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Biology

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Pitcher plants are dioecious, meaning that male and female flowers grow on separate plants (4), and only begin to flower once the upper pitchers are produced (5). The flowers produce large amounts of nectar during the early evening and night, which evaporates by the morning. This nectar attracts flies during the early evening and moths at night to aid pollination. Once fertilised, a fruit usually takes about three months to develop and ripen. The fruits of Nepenthes species produce between 100 and 500 very light, winged seeds, which can measure up to 30 millimetres long, and are thought to be dispersed by the wind (2) (6). Despite enormous numbers of seeds being produced, only a few manage to germinate and only a fraction of those survive to maturity (2). Carnivorous pitcher plants are adapted to grow in soils low in nutrients. Although the plants do gain some nutrition through the soil, and energy through photosynthesis, they supplement this with a diet of invertebrates, usually consisting of ants, cockroaches, centipedes, flies and beetles. Insects are attracted to the pitchers by their bright colours and nectar, which is secreted by glands situated on the lid and the peristome of the pitcher. The insects fall into the acidic fluid at the base of the pitcher and, unable to escape, they drown. Digestive enzymes are then released to break down the captured prey (4). Despite the hostile environment of the pitchers, they can be home to number of animals. The red crab spider (Misumenops nepenthicola) inhabits pitcher plants in Malaysia, Singapore and Indonesia, including some species in Borneo. This spider ambushes insects that crawl into the pitcher, and preys upon other insects, such as mosquitoes, as they emerge from larvae that live in the pitcher fluid (2).
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Conservation

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Nepenthes burbidgeae is found only on Mount Kinabalu, which is situated within Kinabalu National Park. This region's protected status, along with the inaccessibility of many areas, offers this species some degree of protection particularly from collectors (2). It is listed under Appendix II of the Convention on International Trade in Endangered Species (CITES) which limits the international export of this species (3). However, trade is very difficult to regulate, as there is no requirement for internationally traded Nepenthes to be identified down to species level, and plants simply labelled as Nepenthes accounted for 94 percent of all exported Nepenthes plants between 1988 and 1993. This needs to be remedied and urgent attention is required to close other trade loopholes (2). Nepenthes species, including Nepenthes burbidgeae, are being increasingly cultivated, helping to reduce the impact on wild populations. Conservation efforts can be made more effective not only by the implementation and enforcement of protective laws, but also by the encouragement of artificial propagation and the establishment of habitat reserves (8).
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Description

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Arguably the most beautiful of the Bornean pitcher plants, Nepenthes burbidgeae is a vine which climbs to a height of about fifteen metres. Modified pitcher-shaped leaves hang from coiled tendrils, into which insects and other invertebrates fall (2). Nepenthes burbidgeae has light green leaves fringed with brown hairs. The pitchers are deep red on the exterior surface and the base of pitcher is off-white with pink splashes. The inner surface is white and is often lightly covered with pink blotches (2). The trumpet-shaped pitchers of Nepenthes burbidgeae contain an acidic fluid, secreted by the many glands which cover the inside surface of the lower half of the pitcher (4). The smooth and waxy upper inner surface of the pitcher makes it impossible for captive insects to gain a foothold (4), and a ridge of hardened tissue lining the mouth of the pitcher, the peristome, bears downward pointing teeth, also preventing insects from escaping (2). A lid overhangs the mouth of the pitcher preventing rain water from diluting the pitcher fluid (2).
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Habitat

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Nepenthes burbidgeae is restricted to growing in soil on top of igneous rock at altitudes between 1,200 and 2,250 metres (1) (5), inhabiting mossy montane forest on the tops of steep slopes and ridges (2).
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Range

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Endemic to Mount Kinabalu, Borneo, Indonesia (1) (5).
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Status

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Classified as Endangered (EN) on the IUCN Red List 2007 (1) and listed on Appendix II of CITES (3)
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Threats

