A peer-reviewed open-access journal 


PhytoKeys | 13: 59-67 (2018) 


& 
fi RCO $¢PhytoKeys 


http:/ / Pp hyto keys -pen soft.net Launched to accelerate biodiversity research 


Thismia sumatrana (Thismiaceae), a new species from 
West Sumatra, Indonesia, with discussions on the 
taxonomic identity of Thismia clavigera 


Kenji Suetsugu', Hirokazu Tsukaya”?, Nurainas Nurainas*, Hiroshi Okada>® 


| Department of Biology, Graduate School of Science, Kobe University, 1-1 Rokkodai, Nada-ku, Kobe, 657- 
8501, Japan 2 Department of Biological Sciences, Faculty of Science, The University of Tokyo, 7-3-1 Hongo, 
Bunkyo-ku, Tokyo 113-0033, Japan 3 Bio-Next Project, Exploratory Research Center on Life and Living Sy- 
stems, National Institutes of Natural Sciences, Yamate Build. #3, 5-1, Higashiyama, Myodaiji, Okazaki, Aichi 
444-8787, Japan 4 Herbarium Universitas Andalas, The Department of Biology, Faculty of Mathematics and 
Sciences, Andalas University, Kampus Limau Manis Padang, 25163, West Sumatra, Indonesia § Institute of 
Natural Environmental Sciences, University of Hyogo, Sanda, Hyogo 669-1546, Japan 6 Osaka City Univer- 
sity, Sugimoto, Sumiyoshi-ku, Osaka 558-8585, Japan 


Corresponding author: Kenji Suetsugu (kenji.suetsugu@gmail.com) 


Academic editor: S. Boatwright | Received 15 August 2018 | Accepted 15 November 2018 | Published 6 December 2018 


Citation: Suetsugu K, Tsukaya H, Nurainas N, Okada H (2018) Thismia sumatrana (Thismiaceae), a new species from 
West Sumatra, Indonesia, with discussions on the taxonomic identity of Thismia clavigera. PhytoKeys 113: 59-67. https:// 
doi.org/10.3897/phytokeys.113.29103 


Abstract 

A new species of the mycoheterotrophic genus 7hismia Griff. (Thismiaceae), Thismia sumatrana Suetsugu 
& Tsukaya, from West Sumatra, Indonesia, is described, based on a rehydrated herbarium specimen from 
National Museum of Nature and Science, Japan. Thismia sumatrana is closely related to T’ clavigera (Becc.) 


EMuell. but is distinguished by a much larger flower. 


Keywords 


Thismia, taxonomy, new species, mycoheterotrophy, Sumatra 


Copyright Kenji Suetsugu et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC 
BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 


60 Kenji Suetsugu et al. / PhytoKeys 113: 59-67 (2018) 


Introduction 


Thismia Griff. is a genus of rare mycoheterotrophic plants that are mainly distributed 
in tropical Asia. Although only about 30 Thismia species were recognised until the 
1990s, the diversity of Thismia is likely far underestimated, owing to the plants’ incon- 
spicuous nature (i.e. highly reduced aboveground parts and small size that allows them 
to be easily covered by fallen leaves). Indeed, as more comprehensive field expeditions 
have been undertaken, a number of 7hismia taxa have been discovered and described 
from various countries in Asia (Chantanaorrapint et al. 2016, Kumar et al. 2017, 
Sochor et al. 2017, 2018a,b, Suetsugu et al. 2017, 2018a,b, Sujanapal et al. 2017, 
Tsukaya et al. 2017, Chantanaorrapint and Suddee 2018, Hrones et al. 2018, Nishioka 
et al. 2018, Yunoh 2018). Accordingly, the genus has been updated to include ca. 80 
accepted species, making it one of the most species-rich mycoheterotrophic genera 
amongst vascular plants. 

