Pitcher plant
Pitcher plants are several different carnivorous plants which have modified leaves known as pitfall traps—a prey-trapping mechanism featuring a deep cavity filled with digestive fluid liquid. The traps of what we consider to be "true" pitcher plants are created from modified leaves; however they are not simply folded into a tube, and the process is far more complicated. [1]
Types of pitcher plants
The term "pitcher plant" generally refers to members of the Nepenthaceae and Sarraceniaceae families, but similar pitfall traps are employed by the monotypic Cephalotaceae and some members of the Bromeliaceae. The families Nepenthaceae and Sarraceniaceae are the most species-rich families of pitcher plants.
The Nepenthaceae contains a single genus, Nepenthes, containing over 100 species and numerous hybrids and cultivars.[2] In these Old World pitcher plants, the pitchers are borne at the end of tendrils that extend from the midrib of an otherwise unexceptional leaf. 'Old world' pitcher plants (genus: Nepenthes) are typically characterized as having reduced and symmetrical pitchers with a comprehensive waxy coating on the surface of the inner pitcher wall.[3] The plants themselves are often climbers, accessing plants (Sarraceniaceae), which comprise three genera,[4] are ground-dwelling herbs whose pitchers arise from a horizontal rhizome. In this family, the entire leaf forms the pitcher, as opposed to Nepenthaceae where the pitcher arises from the terminal portion of the leaf. The species of the genus Heliamphora, which are popularly known as marsh pitchers (or erroneously as sun pitchers), have a simple rolled-leaf pitcher, at the tip of which is a spoon-like structure that secretes nectar. They are restricted to areas of high rainfall in South America. The North American genus Sarracenia are the trumpet pitchers, which have a more complex trap than Heliamphora, with an operculum, which prevents excess accumulation of rainwater in most of the species. The single species in the Californian genus Darlingtonia is popularly known as the cobra plant, due to its possession of an inflated "lid" with elegant false-exits, and a forked "tongue", which serves to ferry ants and other prey to the entrance of the pitcher. The species in the genus Sarracenia readily hybridise, making their classification a complex matter.
The Cephalotaceae is a monotypic family with but one genus and species, Cephalotus follicularis. This species has a small (2–5 cm) pitcher similar in form to those of Nepenthes. It occurs in only one location in southwestern Australia.
A few species of bromeliads (Bromeliaceae), such as Brocchinia reducta and Catopsis berteroniana, are known or suspected to be carnivorous. Bromeliads are monocots, and given that they all naturally collect water where their leaves meet each other, and that many collect detritus, it is not surprising that a few should have been naturally selected to develop the habit into carnivory by the addition of wax and downward-pointing hairs.
The purple pitcher plant, Sarracenia purpurea, is the floral emblem of the province of Newfoundland and Labrador, Canada.
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Feeding behavior
Foraging, flying or crawling insects such as flies are attracted to the cavity formed by the cupped leaf, often by visual lures such as anthocyanin pigments, and nectar bribes. The rim of the pitcher (peristome) is slippery, when moistened by condensation or nectar, causing insects to fall into the trap. Pitcher plants may also contain waxy scales, protruding aldehyde crystals, cuticular folds, inward and downward pointing (retrorse) hairs, or guard-cell-originating lunate cells on the inside of the pitcher to ensure that insects cannot climb out.[1] The small bodies of liquid contained within the pitcher traps are called phytotelmata. They drown the insect, and the body of it is gradually dissolved. This may occur by bacterial action (the bacteria being washed into the pitcher by rainfall) or by enzymes secreted by the plant itself. Furthermore, some pitcher plants contain mutualistic insect larvae, which feed on trapped prey, and whose excreta the plant absorbs.[5] Whatever the mechanism of digestion, the prey items are converted into a solution of amino acids, peptides, phosphates, ammonium and urea, from which the plant obtains its mineral nutrition (particularly nitrogen and phosphorus). Like all carnivorous plants, they all grow in locations where the soil is too poor in minerals and/or too acidic for most plants to survive. The Pitcher Plant doesn't rely on just glucose to survive, they also need other micronutrients and minerals, and things which they normally obtain through their roots. Which they are getting from the nutrients of the insects they are eating.