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Nepenthes species are threatened by a combination of over-collection and habitat loss (2). The biodiversity of Indonesia is significantly threatened by widespread habitat destruction, caused by illegal and commercial logging and large agricultural projects such as rubber and oil palm plantations (7). Nepenthes burbidgeae has a highly localised distribution making this species particularly susceptible to extinction throught habitat destruction or catastrophic environmental events, such as drought or fire. In addition, montane species, such as Nepenthes burbidgeae, take longer to recover than lowland plants after such events, as growth is slower (2).
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Nepenthes burbidgeae

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Nepenthes burbidgeae /nɪˈpɛnθz bɜːrˈbɪi/, also known as the painted pitcher plant[5] or Burbidge's Pitcher-Plant,[6] is a tropical pitcher plant with a patchy distribution around Mount Kinabalu and neighbouring Mount Tambuyukon in Sabah, Borneo.[7]

Botanical history

Nepenthes burbidgeae was discovered on Mount Kinabalu in 1858 by Hugh Low and Spenser St. John. St. John wrote the following account of finding the species near the Marai Parai plateau:[6][8]

Crossing the Hobang, a steep climb led us to the western spur, along which our path lay; here, at about 4000 ft [1200 m], Mr. Low found a beautiful white and spotted pitcher-plant which he considered the prettiest of the twenty-two species of Nepenthes with which he was then acquainted; the pitchers are white and covered in a most beautiful manner with spots of an irregular form, of a rosy pink colour.

Frederick William Burbidge was one of the first to collect the plant in 1878, although he did not succeed in introducing it into cultivation.[6] The type specimen of N. burbidgeae, Burbidge s.n., was collected on the Marai Parai plateau of Mount Kinabalu and is deposited at the Royal Botanic Gardens, Kew.[9] A duplicate specimen is held at the New York Botanical Garden.[10]

Nepenthes burbidgeae appeared as an unnamed species in Burbidge's 1880 book The Gardens of the Sun.[11] Joseph Dalton Hooker named N. burbidgeae after Burbidge's wife, though the name only appeared in an unpublished manuscript.[6] The specific epithet is attributed to Burbidge as he used it in a letter to The Gardeners' Chronicle in 1882. It reads:[2][6]

Nepenthes Burbidgeae, Hook. f. MSS., is a lovely thing, as yet unintroduced : pitchers pure white, semi-translucent like egg-shell, porcelain-white, with crimson or blood-tinted blotches. Lid blotched and dotted with crimson-purple. It is a very distinct plant, with triangular stems, 50 feet long, and the margins of the leaves decurrent.

In 1894, Otto Stapf identified specimens belonging to N. burbidgeae as N. phyllamphora,[4] a taxon that is now considered synonymous with N. mirabilis.[12]

In two articles authored by Burbidge in 1894[3] and 1896,[13] the name of this species was written as N. burbidgei. This name is considered a sphalma typographicum (misprint) of N. burbidgeae,[9] although it appeared in a number of other works by authors such as[14] Odoardo Beccari (1886),[15] John Muirhead Macfarlane (1908),[16] and Elmer Drew Merrill (1921).[17] Herbarium material also bears this spelling of the name.[10]

Seventy years after its discovery, N. burbidgeae remained a poorly known species. This is reflected in the writing of B. H. Danser in his seminal 1928 monograph, "The Nepenthaceae of the Netherlands Indies",[note a] where he suggests a close relative in N. pilosa:[14]

This species has only been found twice on Mt. Kinabalu and is very insufficiently known. I have not ventured to unite it with any other. N. pilosa, though doubtless the most nearly related species, is certainly different.