Based on these findings, it is likely that botanical surveys in tropical Asia will contin- 
ue to uncover other previously undescribed taxa and present new distribution records. 
In addition, it is possible that the re-examination of herbarium specimens in natural 
history museums could reveal additional diversity (e.g. Suetsugu et al. 2018b). Here, 
Thismia sumatrana Suetsugu & Tsukaya, from West Sumatra, Indonesia, is described, 
based on the specimen from National Museum of Nature and Science, Japan (TNS), 
with the habitat information obtained by Nurainas Nurainas and Hiroshi Okada. 


Materials and methods 


The examined specimen included two individuals (one in flower and one with imma- 
ture fruit) that were mounted on a single sheet. As previous studies have suggested that 
the precise identification of 7hismia specimens requires the observation of floral char- 
acteristics that are hidden in the perianth tube (e.g. Sochor et al. 2018a,b), the flower- 
ing individual of the specimen was removed from the herbarium sheet and rehydrated, 
by boiling in water for ca. 2 min, in order to investigate the specimen’s inner floral 
morphology. However, since the rehydration by boiling process was inadequate for dis- 
section, the plant was kept in room temperature water for ca. 1 d. After that, the plant 
was carefully dissected and preserved in 70% ethanol. The fruiting plant remained dry 
and on the herbarium sheet. The structure of both individuals was observed using a 
stereomicroscope (MZ16a; Leica Microsystems, Cambridge, UK). It should be noted 
that our measurements, except for that of the inner floral parts, are based on the dry 
herbarium specimen and that the measurements may be smaller than those found in 
nature, owing to desiccation and shrinkage. In fact, during rehydration, the size of the 
inner floral parts increased by ca. 10% compared with that of the dry condition. 

The morphological characters of both the unknown specimen and its putative clos- 
est relative, 7’ clavigera, were compared with detailed images of the holotype deposited 
in FI from JSTOR Global Plants (http://plants.jstor.org/) and previously published 


Thismia sumatrana (Thismiaceae), a new species from West Sumatra, Indonesia... 61 


descriptions, illustrations and photographs of 7’ clavigera |i.e. Beccari (1878), Jonker 
(1938), Stone (1980), Chantanaorrapint and Chantanaorrapint (2009)]. The morpho- 
logical characters of 7. clavigera were evaluated based on the following criteria: (i) when 
the previous descriptions contained information on the lengths of the targeted parts, 
the values were used and (ii) when the descriptions did not contain information on the 
lengths of the targeted parts, the lengths were inferred from illustrations, photographs 
or images and the lengths of the parts that were included in the descriptions of Table 1 
for comparison with the unknown specimen. Herbarium abbreviations follow Index 
Herbariorum (Thiers 2018, http://sweetgum.nybg.org/science/ih/). 


Taxonomy 


Thismia sumatrana Suetsugu & Tsukaya, sp. nov. 
urn:lsid:ipni.org:names:77192417-1 
Figs 1, 2 


Diagnosis. Thismia sumatrana differs from its close relative 7’ clavigera, in having a 
much larger flower (ca. 8 cm vs. ca. 2.8 cm long). 

Type. INDONESIA. West Sumatra: Padang Pariaman, Sipisang, ca. 300 m alt., 
0°33'S, 100°21'E, 27 Feb 1994, Okada et al. 112 (holotype TNS!, dried plant on a 
herbarium sheet (TNS-01051838) and liquid-preserved material in a bottle, labelled 
as the same specimen). 

Terrestrial, mycoheterotrophic herb. Roots not seen. Stems erect, unbranched, 
5-7.5 cm long. Leaves ca. 10, scale-like, appressed, triangular-ovate to lanceolate, 3-9 
mm long, apex acute or slightly acuminate. Flowers solitary, sessile, terminal. Floral 
bracts ovate-lanceolate, 10-13 mm long, apex acute to acuminate, slightly curved. 
Flowers bisexual, ca. 8 cm long (including appendages); perianth tube, campanulate, 
ca. 2.7 by 1.3 cm, narrowest just above the ovary, widest at the top, with 12 longitu- 
dinal ribs, transverse bars inside present; outer perianth lobes 3, broadly triangular, ca 
2.5 mm long; inner perianth lobes 3, incurved, apically adnate to form a dome-shaped 
mitre with three lateral holes, dome-shaped mitre ca. 9 mm in diam., bearing three 
eaves-like to hood-like accessory lobes at the tip and three slender claviform append- 
ages at the top, appendages ca. 3.8 cm long; stamens 6, borne on the thickened margin 
of the perianth tube; filaments short, ribbon-shaped, free; connective broad, connate 
to form a tube with a quadrangular lateral appendage, apex acute, hairy; individual 
connective bearing four thecae; theca oblong, 1.2—-1.4 mm long on the uppermost 
part of connective; interstaminal gland rectangular, 1.2—-1.4 mm long on the line of 
fusion between each connective; style short, ca. 0.8 mm long; stigmas elliptic-oblong, 
ca. 2.5 mm long, 3-lobed; apex of lobes truncate; ovary ca. 5 mm long, cup-shaped. 
Mature fruit and seeds not seen. 

