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Description


Nepenthes species usually consist of a shallow root system and a prostrate or climbing stem, often several metres long and up to 15 m (49 ft) or more, and usually 1 cm (0.4 in) or less in diameter, although this may be thicker in a few species (e.g. N. bicalcarata). From the stems arise alternate sword-shaped leaves with entire leaf margins. An extension of the midrib (tendril), which in some species aid in climbing, protrudes from the tip of the leaf; at the end of the tendril the pitcher forms. The pitcher starts as a small bud and gradually expands to form a globe- or tube-shaped trap.[2]

Basic structure of an upper pitcher
The trap contains a fluid of the plant's own production, which may be watery or syrupy and is used to drown the prey. Research has shown that this fluid contains viscoelastic biopolymersthat may be crucial to the retention of insects within the traps of many species. The trapping efficiency of this fluid remains high, even when significantly diluted by water, as inevitably happens in wet conditions.[3]
The lower part of the trap contains glands which absorb nutrients from captured prey. Along the upper inside part of the trap is a slick waxy coating which makes the escape of its prey nearly impossible. Surrounding the entrance to the trap is a structure called the peristome (the "lip") which is slippery and often quite colorful, attracting prey but offering an unsure footing. Above the peristome is a lid (the operculum): in many species this keeps rain from diluting the fluid within the pitcher, the underside of which may contain nectar glands which attract prey.[2]
Nepenthes usually produce two types of pitchers, known as leaf dimorphism. Appearing near the base of the plant are the large lower traps, which typically sit on the ground. The upper or aerial pitchers are usually smaller, differently-coloured, and possess different features from the lower pitchers. These upper pitchers usually form as the plant reaches maturity and the plant grows taller. To keep the plant steady, the upper pitchers often form a loop in the tendril, allowing it to wrap around nearby support. In some species (e.g. N. rafflesiana) different prey may be attracted by the two types of pitchers. This varied morphology also often makes identification of species difficult.[2]
Prey usually consists of insects, but the largest species (e.g. N. rajah and N. rafflesiana) may occasionally catch small vertebrates, such as rats and lizards.[4][5] There are even records of cultivated plants trapping small birds.[6][7] Flowers occur in racemes or more rarely in panicles with male and female flowers on separate plants. They are insect pollinated, the primary agents being flies (includingblow fliesmidges, and mosquitoes), moths, wasps, and butterflies.[8] Their smell can range from sweet to musty or fungus-like.[9] Seedis produced in a four-sided capsule which may contain 50–500 wind-distributed seeds, consisting of a central embryo and two wings, one on either side.

Distribution and habitat


The genus Nepenthes is mostly found within the Malay Archipelago, with the greatest biodiversity found on Borneo and Sumatra, especially in the Borneo montane rain forests. The full range of the genus includes Madagascar (N. madagascariensis andN. masoalensis), the Seychelles (N. pervillei), Sri Lanka (N. distillatoria), and India (N. khasiana) in the west to Australia (N. mirabilisN. rowanae, and N. tenax) and New Caledonia (N. vieillardii) in the southeast. Most species are restricted to very small ranges, including some that are only found on individual mountains. These limited distributions and the inaccessibility of the region often means that some species go decades without being rediscovered in the wild (e.g. N. deaniana, which was rediscovered 100 years after its initial discovery). Approximately ten species have population distributions larger than a single island or group of smaller islands. Nepenthes mirabilis has the distinction of being the most widely distributed species in the genus, ranging fromIndochina and throughout the Malay Archipelago to Australia.[2][10][11]
Because of the nature of the habitats which Nepenthes species occupy, they are often graded as either lowland or highland species, depending on their altitude above sea level, with 1,200 m (3,937 ft) the rough delineation between lowland and highland. Species that grow at lower altitudes require continuously warm climates with little difference between day and night temperatures, whereas highland species thrive when they receive warm days and much cooler nights. Nepenthes lamii is the species that holds the record of growing at a higher altitude than any other in the genus, up to 3,520 m (11,549 ft).[2][11]
Most Nepenthes species grow in environments that provide high humidity and precipitation and moderate to high light levels. A few species, including N. ampullaria, prefer the dense, shaded forests, but most other species thrive on the margins of tree/shrub communities or clearings. Some species (e.g. N. mirabilis) have been found growing in clear-cut forest areas, roadsides, and disturbed fields. Other species have adapted to growing in savanna-like grass communities. The soils that Nepenthes grow in are usually acidic and low in nutrients, being composed of peat, white sand, sandstone, or volcanic soils. There are, however, exceptions to these generalities, including species that thrive in soils that have high heavy metalcontent (e.g. N. rajah), on sandy beaches in the sea spray zone (e.g. N. albomarginata). Other species grow on inselbergs and as lithophytes, while others, such as N. inermis, can grow as epiphytes with no soil contact.[2]
Distribution and habitat