In 1981, Australian botanist Allen Lowrie reported that the fluid in unopened pitchers of N. burbidgeae is effective in stopping external bleeding. Lowrie cited two examples of researchers in the field successfully using this fluid on cuts and wounds.[18]

Description

Nepenthes burbidgeae is a strong climber that quickly enters the vining stage. The stem reaches 15 m in length and is up to 18 mm in diameter.[5] Internodes are cylindrical to triangular in cross section and up to 12 cm long.[7]

A rosette plant with lower pitchers

The leaves of this species are coriaceous and petiolate. The lamina or leaf blade is oblong in shape and up to 40 cm long by 10 cm wide. It has an acute apex and its base is typically abruptly attenuate. The petiole is winged, up to 15 cm long,[5] and clasps the stem. It is often decurrent into two narrow wings that extend down the stem. Three to four longitudinal veins are present on either side of the midrib. Pinnate veins are inconspicuous. Tendrils are up to 30 cm long.[7]

Rosette and lower pitchers are rounded-infundibular or conical in shape. Unlike the pitchers of many other Nepenthes species, those of N. burbidgeae have no obvious constriction in the middle. The lower pitchers are relatively large, being up to 25 cm high[6] by 10 cm wide. A pair of fringed wings, measuring up to 10 mm in width, runs down the front of each pitcher. The glandular region, which bears minute overarched glands,[5] covers the basal half of the pitcher's inner surface. The pitcher mouth is round and elongated into a short neck at the rear. The peristome is flattened and expanded, measuring up to 30 mm in width. Its inner margin is lined with a series of small but distinct teeth. The inner portion of the peristome accounts for around 49% of its total cross-sectional surface length.[19] The pitcher lid or operculum is ovate and up to 8 cm wide.[5] It bears a distinct keel as well as a characteristic hooked appendage on its lower surface. An unbranched spur (≤12 mm long) is inserted near the base of the lid.[7]

Upper pitchers

Upper pitchers are similar to their terrestrial counterparts in most respects, even retaining the same colouration. However, they are smaller, reaching only 13 cm in height and 7 cm in width.[5] They are infundibular in the basal third and globose above. In aerial pitchers, a pair of ribs is present in place of wings.[7][20]

Nepenthes burbidgeae has a racemose inflorescence. The peduncle is up to 25 cm long, while the rachis reaches 30 cm in length. Partial peduncles may be one- or two-flowered and are up to 15 mm long. Sepals are ovate and up to 5 mm long.[7]

Most parts of the plant are covered in a sparse indumentum of short hairs. The margins of the lamina are lined with brown hairs up to 3 mm long.[7]

Nepenthes burbidgeae has a very restricted range and exhibits relatively little variability. As such, no infraspecific taxa have been described.[7]

Ecology

Habitat and distribution

Nepenthes burbidgeae is endemic to Kinabalu National Park, where it has a patchy distribution around Mount Kinabalu and neighbouring Mount Tambuyukon. Specifically, it has been recorded from the Marai Parai plateau, Mamut copper mine, and Pig Hill.[5][21] On Pig Hill, it grows at 1900–1950 m[22] and is sympatric with N. rajah, N. tentaculata, and the natural hybrid N. × alisaputrana.[23] The altitudinal range of this species is often quoted as 1200–1800 m above sea level,[7][24] but some sources give a lower limit of 1100 m[22] and upper limit of 2250 m[25] or even 2300 m.[22]

Mount Kinabalu was only formed around 1 million years ago and, during the last ice age (approximately 20,000 to 10,000 years ago), it had an ice cap on its summit. As such, it appears that N. burbidgeae is a relatively recent species in evolutionary terms.[26]

Lower pitchers of N. burbidgeae growing in mossy forest

Nepenthes burbidgeae is probably the rarest of the Nepenthes species native to Mount Kinabalu. Its typical habitat consists of mossy forest or montane forest, where it often grows in low scrub and exposed areas on the tops of steep ridges. The species is restricted to ultramafic soils.[7][12] In more exposed areas, N. burbidgeae is often found climbing amongst bushes of Leptospermum javanicum. At some localities it has also been recorded from bamboo forest.[6]

Nepenthes burbidgeae can often be found growing amongst populations of N. edwardsiana, N. rajah, and N. tentaculata, and hybrids with all of these species have been recorded.[7]