Distribution. It is known from only a single collection comprising of one flower- 
ing and one fruiting individual. 


62 Kenji Suetsugu et al. / PhytoKeys 113: 59-67 (2018) 


Figure |. 7/ismia sumatrana from West Sumatra, Indonesia (from the holotype). A Flower B Dome-shaped 


mitre bearing the eaves-like to hood-like accessory lobes. ‘The accessory lobes are indicated using the arrows 
C Upper part of perianth tube. Outer perianth lobes are indicated by arrows D Inner view of two pendulous 
stamens. Thecae and glands are indicated by upper and lower arrows, respectively E Outer view of a pendulous 


stamen. Thecae and glands are indicated by upper and lower arrows, respectively. One grid is equal to 1 mm’. 


Thismia sumatrana was collected from a forest floor beside a rheophytic zone 
along Anak Air Ganggu (Ganggu Stream), 0°33'S, 100°21'E, at Sipisang Village, 


Padang Pariaman, West Sumatra, Indonesia. The area was covered by mixed primary 


Thismia sumatrana (Thismiaceae), a new species from West Sumatra, Indonesia... 63 


Table |. Morphological comparison between Thismia sumatrana and the plants reported as Thismia clavigera. 


Characters T. sumatrana T. clavigera T. clavigera T. clavigera (Aceh)? T. clavigera 
(type locality)’ (Langkawi)? (Tarutao)? 

Stem height 5—7.5 cm 6-9 cm up to 12 cm similar to Langkawi up to 9 cm 
Floral bract 10-13 mmlong 6-7 mmlong upto1l2mmlong similar to Langkawi ca. 12 mm long 
Number of flowers 1 3 1-6 similar to Langkawi 1—2(-3) 
Appendices on the tip of _ eaves-like to hood- eaves-like poorly developed similar to Langkawi poorly developed 
mitre shaped 
Length of perianth tube ca. 27 mm ca. 9 mm ca. 13 mm similar to Langkawi 15-19 mm 
Length of claviform ca. 38 mm 8-12 mm 12-14 mm ca. 5 mm long 19-32 mm 
appendages 
Size of outer perianth lobe ca. 2.5 mm ca. 1 mm 0.3-0.4 mm similar to Langkawi ca. 1 mm 
Status of nectariferous rectangular, 1.2— unknown rectangular, ca. similar to Langkawi _orbicular, ca. 
gland on the top of mitre 1.4 mm long 0.9 mm long 0.8 mm diameter 
Status of thecae oblong, 1.2-1.4 mm unknown oblong, ca. 1mm _ similar to Langkawi oblong, ca. 2 mm 


long, located in the 
uppermost part of 
connective 


long, located in long, located little 
above the middle 


of connective 


the uppermost 
part connective 


'from Beccari (1878), Jonker (1938) and our own examination of holotype image. *from Stone (1980). *from Chantanaorra- 
pint and Chantanaorrapint (2009). 


and secondary forest along a stream, where relatively natural conditions remained. 
For example, there were many individuals of a rare and large herbaceous plant, 
Amorphophallus titanum (Becc.) Becc. (Araceae). In addition, many individuals of a 
theophytic plant, Furtadoa sumatrensis M.Hotta (Araceae), grew on small rocks both 
in the stream and on the stream bank (Mori and Okada 2001). 

