00

n X

t$

■s<

50

^ B

:0
.5^ 5

53 4=1
-s; 50

(, . • ^

5i0

'g

' Uh

(L>

G

X)

(U

|>c

u

s

s

2

4P
50
• ^

5

to

s

CN

-g

g

^H

3

.'O

S!

G

Pp

<u

X

p!

s

~s

1

S

43

CO

0

0

<

5j

0

Su

§

4S

o

.§ d^

tO ju

<0

50

S

* 1^

o

50

s

s

o

50

g

50

O

• »-H
00

d

>"’

00

50

c

cc3

ffi

>1

S

S3

f i

S

§ S

^ g

50

170

Gard. Bull. Singapore 68(1) 2016

m

ov

d-

VO

VO

in

m

d-

^51-

m

m

d-

m

0

in

0

00

in

0

0

0

0

0

0

m

I

m

I

'x|-

m

m

m

m

m

m

m

in

m

in

m

00

m

m

m

m

m

m

m

i-H

00

t-H

00

t-H

t-H

VO

VO

VO

VO

VO

VO

0

ov

0

C3S

0

0

a

a

a

a

a

a

in

X

in

X

in

in

ffi

ffi

ffi

ffi

ffi

ffi

X

X

X

X

X

X

VO

■d-

(N

0

r--

ov

a^

in

d-

d-

d"

d-

m

rsi

d-

m

d"

m

Os

Ov

ov

ov

ov

ov

0

0

G^

0

(N

00

(N

(N

(N

(N

CN

(N

<N

in

in

CN

»n

in

in

m

m

m

m

m

m

v-H

CN

•^H

1-H

VO

VO

VO

VO

VO

VO

0

0

G^

0

0

0

0

a

a

a

a

a

a

in

h“5

in

in

in

h“5

in

in

PC

w

ffi

ffi

ffi

PC

X

X

<

X

X

d

X

GD

C

o

d

X

rv

• ^

X

W)

a ^
^ -P

O

cG O

O

o

N

u

ffi

#N

X

OX)

ct

CS

3

a

r-.

cG ■
C

IS

-I— •

o

-»->

• ^

o

•

411

O

(U

ffi

*N

• ^
X
OX)
d
cO
d

O

r-,

C3

a

•

d

o

N

OX)

d

o

• ^

X

OX)

^

O S

d o
d ^

d

(D

I

• ^

X

o

dH

N

• ^

d

O

d

d

OX)

d

o

r-|

O

o

d

3?*,

■d dci
d^
o >

d

d

d

OX)

d

§

d

I

•N

d

d

d3

t

d

o

cj

U

u

u

u

u

U

X

X

X

X

X

PP

PP

PP

PP

w

»-H

HH

HH

PP

»s

w

rv

w

•s

w

r\

w

HH

d
• ^

OX)
• ^

i-i

o

d

o

d

d

W

§

§

hJ

r\

§

d

d

§

§X

U

GO

§

g

d

d
• ^

d3

u

GO

W

o

o

o

d

’S

d

d

d:

U

X

OX)

d

o

>S>

HH

OX)

d

o

ffi

r\

d

d

• 1 -H

U

w

X

OX)

d

d

d

O

cs

d

d
• ^

U

X

pq

0 X)q

d _r
d g
0.2
M ZJ

o

ffi

d

B

OJ

■^>

d
• ^
o

D ‘d
GO PC

w

e)

<N

I

=>o

^'2 ^2

•o

-I

:0

kN

•d' lo

=Ǥ
S o

7g

Qj s
d2
:0

oi

<N

'VO)

fN

00

X-

S

X

0:^

S

O

X.

o

s

o^

^Ti

Os

Os

Os

s

N’

s'

^3

d

U

In. pr7
00 -H
Os o\

. d-
Kj OS

s W

^pp
^ X

I

d

X'

s

K

•

bo

I

K

O

o

p

cu

0.

c/5

P 3 lO

■- .2

0 =^

•S=^

.>2 ,
to d
S (U

^ •
o Ph

OX) .
d d3
d o

Ph

d

!-h

<U

•2 o

^ <
•2 "Za

S QJ
53) XO

s d ^

c

N ^

53) ^
50

P <

0 0 0

8 — ' jo
S^S

5:0

Ph

Ph

Ph

I

U

o

s;

■§

o

o

g

a.