Threats and conservation status

The El Niño climatic phenomenon of 1997 to 1998 had a catastrophic effect on the Nepenthes species of Mount Kinabalu.[7] The dry period that followed severely depleted some natural populations. Forest fires broke out in 9 locations in Kinabalu Park, covering a total area of 25 square kilometres and generating large amounts of smog. Hugo Steiner recalls being struck by the scarcity of N. burbidgeae pitchers observed on Mount Kinabalu during a trip in 1999.[27] At the time of the El Niño, many plants were temporarily transferred to the park nursery. These were later replanted in the "Nepenthes Garden" in Mesilau. Since then, Ansow Gunsalam has established a nursery close to the Mesilau Lodge at the base of Kinabalu Park to protect the endangered species of that area, including N. burbidgeae.[21][27]

The conservation status of N. burbidgeae is listed as Endangered on the 2006 IUCN Red List of Threatened Species based on an assessment carried out in 2000.[1] This does not agree with an informal assessment made by Charles Clarke in 1997, who classified the species as Vulnerable based on the IUCN criteria. However, Clarke noted that since all known populations of N. burbidgeae lie within the boundaries of Kinabalu National Park and are inaccessible to collectors, they "are unlikely to become threatened in the foreseeable future".[7] Taking this into account, he suggested a revised assessment of Conservation Dependent.[7]

Related species

Profile views of an upper pitcher of N. chaniana (left) and a lower pitcher of N. burbidgeae (right).

Nepenthes burbidgeae is easily distinguished from other species in the genus on the basis of its pitcher shape and colouration, as well as the hook-shaped appendage on the underside of the lid.[28] The only other Bornean Nepenthes species with a similarly developed appendage are N. chaniana and N. pilosa.[7][29]

B. H. Danser suggested that N. burbidgeae is most closely related to N. pilosa.[14][30] The latter species is poorly known and was for a long time confused with N. chaniana.[29][31]

The glandular crest of N. chaniana is very similar to that of N. burbidgeae, particularly in upper pitchers. However, it is difficult to confuse these species as the pitchers are otherwise markedly different in structure;[7] the upper pitchers of N. burbidgeae are short and funnel-shaped, whereas those of N. chaniana are elongated and have a dense indumentum of white hair.[6][29]

Natural hybrids

Lower pitchers of N. burbidgeae × N. fusca

Natural hybrids involving N. burbidgeae appear to be relatively rare and only four have been recorded to date.[7] Three of these (crosses with N. edwardsiana,[7] N. fusca,[7] and N. tentaculata[7]) have received little attention in the scientific literature, but N. burbidgeae × N. rajah has been described as N. × alisaputrana and is famous for producing huge pitchers rivalling those of N. rajah in size.[7]

N. burbidgeae × N. rajah

Nepenthes × alisaputrana was described in 1992 by J. H. Adam and C. C. Wilcock and is named in honour of Datuk Lamri Ali, Director of Sabah Parks.[32] It is only known from a few remote localities within Kinabalu National Park, where it grows in stunted, open vegetation over serpentine soils at around 2000 m above sea level, often amongst populations of N. burbidgeae.[28]

Lower pitchers of N. × alisaputrana (left) and N. burbidgeae (right), showing the broader peristome of the former.

This plant is notable for combining the best characters of both parent species, not least the size of its pitchers, which rival those of N. rajah in volume (≤35 cm high, ≤20 cm wide).[28] The other hybrids involving N. rajah do not exhibit such impressive proportions. The pitchers of N. × alisaputrana can be distinguished from those of N. burbidgeae by a broader peristome, larger lid and simply by their sheer size. The hybrid differs from its other parent, N. rajah, by its lid structure, indumentum of short, brown hairs, narrower and more cylindrical peristome, and pitcher colour, which is usually yellow-green with red or brown flecking. For this reason, Anthea Phillipps and Anthony Lamb gave it the common name "Leopard Pitcher-Plant".[6] The peristome is green to dark red and striped with purple bands. Leaves are often slightly peltate. The hybrid is a strong climber and frequently produces upper pitchers.[7]