Ecological relationships


Ecological relationships

A drowned lizard found in a freshly opened pitcher of N. rajah
The most obvious interaction between Nepenthes species and its environment, including other organisms, is that of predator and prey.Nepenthes species certainly attract and kill their prey, albeit passively, through active production of attractive colours, sugary nectar, and even sweet scents. From this relationship, the plants primarily gain nitrogen and phosphorus to supplement their nutrient requirements for growth, given that soil nutrients are typically lacking. The most frequent prey is an abundant and diverse group of arthropods, with ants and otherinsects topping the menu. Other arthropods that are found frequently include spidersscorpions, and centipedes, while snails and frogs are more unusual but not unheard of. The most uncommon prey for Nepenthes species includes rats found in N. rajah. The composition of prey captured depends on many factors, including location, but can incorporate hundreds of individual insects and many different species.[2] While many Nepenthes are generalists in what they capture, at least one, N. albomarginata, has specialised and almost exclusively traps termitesand produces nearly no nectar. Nepenthes albomarginata gains its name from the ring of white trichomes that are directly beneath the peristome. These trichomes—or "hairs"—are palatable to termites and will attract them to the pitcher. In the course of collecting the edible trichomes, hundreds or thousands of termites will fall into the pitcher.[12][13]
A lower pitcher of N. attenboroughiisupporting a large population of mosquito larvae. The upright lid of this species exposes its pitchers to the elements such that they are often completely filled with fluid.[14]

[edit]Symbioses

Nepenthes bicalcarata provides space in the hollow tendrils of its upper pitchers for the carpenter ant Camponotus schmitzi to build nests. The ants take larger prey from the pitchers, which may benefit N. bicalcarata by reducing the amount of putrefaction of collected organic matter that could harm the natural community of infaunal species that aid the plant's digestion.[15]
Nepenthes lowii has also formed a dependent relationship, but this time it is with vertebrates instead of insects. The pitchers of N. lowii provide a sugary exudate reward on the reflexed pitcher lid (operculum) and a perch for tree shrew species, which have been found eating the exudate and defecating into the pitcher. A 2009 study, which coined the term "tree shrew lavatories", determined that anywhere between 57 and 100% of the plant's foliar nitrogen uptake comes from the faeces of tree shrews.[16] Another study published the following year showed that the shape and size of the pitcher orifice of N. lowii exactly match the dimensions of a typical tree shrew (Tupaia montana).[17][18] A similar adaptation was found in N. macrophylla and N. rajah, and is also likely to be present in N. ephippiata.[18]

[edit]Infauna

Organisms that spend at least part of their lives within the pitchers of Nepenthes species are often called Nepenthes infauna. The most common infaunal species, often representing the top trophic level of the infaunal ecosystem, are many species of mosquito larvae. Other infaunal species include fly and midge larvae, spiders, mites, ants, and even a species of crab (Geosesarma malayanum). Many of these species specialise to one pitcher plant species and are found nowhere else. These specialists are called nepenthebionts. Others that are often associated but are not dependent on Nepenthes species are called nepenthophiles. Nepenthexenes, on the other hand, are rarely found in the pitchers, but will often appear when putrefaction approaches a certain threshold, attracting fly larvae that would normally not be found in the pitcher infaunal community. The complex ecological relationship between pitcher plant and infauna is not yet fully understood, but it has been suggested that the relationship is mutualistic: the infauna is given shelter, food, or protection and the plant that harbours the infauna receives expedited breakdown of captured prey, increasing the rate of digestion and keeping harmful bacterial populations repressed.[15][19][20]