Taxonomic notes. The distinctive characteristics of 7hismia sumatrana include 1) 
minute outer tepals, 2) stamens with acute distal parts and 3) large flower. The combi- 
nation of the first two characteristics, which have also been reported for Thismia clavi- 
gera and T. kelantanensis, but not for the other Thismia species (Stone 1980, Chantan- 
aorrapint and Chantanaorrapint 2009, Tsukaya and Okada 2012, Yunoh 2018), sug- 
gests that 7’ kelantanensis, T! sumatrana, and T. clavigera are closely related. However, 
T. kelantanensis can be easily distinguished from the other two species by the six-partite 
hood on its mitre (Yunoh 2018). 

Thismia clavigera was originally described as a member of the genus Geomitra Becc., 
based on collections from Sarawak in the early 1860s (Beccari 1878). Unfortunately, 
Beccari (1878) did not describe the inner floral characteristics, such as the structure 
of the connectives that are crucial in the identification of 7hismia species and, instead, 
provided detailed drawings of the taxon’s external appearance. Nonetheless, comparing 
our material to Beccari’s original description, illustration and holotype specimen of 7. 
clavigera revealed that T’ sumatrana can be easily distinguished from T. clavigera by its 
much larger flowers (ca. 8 cm vs. ca. 2.8 cm long), whereas stems of 7’ sumatrana and 
7. clavigera are similar in length (ca. 5—7.5 cm long vs. 6—9 cm long; Table 1). As noted 
above, the flower of the 7) sumatrana specimen may be shorter than those in nature, 
owing to desiccation and shrinkage. Nevertheless, the flowers are much larger than 
those of 7! clavigera. 

It should be noted that 7’ clavigera has been reported not only in type collections 
but also from different localities. Stone (1980) reported the rediscovery of 7’ clavigera 


64 Kenji Suetsugu et al. / PhytoKeys 113: 59-67 (2018) 


Figure 2. 7hismia sumatrana from West Sumatra, Indonesia (Drawn from the holotype). A Flowering 
plant B Flower C Inner view of two pendulous stamens D Outer view of two pendulous stamens E Ovary 


with style and stigmas. Drawn by Kumi Hamasaki. Scale bars: 1 cm (A=B), 1 mm (C-E). 


from Pulau Langkawi, in the western part of the Malay Peninsula and Aceh, in north- 
ern Sumatra in 1979. Chantanaorrapint and Chantanaorrapint (2009) also reported 
that 7) clavigera occurs on Tarutao Island, southern ‘Thailand, which is close to Lang- 


Thismia sumatrana (Thismiaceae), a new species from West Sumatra, Indonesia... 65 


kawi. In addition, one specimen seems to have been collected in Sarawak by Caddick 
(Caddick et al. 1998) and subjected to DNA sequencing by other authors (e.g. Merckx 
et al. 2006), although neither the precise locality nor the description is known, and 
no such specimen was found in K from where Caddick et al. (1998) reported on the 
deposited voucher specimen (Alison Moore, Curator of K, personal communication). 
However, we found that there are notable morphological variations amongst speci- 
mens recorded as 7’ clavigera. 

The shape of the mitre, for example, varies amongst the specimens recorded as 7’ 
clavigera from different localities (Table 1). While Beccari (1877) depicted 7. clavig- 
era with small eave-like projections, such projections being very poorly developed in 
T; clavigera specimens from Langkawi and Tarutao (Stone 1980, Chantanaorrapint 
and Chantanaorrapint 2009) and the slender claviform appendages of the mitri- 
form inner tepals are much shorter in 7’ clavigera from Aceh (ca. 5 mm) than in 7 
clavigera from other localities. Moreover, Stone (1980) also noted that 7’ clavigera 
from Aceh exhibits unique purple claviform appendages. However, these differences 
may only represent intraspecific variation, especially considering that Sochor et al. 
(2018b) noted that variation amongst mitre morphology is not necessarily taxo- 
nomically informative, at least for some Thismia species. 