Nepenthes × alisaputrana more closely resembles N. rajah than N. burbidgeae, but it is difficult to confuse this plant with either. However, this mistake has previously been made on at least one occasion; a pitcher illustrated in Adrian Slack's Insect-Eating Plants and How to Grow Them as being N. rajah[33] is in fact N. burbidgeae × N. rajah.[7]

In 2002, phytochemical screening and analytical chromatography were used to study the presence of phenolic compounds and leucoanthocyanins in N. × alisaputrana and its putative parent species. The research was based on leaf material from nine dry herbarium specimens. Eight spots containing phenolic acids, flavonols, flavones, leucoanthocyanins and 'unknown flavonoid' 1 and 3 were identified from chromatographic profiles. The distributions of these in the hybrid N. × alisaputrana and its putative parental species N. burbidgeae and N. rajah are shown in the adjacent table. A specimen of N. × alisaputrana grown from tissue culture (in vitro) was also tested.

Luteolin, cyanidin and 'Unknown Flavonoid 3' were undetected in N. burbidgeae, while concentrations of 'Unknown Flavonoid 1' were found to be weak. Chromatographic patterns of the N. × alisaputrana samples studied showed complementation of its putative parental species.

Myricetin was found to be absent from all studied taxa. This agrees with the findings of previous authors[34][35] and suggests that the absence of a widely distributed compound like myricetin among the Nepenthes examined might provide additional diagnostic information for these taxa.

Cultivation

Little information has been published on the growing requirements of N. burbidgeae. In Insect-Eating Plants and How to Grow Them, Adrian Slack wrote that cuttings of N. burbidgeae were more difficult to root than those of other Nepenthes species.[33][36][37]

In 2004, professional horticulturist Robert Sacilotto published a summary of measured tolerances of highland Nepenthes species, based on experiments conducted between 1996 and 2001.[38] Nepenthes burbidgeae was found to be tolerant of a fairly wide range of conditions, particularly in terms of temperature and soil composition; it grew in every substrate used in the experiment. However, plants showed stunted growth when grown in a mixture consisting of 50% silica gel, 20% Sphagnum moss, 20% fir bark, and 10% peat moss chunks. The highest growth rates were exhibited by specimens in 50% leached perlite, 30% long fiber Sphagnum moss, 10% peat moss chunks, and 10% fir bark, as well as media without fir bark and with a higher percentage of Sphagnum. Nepenthes burbidgeae was found to tolerate temperatures in the range of 9 to 41 °C (48° to 105 °F). A nighttime drop in temperature below 18 °C (65 °F) was necessary for good growth; plants that were not exposed to such a drop grew around 50% slower and produced fewer pitchers. Optimal growth rates were observed with daytime temperatures of 20 to 29 °C (68° to 85 °F) and nighttime temperatures of 12 to 16 °C (54° to 60 °F). Soil with a pH of 4.8 to 5.5 produced the best results; values below 3.5 corresponded with slower growth. Optimal soil conductivity was between 10 and 24 microsiemens, and prolonged exposure of one week or more to levels of more than 60 microsiemens resulted in foliar burn. The experiments suggested that N. burbidgeae grows best when relative humidity is in the range of 68 to 95%. However, constant exposure to high humidity in excess of 90% resulted in disease outbreaks and increased plant death rates. Seedlings of less than one year proved to be particularly vulnerable to this. Optimal light levels varied depending on the light source used: 8100–11000 lx (750–1000 fc) in sunlight, 7000–9700 lx (650–900 fc) under high pressure sodium lamps, 6500–9100 lx (600–850 fc) under metal halide lamps, and 5400–7300 lx (500–680 fc) under fluorescent lamps. Nepenthes burbidgeae could be grown in lower light conditions, but such plants exhibited etiolated growth and reduced colouration. The species was found to respond well to a fertilizer that was applied to the pitchers on a monthly basis, but a foliar feed using the same solution produced no visible change in growth rate.[38]