Botanical history


Botanical history

Plukenet's drawing of N. distillatoria from his Almagestum Botanicum of 1696.
The earliest known record of Nepenthes dates back to the 17th century. In 1658, French colonial governor Etienne de Flacourt published a description of a pitcher plant in his seminal work Histoire de la Grande Isle de Madagascar. It reads:[21]
It is a plant growing about 3 feet high which carries at the end of its leaves, which are 7 inches long, a hollow flower or fruit resembling a small vase, with its own lid, a wonderful sight. There are red ones and yellow ones, the yellow being the biggest. The inhabitants of this country are reluctant to pick the flowers, saying that if somebody does pick them in passing, it will not fail to rain that day. As to that, I and all the other Frenchmen did pick them, but it did not rain. After rain these flowers are full of water, each one containing a good half-glass. [translated from French in Pitcher-Plants of Borneo][9]
Flacourt called the plant Amramatico, after a local name. More than a century later, this species was formally described asN. madagascariensis.[22]
The second species to be described was N. distillatoria, the Sri Lankan endemic. In 1677, Bartholinus made brief mention of it under the nameMiranda herba, Latin for "marvellous herb".[23] Three years later, Dutch merchant Jacob Breyne referred to this species as Bandura zingalensium, after a local name for the plant.[24] Bandura subsequently became the most commonly used name for the tropical pitcher plants, until Linnaeus coined Nepenthes in 1737.[9]
Nepenthes distillatoria was again described in 1683, this time by Swedish physician H. N. Grimm.[25] Grimm called it Planta mirabilis destillatoria or the "miraculous distilling plant", and was the first to clearly illustrate a tropical pitcher plant.[9] Three years later, in 1686, English naturalist John Ray quoted Grimm as saying:[26]
The root draws up moisture from the earth which with the help of the sun's rays rises up into the plant itself and then flows down through the stems and nerves of the leaves into the natural utensil to be stored there until used for human needs. [translated from Latin in Pitcher-Plants of Borneo][9]
One of the earliest illustrations of Nepenthes appears in Leonard Plukenet's Almagestum Botanicum of 1696.[27] The plant, called Utricaria vegetabilis zeylanensium, is undoubtedlyN. distillatoria.[9]
Cantharifera as illustrated in Rumphius'sHerbarium Amboinensis, Volume 5, published in 1747, although probably drawn in the late 17th century. The vine on the right is not a Nepenthes, but a species ofFlagellaria.
It was around the same time that German botanist Georg Eberhard Rumphius discovered two new Nepenthes species in the Malay Archipelago. Rumphius illustrated the first one, now considered synonymous with N. mirabilis, and gave it the name Cantharifera, meaning "tankard-bearer". The second, referred to as Cantharifera alba, is thought to have been N. maxima. Rumphius described the plants in his most famous work, the six-volume Herbarium Amboinense, a catalogue of the flora of Ambon Island. However, it would not be published until many years after his death.[28]
After going blind in 1670, when the manuscript was only partially complete, Rumphius continued work on Herbarium Amboinensis with the help of clerks and artists. In 1687, with the project nearing completion, at least half of the illustrations were lost in a fire. Persevering, Rumphius and his helpers first completed the book in 1690. However, two years later, the ship carrying the manuscript to the Netherlands was attacked and sunk by the French, forcing them to start over from a copy that had fortunately been retained by Governor-General Johannes Camphuijs. The Herbarium Amboinensis finally arrived in the Netherlands in 1696. Even then, the first volume did not appear until 1741, thirty-nine years after Rumphius's death. By this time, Linnaeus's name Nepenthes had become established.[9]
Illustration of Bandura zeylanica(N. distillatoria) from Burmann's Thesaurus Zeylanicus of 1737.
Nepenthes distillatoria was again illustrated in Johannes Burmann's Thesaurus Zeylanicus of 1737. The drawing depicts the end of a flowering stem with pitchers. Burmann refers to the plant asBandura zeylanica.[29]
The next mention of tropical pitcher plants was made in 1790, when Portuguese priest João de Loureiro described Phyllamphora mirabilis, or the "marvellous urn-shaped leaf", from Vietnam. Despite living in the country for around 35 years, it seems unlikely that Loureiro observed living plants of this species, as he states that the lid is a moving part, actively opening and closing. In his most celebrated work, Flora Cochinchinensis, he writes:[30]
[...] (the) leaf-tip ends in a long hanging tendril, twisted spirally in the middle, from which hangs a sort of vase, oblong, pot-bellied, with a smooth lip with a projecting margin and a lid affixed to one side, which of its own nature freely opens and closes in order to receive the dew and store it. A marvellous work of the Lord! [translated from French in Pitcher-Plants of Borneo][9]
Phyllamphora mirabilis was eventually transferred to the genus Nepenthes by George Claridge Druce in 1916.[31] As such, P. mirabilis is the basionym of this most cosmopolitan of tropical pitcher plant species.[15]
Loureiro's description of a moving lid was repeated by Jean Louis Marie Poiret in 1797. Poiret described two of the four Nepenthes species known at the time: N. madagascariensis and N. distillatoria. He gave the former its current name and called the latter Nepente de l'Inde, or simply "Nepenthes of India", although this species is absent from the mainland. In Jean-Baptiste Lamarck's Encyclopédie Méthodique Botanique, he included the following account:[22]
This urn is hollow, as I have just said, usually full of soft, clear water, and then closed. It opens during the day and more than half the liquid disappears, but this loss is repaired during the night, and the next day the urn is full again and closed by its lid. This is its sustenance, and enough for more than one day because it is always about half-full at the approach of night. [translated from French in Pitcher-Plants of Borneo][9]