Nepenthes aristolochioides
Nepenthes aristolochioides | |
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An upper pitcher of N. aristolochioides | |
Scientific classification ![]() | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Eudicots |
Order: | Caryophyllales |
Family: | Nepenthaceae |
Genus: | Nepenthes |
Species: | N. aristolochioides
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Binomial name | |
Nepenthes aristolochioides |
Nepenthes aristolochioides /nɪˈpɛnθiːz ærɪˌstɒloʊkiˈɔɪdiːz/ is a tropical pitcher plant endemic to Sumatra, where it grows at elevations of 1800–2500 m above sea level. It has an extremely unusual pitcher morphology, having an almost vertical opening to its traps.[3] It is critically endangered by overcollection.
The
Botanical history
Nepenthes aristolochioides was first collected by Willem Meijer on August 5, 1956. The holotype, Meijer 6542, was collected on that date from Mount Tujuh (Tudjuh) in Jambi at an elevation of 2000 m. It is deposited at the National Herbarium of the Netherlands (L) in Leiden, but is in relatively poor condition.[4] An isotype is held at Herbarium Bogoriense (BO), the herbarium of the Bogor Botanical Gardens (formerly the Herbarium of the Buitenzorg Botanic Gardens) in Java.[5]
Although labelled as "new species?",[4] the specimen was largely overlooked for over 30 years. In 1988, botanist Joachim Nerz became aware of it upon visiting the herbarium of Leiden University.[4] The name N. aristolochioides was coined quite early on; it was already being used in 1994 to informally refer to this (at the time undescribed) taxon.[6] That same year, taxonomist Jan Schlauer questioned the supposed lateral pitcher mouth of N. aristolochioides in email correspondence with botanist Matthew Jebb, who was preparing a revision of the genus at the time.[7] Schlauer wrote that he had examined a specimen of this species (Meijer 7426) and that the seemingly vertical insertion of the pitcher mouth might be a result of the preservation process, whereby the traps had become "compressed along their longitudinal axes".[7] In the summer of 1996, Nerz met with Schlauer and Meijer in the Frankfurt Palmengarten, where Meijer showed him a photograph of the mysterious species. Together with Katrin Hinderhofer, Nerz organised a field trip to Sumatra in June 1996 and was successful in rediscovering N. aristolochioides in the wild.[4]
Nepenthes aristolochioides was finally described by Matthew Jebb and Martin Cheek in their monograph, "A skeletal revision of Nepenthes (Nepenthaceae)", published in the May 1997 issue of the botanical journal Blumea.[2][8][9] Joachim Nerz wrote a detailed description of the species for an issue of the Carnivorous Plant Newsletter published the following year.[4] The next major treatments of the species appeared in Cheek and Jebb's updated 2001 work, "Nepenthaceae";[10] Charles Clarke's Nepenthes of Sumatra and Peninsular Malaysia, also published in 2001;[5] and Stewart McPherson's two-volume Pitcher Plants of the Old World, released in 2009, which included colour photographs of specimens from a newly discovered locality.[3]
Description
Nepenthes aristolochioides is a climbing plant. The stem, which may be branched,
Leaves
Leaves are
Pitchers
Nepenthes aristolochioides is noted for exhibiting relatively little dimorphism between its lower and upper pitchers.
![](http://upload.wikimedia.org/wikipedia/commons/thumb/0/06/Nepenthes_aristolochioides_upper_pitcher_section.jpg/280px-Nepenthes_aristolochioides_upper_pitcher_section.jpg)
Upper pitchers gradually arise from the ends of the tendrils, forming a 10 mm wide curve.