Notes

a.^ The Latin description of N. burbidgeae from Danser's monograph reads:[14]

Folia mediocria petiolata, lamina elliptica, nervis longitudinalibus utrinque 3-4, vagina in alas 2 decurrente: ascidia rosularum et inferiora ignota ; ascidia superiora infundibuliformia, parte inferiore costis 2 prominentibus, os versus alis 2 fimbriatis ; peristomio operculum versus in collum ; 1-2 cm altum elevato, cylindrico, crebre costato, operculo late cordato, facie inferiore prope basin carina valida ; inflorescentia ignota ; indumentum in omnibus partibus iuventute pubescens, statu adulto parcum v. deciduum, in margine foliorum persistens.

References

  1. ^ a b Schnell, D.; Catling, P.; Folkerts, G.; Frost, C.; Gardner, R.; et al. (2000). "Nepenthes burbidgeae". IUCN Red List of Threatened Species. 2000: e.T40105A10314173. doi:10.2305/IUCN.UK.2000.RLTS.T40105A10314173.en. Retrieved 4 November 2022.
  2. ^ a b Burbidge, F.W. 1882. Notes on the new Nepenthes. The Gardeners' Chronicle, new series, 17(420): 56.
  3. ^ a b Burbidge, F.W. 1894. Nepenthes. Journal of the Royal Horticultural Society 17: 50.
  4. ^ a b Stapf, O. 1894. On the flora of Mount Kinabalu, in North Borneo. The Transactions of the Linnean Society of London 4: 96–263.
  5. ^ a b c d e f g Kurata, S. 1976. Nepenthes of Mount Kinabalu. Sabah National Parks Publications No. 2, Sabah National Parks Trustees, Kota Kinabalu.
  6. ^ a b c d e f g h i Phillipps, A. & A. Lamb 1996. Pitcher-Plants of Borneo. Natural History Publications (Borneo), Kota Kinabalu.
  7. ^ a b c d e f g h i j k l m n o p q r s t u v w Clarke, C.M. 1997. Nepenthes of Borneo. Natural History Publications (Borneo), Kota Kinabalu.
  8. ^ St. John, S. 1862. Life in the Forests of the Far East; or, Travels in northern Borneo. 2 volumes. Smith, Elder & Co., London.
  9. ^ a b Schlauer, J. 2006. Nepenthes burbidgeae. Carnivorous Plant Database.
  10. ^ a b Specimen Details: Nepenthes burbidgei Hook. f. ex Burb.. The New York Botanical Garden.
  11. ^ Burbidge, F.W. 1880. The Gardens of the Sun. Murray, London.
  12. ^ a b Jebb, M.H.P. & M.R. Cheek 1997. A skeletal revision of Nepenthes (Nepenthaceae). Blumea 42(1): 1–106.
  13. ^ Burbidge, F.W. 1896. Nepenthes. The Gardeners' Chronicle 20(2): 105–106.
  14. ^ a b c d Danser, B.H. 1928. 7. Nepenthes Burbidgeae BURB. In: The Nepenthaceae of the Netherlands Indies. Bulletin du Jardin Botanique de Buitenzorg, Série III, 9(3–4): 249–438.
  15. ^ Beccari, O. 1886. Rivista delle specie del genere Nepenthes. Malesia 3: 1–15.
  16. ^ Macfarlane, J.M. 1908. Nepenthaceae. In: A. Engler. Das Pflanzenreich IV, III, Heft 36: 1–91.
  17. ^ Merrill, E.D. 1921. A bibliographic enumeration of Bornean plants. Journal of the Straits branch of the Royal Asiatic Society, special number. pp. 281–295.
  18. ^ Lowrie, A. 1983. Sabah Nepenthes Expeditions 1982 & 1983. Carnivorous Plant Newsletter 12(4): 88–95.
  19. ^ 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 Biology 25(1): 90–102. doi:10.1111/j.1420-9101.2011.02406.x
  20. ^ Malouf, P. 1995. A visit to Kinabalu Park. Carnivorous Plant Newsletter 24(4): 104–108.