OX)

I

N

d

•

>

o

>1

s

50

O

ic^

:0

J=i

O

s

■p

o

o

g

5U

d

OJ

("I

U

ffi

j=l

!y:i

X

d

Oh

u

§

2

o

o

g

50

c/2

a

<u

ffi

&v

o

S)*

o

50

s

X

o

5J

g

50

CIh

d

Oh

u

o

>1

o

50

K

o

<0

>1

O

5J

2

0.

X

CD

I

X

u

<0

50

•“***

50

t/i

§

o

o

g

50

tin

X

X

o

g ^

q|

5 <3

'O

53

50

’O

d

d

s

O OX)

ll

•SN

^.s

§ N
N

S~ d

gs

•l«i 4

d

0

1

50

2

bo tx)

2 B

In

An expansion oi Deinostigma

— H

in

m

(N

SO

oo

os

m

'Cf

rsi

(N

OS

o

oo

o

o

oo

O

oo

OO

,-H

(N

m

o^

G^

(N

m

m

(N

(N

m

in

r-

m

r-

— H

m

r--

r--

*-H

oo

oo

o

O

oo

o

so

00

oo

o

os

a

a

:x!

a

in

a

a

a

in

3

Q

ffi

rS

Q

Ph

ffi

Q

Q

Pp

X

00

in

o

OS

in

m

o

''CI-

,-H

o

so

o

oo

OS

o^

o

00

Os

OS

00

oo

(N

(N

(N

00

(N

<N

(N

CN

<N

in

in

r--

m

VO

r-

CN

m

r--

r--

*-H

oo

oo

so

o

o

00

OS

so

oo

oo

o

os

a

a

in

in

a

H-J

a

a

a

in

3

Q

m

►—5

rS

Q

<

pq

Q

Q

Pp

X

I

c3

O

o

&X)

^ rH

^ §
O ^

o g
^ o

(/3

oa

o

P^H

§

Q

• ^

• ^

• ^

• ^

>

Q

.-T iP

•

• ^

CN

• ^

rv

• ^

X

X H

X

X

X

d

X .2

X

X

X

X

Da

Da §

Da

Da

Da

3

Da

Da

Da

Da

3

a o

3

3

3

1 ~ 1

3 ^

3

3

3

3

3

3

^ n

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3"

o

O §

o

o

o

r'

a

o § g

a

o

o

§

o

§

d'

d' 3

d'

rv

3

*N

3

3

3 O o

r'.

C3

rv

3

rv

3

• ^

r^

3

o

_3

•S ^

3

3

3

3

•S

3

_3

rS

3

CJ

3

3

3

3

(U

• *H

3

3

3

3

u

u

u

u

u

>

u

u

u

u

u

W

Ph

pq

w

pq pq

w

Ph

w

pq

w w

Ph Ph

GO

pq

HH

w

On

fN

(O)

•

;q)

>H-

fNi

"O
^ <Oj

02 ^
:0

S

o

op

s;

cS

o

CQ

sf

o

fN

s

•

§ w
gg

^ Cu
. pi

2^

O;: O^.

*0

'^Oi

0

1

>H-

•

K.'iU

’'H

'O

S

•

’'H

'O

02)

N’

>H-

kO

fN

'O

On

oo

IN.

O')

On

^ s

Cl) N^

Oh

0)

Op

o

*r^

>H-

In.

I

02

^ O

CU ^

(U

GD

§

Pm

o
>1

K

ba^

K >H

GJQ

§

N

SP

g

oa

Q ^ g ^ S

W > g ^ >

0 og ;. (d ■

^ C JO <

-iS^^=a

■§ < -s; =« ^

Is if!

1 -a ^x .a

is Ras

oa ,

§=«
o ^

U|

.^.sa

CiJ ^

1~ C

O ^

n !-
§><|

3

• 1^
St

X.