Inflorescence
Nepenthes aristolochioides has a racemose inflorescence up to 30 cm long.[3] Both the peduncle and rachis may be up to 15 cm long, although the latter is usually shorter in female plants.[5] The peduncle is up to 4 mm in diameter.[4] Pedicels are simple-bracteolate[5] and one-flowered. The basalmost ones are up to 12 mm long, whereas those higher up the rachis reach only 6 mm.[4] Tepals are ovate and up to 4 mm long.[5] Fruits are up to 20 mm long and 4 mm wide, and bear lanceolate valves. Seeds are filiform.[4]
Indumentum
Most parts of the plant are
Colouration
The stem, laminae, tendrils and midribs are yellowish-green.[3] On their outer surfaces, pitchers are white to reddish with numerous reddish-brown to purple speckles, with both lower and upper pitchers exhibiting similar colouration. The dark blotches are often denser in the upper part of the pitcher,[10] though the extent of the translucent lighter patches is almost twice as great on the rear of the pitcher as compared to the front.[12] The peristome is usually dark red or purple, being particularly dark in rosette pitchers. The undersurface of the lid is dark red or purple throughout, while the upper surface is speckled like the rest of the pitcher. The inner surface of the pitcher is white to light yellow throughout.[3] Herbarium specimens are brown to dark brown, the preserved pitchers having conspicuous dark spots.[4]
Little variation has been observed within natural populations of N. aristolochioides and no
Ecology
Distribution and habitat
Nepenthes aristolochioides is
Nepenthes aristolochioides inhabits
Conservation
![](http://upload.wikimedia.org/wikipedia/commons/thumb/5/51/Neparisto33.jpg/280px-Neparisto33.jpg)
Nepenthes aristolochioides is listed as Critically Endangered on the 2013 IUCN Red List of Threatened Species,[1] as its known distribution was restricted to two mountains (Mount Kerinci and Mount Tujuh) at the time of the assessment. Despite the fact that all known populations of the species lie within Kerinci Seblat National Park, it is severely threatened by over-collection, because its unique pitcher morphology makes it particularly sought-after.[5][14] In 2010, the Rare Nepenthes Collection was established with the aim of conserving 4 of the most endangered Nepenthes species: N. aristolochioides, N. clipeata, N. khasiana, and N. rigidifolia.[18][19][20]
Pitcher infauna
No infaunal organisms have been recorded from the pitchers of N. aristolochioides. This is not due to a lack of potential inhabitants; pitchers of N. singalana, which grow alongside N. aristolochioides, support large populations of such organisms. It is thought that the structure of the traps may serve to disorientate emerging adults and so infaunal species avoid colonising them.[5]
Carnivory
Different trapping mechanisms have been proposed for the lower and upper pitchers of N. aristolochioides.
Pitfall traps
The lower pitchers of this species frequently develop embedded in Sphagnum moss, with only the top of the traps visible. Joachim Nerz suggested that they act as simple pitfall traps specialised for trapping ground-dwelling insects. The insects crawl into the pitcher through the small mouth and fall to the bottom of the pitcher cup. Unable to climb out, they drown in the digestive fluid.[4]
Light traps
Along with N. klossii, N. aristolochioides is the only species in the genus to employ domed pitchers with translucent patches that allow sunlight to illuminate the interior. When viewed from the front, the peristome and lid appear dark, contrasting heavily against the inner surface of the pitcher, which is brightly lit by light passing through the top of the pitcher dome. It has been suggested that in upper pitchers this adaptation serves to attract flying insects in a similar manner to the North American pitcher plants Darlingtonia californica, Sarracenia minor, and Sarracenia psittacina.[4][5] A similar trapping mechanism has also been proposed for N. jacquelineae.[5] This is supported by the fact that most of the prey caught by N. aristolochioides consist of small flies, which are attracted to bright light sources.[5][12] Prey are often disorientated inside the upper pitchers of N. aristolochioides. Unable to find the exit, they eventually fall into the pitcher fluid and drown. As such, the pitchers have features of lobster-pot traps.[13]
The central role of the translucent dome in the prey trapping mechanism of N. aristolochioides is supported by experimental evidence. In one study, pitchers whose domes were covered with red celluloid filters showed a threefold decrease in Drosophila trapping efficiency as compared to unaltered pitchers and those shaded at the front with the same filters (flies are red-blind and most sensitive to the UV, blue, and green wavebands).[12]
Flypaper traps
Nepenthes aristolochioides produces extremely thick, mucilaginous pitcher liquid, which coats the entire inner surfaces of the traps in a thin film. The pitchers of this species appear to function at least in part as flypaper traps, with the sticky inner walls trapping flying insects above the surface of the fluid.[3] Similarly viscous pitcher fluid is also found in seven other closely allied Sumatran species: N. dubia, N. flava, N. inermis, N. jacquelineae, N. jamban, N. talangensis, and N. tenuis.[3] Together with N. aristolochioides, these species all share infundibular pitchers that are wholly glandular or almost so.[3]
Related species
The unusual pitcher morphology of N. aristolochioides makes it difficult to confuse with any other species; the almost vertical orientation of the pitcher mouth is a unique characteristic.[4]
Joachim Nerz noted that N. aristolochioides shows "close affinities" to N. talangensis.[4] However, it may be easily distinguished from that species on the basis of the pitcher mouth, which is horizontal in N. talangensis. In addition, the pitcher mouth of N. talangensis is elongated into a short neck, whereas N. aristolochioides lacks a neck altogether, with the lid being inserted in front of the pitcher. Both the mouth and lid are considerably larger in N. talangensis. The two taxa also differ somewhat in growth habit; N. talangensis occurs only terrestrially and is a weak climber, whereas N. aristolochioides occasionally grows as an epiphyte and climbs high into the forest canopy.[4][21]
The laminar morphology of N. aristolochioides is also similar to that of N. bongso, although N. aristolochioides is easily distinguished from this species by the shape of its pitchers and the hooded nectaries of the lid.[10]
In 2001,
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Although N. aristolochioides resembles N. klossii in some respects, the two species are geographically isolated from each other and are not thought to be closely related.[4] The unique adaptations of these taxa might represent an example of convergent evolution, whereby two organisms that are not closely related independently acquire similar characteristics while evolving in separate, but comparable, ecosystems.