  21. ^ a b Thong, J. 2006. Travels around North Borneo – Part 1. Archived 2011-07-07 at the Wayback Machine Victorian Carnivorous Plant Society Inc. 81: 12–17.
  22. ^ a b c Adam, J.H., C.C. Wilcock & M.D. Swaine 1992. The ecology and distribution of Bornean Nepenthes. Archived 2011-07-22 at the Wayback Machine Journal of Tropical Forest Science 5(1): 13–25.
  23. ^ Thong, J. 2006. Travels around North Borneo – Part 2. Archived 2011-07-07 at the Wayback Machine Victorian Carnivorous Plant Society Inc. 82: 6–12.
  24. ^ McPherson, S.R. 2009. Pitcher Plants of the Old World. 2 volumes. Redfern Natural History Productions, Poole.
  25. ^ Cheek, M.R. & M.H.P. Jebb 2001. Nepenthaceae. Flora Malesiana 15: 1–157.
  26. ^ Risner, J.K. 1987. The Mystery of the Nepenthes, or Just How Did They Get There? Carnivorous Plant Newsletter 16(4): 115–118.
  27. ^ a b Steiner, H. 2002. Borneo: Its Mountains and Lowlands with their Pitcher Plants. Toihaan Publishing Company, Kota Kinabalu.
  28. ^ a b c Clarke, C.M. 2001. A Guide to the Pitcher Plants of Sabah. Natural History Publications (Borneo), Kota Kinabalu.
  29. ^ a b c Clarke, C.M., C.C. Lee & S. McPherson 2006. Nepenthes chaniana (Nepenthaceae), a new species from north-western Borneo. Sabah Parks Journal 7: 53–66.
  30. ^ Danser, B.H. 1935. Note on a few Nepenthes. Bulletin du Jardin Botanique de Buitenzorg, Série III, 13(3): 465–469.
  31. ^ [Anonymous] 2006. New pitcher plant species that went unnoticed Archived 2007-09-21 at the Wayback Machine. Daily Express, October 28, 2006.
  32. ^ Adam, J.H. & C.C. Wilcock 1992. A new natural hybrid of Nepenthes from Mt. Kinabalu (Sabah). Reinwardtia 11: 35–40.
  33. ^ a b Slack, A. 1986. Insect-Eating Plants and How to Grow Them. Alphabooks, Dorset, UK.
  34. ^ Jay, M. & P. Lebreton 1972. Chemotaxonomic research on vascular plants. The flavonoids of Sarraceniaceae, Nepenthaceae, Droseraceae and Cephlotaceae, a critical study of the order Sarraceniales. Naturaliste Canadien 99: 607–613.
  35. ^ Som, R.M. 1988. Systematic studies on Nepenthes species and hybrids in the Malay Peninsula. Ph.D. thesis, Fakulti Sains Hayat, Universiti Kebangsaan Malaysia, UKM Bangi, Selangor Darul Ehsan.
  36. ^ Marthaler, O. 1996. An addition to Adrian Slack's comment on Nepenthes burbidgeae (improbable) cuttings. Carnivorous Plant Newsletter 25(3): 94–95.
  37. ^ Marthaler, O. 1996. An addition to Adrian Slack's comments on Nepenthes burbidgeae cuttings. Bulletin of the Australian Carnivorous Plant Society, Inc. 15(1): 8–9.
  38. ^ a b Sacilotto, R. 2004. Experiments with highland Nepenthes seedlings: A Summary of Measured Tolerances. Carnivorous Plant Newsletter 33(1): 26–31.
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Nepenthes burbidgeae: Brief Summary

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Nepenthes burbidgeae /nɪˈpɛnθiːz bɜːrˈbɪdʒiaɪ/, also known as the painted pitcher plant or Burbidge's Pitcher-Plant, is a tropical pitcher plant with a patchy distribution around Mount Kinabalu and neighbouring Mount Tambuyukon in Sabah, Borneo.

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