Mature plants of Nepenthes lowii attract tree shrews, (Tupaia montana), the tree shrews feed on nectar that the plant produces but also defecate into the pitcher providing nitrates and other nutrients that the plant needs. The plant and tree shrew have a symbiotic relationship. N. lowii has adapted to getting its nutrients from defecating animals, the rim is not slippery so tree shrews can easily get away, it provides more nectar than other pitcher plants which helps feed the tree shrews. The shape of the pitcher rim and the position of the nectar ensure that the animal's hindquarters must be over the rim while it feeds.[6]
Evolution of the form
It is widely assumed pitfall traps evolved by epiascidiation (infolding of the leaf with the adaxial or upper surface becoming the inside of the pitcher),[7][8] with selection pressure favouring more deeply cupped leaves over evolutionary time. The pitcher trap evolved independently in three eudicot lineages and one monocot lineage, representing a case of convergent evolution.[7] Some pitcher plant families (such as Nepenthaceae) are placed within clades consisting mostly of flypaper traps, indicating that some pitchers may have evolved from the common ancestors of today's flypaper traps by loss of mucilage.
See also
- Darlingtonia State Natural Site - A nature preserve for pitcher plants in Oregon, USA
- Slippery Liquid Infused Porous Surfaces (SLIPS) - A pitcher plant-inspired ultraslippery, repellent, and non-fouling surface originally invented by Prof. Aizenberg group at Wyss Institute at Harvard University
Notes
- 1 2 Krol, E.; Plancho, B.J.; Adamec, L.; Stolarz, M.; Dziubinska, H.; Trebacz, K (2011). "Quite a few reasons for calling carnivores 'the most wonderful plants in the world". Annals of Botany 109 (1): 47–64. doi:10.1093/aob/mcr249.
- ↑ Moran, J.A.; Clarke, C.M. (100BC). "The carnivorous syndrome in Nepenthes pitcher plants: the current state of knowledge and potential future directions". Plant Signaling and Behavior 5 (6): 644–648. doi:10.4161/psb.5.6.11238. PMC 3001552. PMID 21135573. Check date values in:
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(help) - ↑ Bauer, Ulrike, et al. "Form Follows Function: Morphological Diversification And Alternative Trapping Strategies In Carnivorous Nepenthes Pitcher Plants."Journal Of Evolutionary Biology 25.1 (2012): 90-102. MEDLINE with Full Text.
- ↑ Ellison, A.M.; Bulter, E.D.; Hicks, E.J.; Naczi, R.F.C.; Calie, P.J.; Bell, C.D. Davis, C.C. (2012). "Phylogeny and biogeography of the carnivorous plant family Sarraceniaceae". PLoS ONE 7 (6): e39291. doi:10.1371/journal.pone.0039291. Cite uses deprecated parameter
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(help) - ↑ McAlpine, D.K. (1998). "Review of the Australian stilt flies (Diptera: Micropezidae) with a phylogenetic analysis of the family". Invertebrate Taxonomy 12 (1): 55–134. doi:10.1071/IT96018.
- ↑ Pitcher Plant Doubles as Toilet
- 1 2 Albert, V.A.; Williams, S.E.; Chase, M.W. (1992). "Carnivorous Plants: Phylogeny and Structural Evolution". Science 257 (5076): 1491–1495. doi:10.1126/science.1523408. PMID 1523408.
- ↑ Owen Jr, T.P.; Lennon, K.A. (1999). "Structure and Development of Pitchers from the Carnivorous Plant Nepenthes alta (Nepenthaceae)". American Journal of Botany 86 (10): 1382–1390. doi:10.2307/2656921. PMID 10523280.
References
- This article incorporates text from a publication now in the public domain: Chisholm, Hugh, ed. (1911). "Pitcher Plants". Encyclopædia Britannica (11th ed.). Cambridge University Press.
Further reading
- Juniper, B.E., R.J. Robins & D.M. Joel (1989). The Carnivorous Plants. Academic Press, London.
- Schnell, D. (2003). Carnivorous Plants of the United States and Canada. Second Edition. Timber Press, Oregon, U.S.A.
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- ↑ http://gardenofeaden.blogspot.co.uk/2010/02/how-does-pitcher-plant-attract-catch.html
- ↑ http://www.thenakedscientists.com/HTML/questions/question/2797/