Among the plants collected to-day and the day before yesterday [February 3rd and 1st], there were 4 species of Nepenthes (katoepat baroek, tjalong baroek, or taau-taau),[note b] growing here on the very coast between the scrub in a thin layer of humus, under which pure sea sand, or against steep rocks and the coast, when there was only some earth or moss for the germination. Some species are very common and luxuriant here and abound in flowers and fruits. The plants are all transported to Buitenzorg in living state, but from the seeds only those of one species I have succeeded in bringing to germinate, this growing very slowly but being very interesting, as the young plants, only few lines large, already bear minute pitchers.
The plant material was initially described as a variety of N. boschiana by Friedrich Miquel in 1858,[5] and in 1886 Odoardo Beccari considered it a variety of N. maxima.[6] Both of these species are now known to be absent from Sumatra.[7]Günther Beck von Mannagetta und Lerchenau, in his 1895 work "Die Gattung Nepenthes", was the first to publish N. sumatrana under its present binomial combination,[7][8] although he introduced it under the entry for N. maxima with the words "Hierzu gehört als Varietät: N. sumatrana" (this includes a variety: N. sumatrana).[2]
Despite the numerous taxonomic revisions, it appears that none of these authors (with the exception of Clarke) saw living plants of N. sumatrana. The first person to knowingly observe N. sumatrana in the wild since Teijsmann's original collection is thought to have been Ch'ien Lee, in 1998.[7]
Description
Nepenthes sumatrana produces sub-cylindrical climbing stems up to 15 m long and 0.9 cm thick. These have internodes up to 20 cm long. Leaves are coriaceous and petiolate. The lamina is lanceolate-obovate in form and grows to 55 cm in length and 9 cm in width. Longitudinal veins are present in 6–8 pairs together with numerous pinnate veins. Tendrils are up to 60 cm long.[7]
A rosette pitcher (left) and a lower pitcher (right)
Rosette pitchers may be ovoid throughout or narrowly ovoid in the lower half and cylindrical above. They grow up to 10 cm high and 4 cm wide. Two fringed wings, up to 8 mm wide, run along the front of rosette pitchers. The peristome is cylindrical in cross-section and up to 4 mm wide, bearing indistinct teeth. The pitcher lid or operculum is sub-orbiculate and has no appendages. An unbranched spur (≤15 mm long) is inserted at the base of the lid.[7]
Lower pitchers are wholly ovoid, with the hip located just below the peristome. They grow to 20 cm high and 10 cm wide, and possess a pair of fringed wings up to 6 mm wide. The peristome is cylindrical in cross-section and up to 10 mm wide. The lid is orbiculate and, as in rosette pitchers, bears an unbranched spur.[7]
Upper pitchers are infundibular (funnel-shaped) throughout. They are by far the largest of the traps produced by this species, reaching 30 cm in height and 15 cm in width. As in many Nepenthes species, the wings are reduced to ribs in aerial pitchers. The mouth has a distinctive raised section at the front, a feature also exhibited by the related N. rafflesiana.[7]
Nepenthes sumatrana has a racemoseinflorescence. In male plants, the peduncle grows to 20 cm, while the rachis may be 70 cm tall. Female inflorescences have a longer peduncle (≤30 cm) and a shorter rachis (≤40 cm). Partial peduncles are one- or two-flowered and up to 15 mm long. Sepals are ovate and up to 6 mm long.[7]
Some parts of the plant are sparsely covered with short simple or branched hairs, although these are mostly caducous. Short brown hairs are present on the leaf margins.[7]
No forms or varieties of N. sumatrana have been described.[7]
Distribution and habitat
Nepenthes sumatrana is endemic to the Indonesian provinces of North Sumatra and West Sumatra. It is best known from the hills around Sibolga, where it was first collected. The species has a patchy distribution and the full extent of its geographical range is uncertain. Specimens collected near Sawahlunto and named Nepenthes spinosa by Tamin and Hotta[note c] appear to be conspecific with N. sumatrana, although trips to the area in 1995[15] and 2001 failed to locate any plants.[7]
Nepenthes sumatrana grows terrestrially in dense, undisturbed lowland forest on sandstonesubstrates. Moist, shady conditions appear to be vital to the survival of the species, as it has not been recorded from areas that have been cleared due to logging or agricultural activities. These requirements might explain the fragmented nature of its distribution and suggest that N. sumatrana is more seriously threatened with extinction than previously thought.[7]
Plants are often found on very steep slopes. Seedlings of N. sumatrana have been recorded from open cliff faces, but it is uncertain whether these survive to maturity, as larger plants are only known from the forests, where their stems can use surrounding objects for support and climb into the canopy.[7]
Nepenthes sumatrana has been recorded from elevations of between 0 and 800 m above sea level.[7][16]
In 2001, based on first hand observations of wild populations, Charles Clarke informally reclassified N. sumatrana as Critically Endangered according to the IUCN criteria.[7] Clarke notes that N. sumatrana seems to be unable to survive in disturbed habitats. As such, rapid development around Sibolga poses a particularly serious threat to the survival of the species in the wild. In comparison, the threat of over-collection is relatively small, since many plants grow on very steep slopes which are virtually inaccessible. Taxonomic confusion concerning N. sumatrana and closely related species such as N. beccariana and N. longifolia makes the implementation of new conservation projects all but unfeasible.[7]
In 2001, Charles Clarke published a cladistic analysis of the Nepenthes species of Sumatra and Peninsular Malaysia based on 70 morphological characteristics of each taxon. The following is a portion of the resultant cladogram, showing part of "Clade 5", which has 69% bootstrap support. The sister pair of N. rafflesiana and N. sumatrana has 58% support.[7]N. beccariana was not included in this study.