Yet, variations amongst 7. clavigera from different localities have also been re- 
ported for other morphological characters. For example, 7’ clavigera specimens from 
Thailand exhibit orbicular interstaminal glands (Chantanaorrapint and Chantan- 
aorrapint 2009), whereas the Langkawi specimens exhibit long, rectangular glands 
(Stone 1980) and the thecae of 7’ clavigera specimens from ‘Thailand are situated 
slightly above the middle of the connective (Chantanaorrapint and Chantanaorra- 
pint 2009), whereas those of Langkawi specimens are located in the uppermost part 
of the connective (Stone 1980). Therefore, considering that inner floral morphology 
is considered important for 7hismia classification, differences in 7’ clavigera plants 
from Langkawi and Tarutao strongly suggest that at least two interspecific groups 
exist. Here, taxonomic treatments of specimens recorded as T’ clavigera from other 
localities were not conducted because the inner floral characteristics of 7’ clavigera 
from the type locality are unavailable. Further investigation, based on specimens 
from the type locality of 7’ clavigera, is critical for elucidating the true taxonomic 
identities of specimens recorded as VT! clavigera from other localities. 


Acknowledgements 


We are grateful to Kumi Hamasaki for providing excellent line drawings. We also 
thank Dr. Atsushi Ebihara, the curator of TNS, for herbaria access. We are also grate- 
ful to Alison Moore, the curator of K, for the investigation of entire collection of 
Thismia deposited in K. This study was financially supported by the JSPS KAKENHI 
(17H05016 to KS). 


66 Kenji Suetsugu et al. / PhytoKeys 113: 59-67 (2018) 


References 


Beccari O (1878) Burmanniaceae. Malesia 1: 240-253. 

Caddick LR, Furness CA, Stobart L, Rudall PJ (1998) Microsporogenesis and_pol- 
len morphology in Dioscoreales and allied taxa. Grana 37(6): 321-336. https://doi. 
org/10.1080/00173139809362687 

Chantanaorrapint S, Chantanaorrapint A (2009) Thismia clavigera (Thismiaceae), a new record 
for Thailand. Thai Forest Bulletin (Botany) 37: 27-31. 

Chantanaorrapint S, Suddee S (2018) Thismia thaithongiana (Dioscoreaceae: Thismieae), a new 
species of mycoheterotroph from an unusual habitat. Phytotaxa 333(2): 287-292. https:// 
doi.org/10.11646/phytotaxa.333.2.14 

Chantanaorrapint S, Wai JS, Poopath M, Tetsana N (2016) Thismia claviformis (Thismiaceae), 
a new species from the Thai-Malay Peninsula. Phytotaxa 280(3): 292-296. https://doi. 
org/10.11646/phytotaxa.280.3.8 

HroneS M, Rejzek M, Sochor M, Svatek M, Kvasnica J, Egertova Z, Pereira JT, Nilus R, Dancak 
M (2018) Two new species of Thismia subsect. Odoardoa (Thismiaceae) from Borneo. Plant 
Ecology and Evolution 151(1): 110-118. https://doi.org/10.509 1/plecevo.2018.1387 

Jonker FP (1938) A monograph of the Burmanniaceae. Mededeelingen van het Botanisch Mu- 
seum en Herbarium van de Rijks Universiteit te Utrecht (Utrecht) 51: 1-279. 

Kumar P, Gale SW, Li J, Bouamanivong S, Fischer GA (2017) Thismia nigricoronata, a new 
species of Burmanniaceae (Thismieae, Dioscoreales) from Vang Vieng, Vientiane Prov- 
ince, Laos and a key to subgeneric classification. Phytotaxa 319(3): 225-240. https://doi. 
org/10.11646/phytotaxa.3 19.3.2 

Merckx V, Schols P, Maas-Van De Kamer H, Maas P, Huysmans S, Smets E (2006) Phylogeny 
and evolution of Burmanniaceae (Dioscoreales) based on nuclear and mitochondrial data. 
American Journal of Botany 93(11): 1684-1698. https://doi.org/10.3732/ajb.93.11.1684 