Natural hybrids
Only one natural
References
- ^ . Retrieved 19 November 2021.
- ^ a b c Jebb, M.H.P. & M.R. Cheek 1997. A skeletal revision of Nepenthes (Nepenthaceae). Blumea 42(1): 1–106.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae McPherson, S.R. 2009. Pitcher Plants of the Old World. 2 volumes. Redfern Natural History Productions, Poole.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq Nerz, J. 1998. Rediscovery of an outstanding Nepenthes: N. aristolochioides (Nepenthaceae). Carnivorous Plant Newsletter 27(3): 101–114.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah Clarke, C.M. 2001. Nepenthes of Sumatra and Peninsular Malaysia. Natural History Publications (Borneo), Kota Kinabalu.
- ^ Jebb, M. 1994. NEPENTHES revision for Flora Malesiana. Carnivorous Plant Mailing List, September 9, 1994.
- ^ a b Schlauer, J. 1994. NEPENTHES comments for Flora Malesiana. Carnivorous Plant Mailing List, September 9, 1994.
- ^ Nepenthes aristolochioides M.Jebb & Cheek. International Plant Names Index (IPNI).
- ^ Schlauer, J. N.d. Nepenthes aristolochioides. Carnivorous Plant Database.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa Cheek, M.R. & M.H.P. Jebb 2001. Nepenthaceae. Flora Malesiana 15: 1–157.
- ^
- ^
- ^ a b Rice, B. 2007. Carnivorous plants with hybrid trapping strategies. Carnivorous Plant Newsletter 36(1): 23–27.
- ^ Field Guide to the Pitcher Plants of Sumatra and Java. Redfern Natural History Productions, Poole.
- ^ Jacobs, M. 1938. Contributions to the botany of Mount Kerintji and adjacent area in West Central Sumatra—I. Annales Bogorienses 3: 45–79.
- ^ McPherson, S. 2009. Nepenthes aristolochioides and Nepenthes klossii. Two of Indonesia's most remarkable plants. Carniflora Australis 7(1): 27–30.
- ^ McPherson, S. 2012. Two of Indonesia's most remarkable plants. Victorian Carnivorous Plant Society Inc. 103: 16–19.
- ^ Ziemer, B. 2010. Exciting conservation news: the Rare Nepenthes Collection project! Carnivorous Plant Newsletter 39(3): 67.
- ^ Nepenthes aristolochioides Archived 2011-09-04 at the Wayback Machine. Ark of Life.
- ^ Bourke, G. 2010. A new conservation initiative: the Rare Nepenthes Collection project. Archived 2013-04-09 at the Wayback Machine Captive Exotics Newsletter 1(2): 5–6.
- ^ Nerz, J. & A. Wistuba 1994. Five new taxa of Nepenthes (Nepenthaceae) from North and West Sumatra Archived 2011-08-05 at the Wayback Machine. Carnivorous Plant Newsletter 23(4): 101–114.
Further reading
- Clarke, C. 2013. What Can Tree Shrews Tell Us about the Effects of Climate Change on Pitcher Plants? [video] TESS seminars, 25 September 2013.
- Harwood, P. 1998. Four Nepenthes "new to science". The Carnivorous Plant Society Journal21: 64–65.
- Hernawati & P. Akhriadi 2006. A Field Guide to the Nepenthes of Sumatra. PILI-NGO Movement, Bogor.
- Meimberg, H., A. Wistuba, P. Dittrich & G. Heubl 2001. Molecular phylogeny of Nepenthaceae based on cladistic analysis of plastid trnK intron sequence data. Plant Biology 3(2): 164–175.
- (in German) Meimberg, H. 2002. Molekular-systematische Untersuchungen an den Familien Nepenthaceae und Ancistrocladaceae sowie verwandter Taxa aus der Unterklasse Caryophyllidae s. l.. Ph.D. thesis, Ludwig Maximilian University of Munich, Munich.
- Meimberg, H. & G. Heubl 2006. Introduction of a nuclear marker for phylogenetic analysis of Nepenthaceae. Plant Biology 8(6): 831–840.
- 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 Evolution 39(2): 478–490.
External links
![](http://upload.wikimedia.org/wikipedia/commons/thumb/d/df/Wikispecies-logo.svg/34px-Wikispecies-logo.svg.png)
![](http://upload.wikimedia.org/wikipedia/en/thumb/4/4a/Commons-logo.svg/30px-Commons-logo.svg.png)
- Photographs of N. aristolochioides at the Carnivorous Plant Photofinder