Nepenthes rafflesiana and N. sumatrana differ primarily in the peristome structure of lower pitchers. N. sumatrana has indistinct peristome teeth, whereas those of N. rafflesiana are pronounced. The peristome of N. rafflesiana also has a characteristic elongated neck which is absent in N. sumatrana. Lower pitchers of N. sumatrana are completely ovoid, whereas those of N. rafflesiana are cylindrical in the upper part. Furthermore, the leaves of N. sumatrana are narrower and fringed with short brown hairs.[7]
When Matthew Jebb and Martin Cheek revised the genus in 1997, they treated N. longifolia in synonymy with N. sumatrana.[13] A more recent monograph by Clarke restores N. longifolia to specific rank. Clarke lists the following morphological characters that distinguish the two species.[7]
Character
N. longifolia
N. sumatrana
Tendrils on rosette leaves
≤110 cm long
≤60 cm long
Lower pitcher height
usually about 1/10 the length of the tendril
usually about 1/5 the length of the tendril
Lower pitchers on immature rosettes
ovoid in lower parts, hip around the middle, lid ovate
ovoid in lower parts, hip around the middle, lid ovate
Lower pitchers on rosettes sprouting from mature plants
as for rosette pitchers on immature plants
ovoid throughout, hip immediately beneath peristome, contracted at an angle of 45° to mouth, lid orbicular
Upper pitcher fragrance
no fragrance
sweet, fruity fragrance
Upper pitcher shape
infundibular in lower 1⁄3, cylindrical up to hip and mouth, lid usually ovate, rarely orbicular
infundibular throughout, hip immediately beneath peristome, lid orbicular
Peristome of upper pitchers
never raised at front like N. rafflesiana, but often "notched"
raised at front, like N. rafflesiana
The two species can also be identified based on their altitudinal distributions: N. sumatrana occurs at 0–800 m above sea level, whereas N. longifolia has been recorded from elevations of 300–1100 m.[7]
Natural hybrids
Nepenthes sumatrana seems to hybridise relatively rarely in the wild. The following natural hybrids involving this species have been recorded.
b.^ The vernacular names mentioned by Teijsmann refer to all the Nepenthes species found by him near Sibolga. Danser notes that the first two originate from the Minangkabau language, whereas the latter is an orthographical error for tahoel-tahoel, which is the common Batak name for Nepenthes.[4]
c.^ Plant material identified as N. spinosa by Tamin and Hotta consists of two main specimens: Tamin & Asmiati 425 and Tamin & Asmiati 426. Both are deposited at the Herbarium of Andalas University in Padang, West Sumatra and appear to represent N. sumatrana. However, Figure 8 in Tamin and Hotta's treatment illustrates a lower pitcher (Hotta 31158, held at the Herbarium of Kyoto University) that probably belongs to N. gymnamphora.[7]
^ ab(in German) Beck, G. 1895. Die Gattung Nepenthes. Wiener Illustrirte Garten-Zeitung20(3–6): 96–107, 141–150, 182–192, 217–229.
^ abTeijsmann, J.E. 1857. Dagverhaal eener botanische reis over de westkust van Sumatra. Natuurkundig Tijdschrift voor Nederlandsch Indië XIV: 249–376.
^Macfarlane, J.M. 1908. Nepenthaceae. In: A. Engler Das Pflanzenreich IV, III, Heft 36, 1–91.
^(in Indonesian) Tamin, R. & M. Hotta 1986. Nepenthes di Sumatera: The genus Nepenthes of the Sumatra Island. In: M. Hotta (ed.) Diversity and Dynamics of Plant Life in Sumatra: Forest Ecosystem and Speciation in Wet Tropical Environments. Part 1: Reports and Collection of Papers. Kyoto University, Kyoto. pp. 75–109.
Bauer, U., C.J. Clemente, T. Renner & W. Federle 2012. Form follows function: morphological diversification and alternative trapping strategies in carnivorous Nepenthes pitcher plants. Journal of Evolutionary Biology25(1): 90–102. doi:10.1111/j.1420-9101.2011.02406.x
Meimberg, H., A. Wistuba, P. Dittrich & G. Heubl 2001. Molecular phylogeny of Nepenthaceae based on cladistic analysis of plastid trnK intron sequence data. Plant Biology3(2): 164–175. doi:10.1055/s-2001-12897
Meimberg, H. & G. Heubl 2006. Introduction of a nuclear marker for phylogenetic analysis of Nepenthaceae. Plant Biology8(6): 831–840. doi:10.1055/s-2006-924676
Meimberg, H., S. Thalhammer, A. Brachmann & G. Heubl 2006. Comparative analysis of a translocated copy of the trnK intron in carnivorous family Nepenthaceae. Molecular Phylogenetics and Evolution39(2): 478–490. doi:10.1016/j.ympev.2005.11.023