.o

pp

u

s ba

S

.TO

H

Da

5

■SN

Vh

-U

.Di

O

sa

o

Sr*

S

fc

Da

!P

.sD

Da

c

I

H

§ N

^.s

bo,*— V
bp &a
^ c
.5 S

o ^

H

dj

^ 3
•2 '^’

<^1

bo

s

't)

''xi

o

o

o

o

•

r-i

o

PS

X

PQ

3

3

D

J=)

.dJ

<

a

1

Po SP
ts ^

5h

«>i»» ^

s;

■O (u

^ ba tjx)

os S

s; ,'ib jD

.:5

a Q .

sBn

C

a M

s s

o <
.§■&:

0 M Da
g § g

IxS

1 0- tsj

Da

o

.3

H

a

os

S'*

Da
K a

Pi ki
a N

a sp

iP ST
a X

DO

fl

3 DO
Ph g

aS

o N

• »»»i

a
• ^

O

Pd

Q

Si

os

a

’£!

171

172

Gard. Bull. Singapore 68(1) 2016

m

m

<N

m

(N

m

0

0

r-

m

m

m

in

00

0

0

o^

0

0

0

m

CN

m

m

CN

m

m

m

I— I

r^

m

m

m

m

m

m

0

00

'O

'vO

in

a

a

a

a

a

a

a

Pm

Q

ffi

ffi

ffi

ffi

ffi

ffi

(N

00

o^

r-

in

I— (

0

0

r--

m

0

m

00

a^

o^

00

o^

(N

o^

(N

(N

(N

(N

(N

in

(N

r--

m

m

m

m

»-H

m

00

'O

'>0

0

a

a

a

0

a

in

a

Q

ffi

ffi

ffi

X

' 4

Pp

GD

C

O

Td

01)

§

3 ^

X

OJO

C3 ^

O g

cO o
c

X

00

S

o|

X

00

o C
d'l

CJ

•55 5 P
*' S

00 3
s=i S
ra 5 ca
’SO =5

cS'R®

ra D Sj

■p.“§

&'C CQ

cO

Sh •'
OJ

C^H u
- ^
•S s

M C3

0

u

u

u

0

w

w

CQ

PQ

CQ

Ph

HH

HH

r\

w

r\

w

cs

w

u w

-O

rv\ 'w'

1 =i

0 ) 0 ,

•sf

^‘o

-I

•o

o

• '^k

*0

^‘o

s

“O ^

£ “

Bg

.X 00

^ s

s;

•2^ >

•>*

Si Cl

c^ >0

•g

i^’l

S

k; < 1 ^

s.^

■S^<

■ts

1.1

ia

o<^

<u

G ^

S ^

X)

Gardens’ Bulletin Singapore 68(1): 173-174. 2016
doi: 10.3850/S2382581216000120

173

The valid publication of Monolophus
(Zingiberaceae) revisited

J.R Veldkamp

Naturalis Biodiversity Center, RO. Box 9517,

2300 RA Leiden, The Netherlands
jef.veldkamp@naturalis.nl

ABSTRACT. The nomenclatural history of Monolophus Delafosse, Guill. & J.Kuhn is
discussed. The combinations Monolophus picheansoonthonii (Phokham & Prasarn) Veldk. and
Monolophus pubescens (Picheans. & Phokham) Veldk. are made.

Keywords. Kaempferia, new combination, nomenclature, Wallich

Introduction

Mood et al. (2014) argued that Monolophus (Zingiberaceae) was validated by Wallich
(1832), having first been mentioned by Wallich (1830: April) in the second issue of
the Plantae Asiaticae Rariores. However, the name was validated earlier. There is
a review of Wallich’s book by Guillemin (1830: July) in the Bulletin ties Sciences
Naturelles et de Geologie. The French text for Kaempferia elegans Wall, is a more
or less summarised translation of that by Wallich (1830) and thus Monolophus is not
validated in this work: “suffirait peut-etre pour eloinger cette plante du Kaempferia.. .
en former un genre sous le nom de Monolophus'".

On page 3 1 of the Index in the next volume of Bulletin des Sciences Naturelles
et de Geologie, published in October 1830 (fide printers mark on p. [1] of the issue)
Monolophus is mentioned without an author and with the comment “Genre nouveau de
Scitaminees” [New genus of the Scitaminae]. This may be regarded as an acceptance
and validation of the name here. Wallich as the original author was not mentioned.

The journal was edited by [G.] Delafosse [mineralogist], [J.B.A.] Guillemin
[botanist] and [J.] Kuhn [zoologist] and the name is, therefore, to be cited as:
Monolophus Delafosse, Guill. & J.Kuhn, Bull. Sci. Nat. Geol. 23, Index: 31 (October
1830).