Mori Y, Okada H (2001) Reproductive biology and pollen flow of a rheophytic aroid, Fur- 
tadoa sumatrensis (Araceae) in the Malesian wet tropics. Plant Systematics and Evolution 
227(1-2): 37-47. https://doi.org/10.1007/s006060170055 

Nishioka T, Suetsugu K, Repin R, Kitayama K (2018) Thismia kinabaluensis (Thismiaceae), a 
new species from Mt. Kinabalu, Sabah, Borneo. Phytotaxa 360(2): 174-178. https://doi. 
org/10.11646/phytotaxa.360.2.10 

Sochor M, Sukri RS, Metali F Dancak M (2017) Thismia inconspicua (Thismiaceae), a new myco- 
heterotrophic species from Borneo. Phytotaxa 295(3): 263-270. https://doi.org/10.11646/ 
phytotaxa.295.3.7 

Sochor M, Egertova Z, Hrones M, Dancak M (2018a) Rediscovery of Thismia neptunis (This- 
miaceae) after 151 years. Phytotaxa 340(1): 71-78. https://doi.org/10.11646/phyto- 
taxa.340.1.5 

Sochor M, Hrones M, Danéak M (2018b) New insights into variation, evolution and taxono- 
my of fairy lanterns (Thismia, Thismiaceae) with four new species from Borneo. Plant Sys- 
tematics and Evolution 304(5): 699-721. https://doi.org/10.1007/s00606-018-1504-5 

Stone BC (1980) Rediscovery of Thismia clavigera (Becc.) F. v. M. (Burmanniaceae). Blumea 
26: 419-425. 


Thismia sumatrana (Thismiaceae), a new species from West Sumatra, Indonesia... 67 


Suetsugu K, Tsukaya H, Tagane S, Suddee S, Rueangruea S, Yahara T (2017) Thismia brunn- 
eomitroides (Thismiaceae), a new mycoheterotrophic species from southern Thailand. Phy- 
totaxa 314(1): 103-109. https://doi.org/10.11646/phytotaxa.3 14.1.9 

Suetsugu K, Tsukaya H, Tagane S, Chhang P, Yukawa T, Yahara T (2018a) Flora of Bokor 
National Park VU: Thismia bokorensis (burmanniaceae), a new species representing a new 
generic record. Phytotaxa 334(1): 65-69. https://doi.org/10.11646/phytotaxa.334.1.10 

Suetsugu K, Nakanishi O, Kobayashi T, Kurosaki N (2018b) Thismia kobensis (Burmanni- 
aceae), a new and presumably extinct species from Hyogo Prefecture, Japan. Phytotaxa 
369(2): 121-125. https://doi.org/10.11646/phytotaxa.369.2.6 

Sujanapal P, Robi AJ, Dantas KJ, Sumod M, Merckx VSFT (2017) Thismia (Thismiaceae): The 
first record of the mycoheterotrophic genus to the flora of India with a new species reveal- 
ing the phytogeographical significance of Western ghats. Blumea 62(2): 97-102. https:// 
doi.org/10.3767/blumea.2017.62.2.04 

Thiers B (2018) Index Herbariorum: A global directory of public herbaria and associated staff. 
New York Botanical Garden's Virtual Herbarium. http://sweetgum.nybg.org/ih/ [Contin- 
uously updated] 

Tsukaya H, Okada H (2012) A new species of Thismia (Thismiaceae) from West Kalimantan, 
Borneo. Systematic Botany 37(1): 53-57. https://doi.org/10.1600/036364412X616639 

Tsukaya H, Suetsugu K, Suleiman M (2017) Thismia bryndonii (Thismiaceae), a new species 
from Maliau Basin, Sabah, Borneo. Phytotaxa 312(1): 135-138. https://doi.org/10.11646/ 
phytotaxa.312.1.13 

Yunoh SM (2018) Thismia kelantanensis (Thismiaceae), a new species from Kelantan, Peninsu- 
lar Malaysia. Kew Bulletin 73(3): 42. https://doi.org/10.1007/s12225-018-9767-0