Mood et al. (2014) have shown that Kaempferia elegans is not a suitable
candidate for the lectotype of Monolophus. Yet, Picheansoonthon (2016) erroneously
maintained it as such. He also, mistakenly, thought that the new combinations in
Monolophus by Mood et al. are illegitimate, which is against Art. 55.1 of the ICN
(McNeill et al., 2012).

A proposal to conserve Caulokaempferia K.Larsen by Inthararapichai et al.
(2014) has not yet been considered by the appropriate committee. Since the publication

174

Gard. Bull. Singapore 68(1) 2016

of Mood et al. (2014) two new species of Caulokaempferia have been published. These
are here transferred to Monolophus.

Monolophus picheansoonthonii (Phokham & Prasam) Veldk., comb. nov. -
Caulokaempferia picheansoonthonii Phokliam & Prasam in Phokham et ah, J. Jap.
Bot. 90: 155, t. 1,2 (2015). - TYPE: South-western Thailand, Kanchanaburi, Sankhla
Buri Distr., Thung Yai Narasuan Wildlife Sanctuary, Mt Kulu Huamee, near Ro
Kee stream, 15‘’12'97.4'TS[ 98“29'58.2"E. CP [Chayan Picheansoonthon] 160814-1
(holotype BK).

Monolophus pubescens (Picheans. & Phokham) Veldk., comb. nov. - Caulokaempferia
pubescens Picheans. & Phokliam in Phokliam et al., Taiwania 60: 77, t. 1,2. (2015). -
TYPE: Northern Thailand, Mae Hong Son, Mueang Mae Hong Son Distr., CP [Chayan
Picheansoonthon^ 180713-8 (holotype BK).

ACKNOWLEDGEMENTS. Dr K. Gandhi (A), Mr R. Govaerts (K), an anonymous reviewer,
and Dr D.J. Middleton (SING) are much thanked for their critical comments and constructive
help.

References

Delafosse, G., Guillemin, J.B.A. & Kuhn, J. (eds) (1830). Index. Bull. Sci. Nat. Geol. 23: 25, 31.

Guillemin, J.B.A. (1830). # 43. Plantae Asiaticae Rariores. Bull Sci. Nat. Geol. 22: 68-69, 76.

Intharapichai, K., Phokham, B., Wongsuwan, P. & Picheansoonthon, C. (2014). The genus
Caulokaempferia (Zingiberaceae) in Vietnam. J. Jap. Bot. 89: 129-136.

McNeill, J., Bame, F.R., Buck, W.R., Demoulin, V., Greuter, W., Hawksworth, D.L., Herendeen,
P.S., Knapp, S., Marhold, K., Prado, J., Prud’hormne van Reine, W.F., Smith, G.F.,
Wiersema, J.H. & Turland, N.J. (2012) International code of Nomenclature. Regnum
Veg. 154.

Mood, J.D., Veldkamp, J.F., Dey, S. & Prince, L.M. (2014). Nomenclatural changes in
Zingiberaceae: Caulokaempferia is a superfluous name fox Monolophus and Jirawongsea
is reduced to Boesenbeigia. Gard. Bull. Singapore 66(2): 215-231.

Phokham, B., Intharapichai, K., Wongsuwan, P. & Picheansoonthon, C. (201 5). Caulokaempferia
pubescens (Zingiberaceae) - a new species from northern Thailand. Taiwania 60: 77-80.

Phokham, B., Prasam, S., Sangnark, S. & Wongsuwan, P, (2015). A new species of
Caulokaempferia (Zingiberaceae) in western Thailand. J. Jap. Bot. 90: 153-157.

Picheansoonthon, C. (2016). Nomenclatural controversy between Caulokaempferia and
Monolophus (Zingiberaceae). Fol. Malaysiana 17: 67 — 74.

Wallich, N. (1830). Plantae Asiaticae Rariores 1 : 24, t. 27. London: Treuttel & Wiirz.

Wallich, N. (1832). A Numerical List of Dried Specimens of Plants in the East India Company s
Museum, collected under the superintendence of Dr. Wallich, of the Company’s Botanic
Garden at Calcutta (The Wallich Catalogue). # 6591-6593.