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Name : Haris Ismail, Hamza Khan and Shayreyar Khan Class: VI-E School: BSS.

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Presentation on theme: "Name : Haris Ismail, Hamza Khan and Shayreyar Khan Class: VI-E School: BSS."— Presentation transcript:

1 Name : Haris Ismail, Hamza Khan and Shayreyar Khan Class: VI-E School: BSS

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3 Nepenthes mirabilisNepenthes mirabilis in flower, growing on a road cut in PalauPalau

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5 Brocchinia reductaBrocchinia reducta: a carnivorous bromeliad

6 The leaf of a Drosera capensis bending in response to the trapping of an insectDrosera capensis

7 Roridula gorgoniasRoridula gorgonias: a borderline carnivore that gains nutrients from its "prey" via the droppings of a predatory bug

8 The Venus Flytrap (also Venus's Flytrap or Venus' Flytrap), Dionaea muscipula, is a carnivorous plant that catches and digests animal prey—mostly insects and arachnids. Its trapping structure is formed by the terminal portion of each of the plant's leaves and is triggered by tiny hairs on their inner surfaces. When an insect or spider crawling along the leaves contacts a hair, the trap closes if a different hair is contacted within twenty seconds of the first strike. The requirement of redundant triggering in this mechanism serves as a safeguard against a waste of energy in trapping objects with no nutritional value.carnivorous plantinsectsarachnids

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10 Pitfall traps are thought to have evolved independently on at least four occasions. The simplest ones are probably those of Heliamphora, the marsh pitcher plant. In this genus, the traps are clearly derived evolutionarily from a simple rolled leaf whose margins have sealed together. These plants live in areas of high rainfall in South America such as Mount Roraima and consequently have a problem ensuring their pitchers do not overflow. To counteract this problem, natural selection has favoured the evolution of an overflow similar to that of a bathroom sink—a small gap in the zipped-up leaf margins allows excess water to flow out of the pitcher.Heliamphorapitcher plantgenusevolutionarilyMount Roraimanatural selectionsink Heliamphora is a member of the Sarraceniaceae, a New World family in the order Ericales (heathers and allies). Heliamphora is limited to South America, but the family contains two other genera, Sarracenia and Darlingtonia, which are endemic to the Southeastern United States (with the exception of one species) and California respectively. Sarracenia purpurea subsp. purpurea (the northern pitcher plant) can be found as far north as Canada. Sarracenia is the pitcher plant genus most commonly encountered in cultivation, because it is relatively hardy and easy to grow.SarraceniaceaeNew WorldEricalesheathersSarraceniaDarlingtoniaSoutheastern United StatesCaliforniaSarracenia purpureaCanada

11 The flypaper trap is based on a sticky mucilage, or glue. The leaf of flypaper traps is studded with mucilage-secreting glands, which may be short and nondescript (like those of the butterworts), or long and mobile (like those of many sundews). Flypapers have evolved independently at least five times.mucilagebutterwortssundews In the genus Pinguicula, the mucilage glands are quite short (sessile), and the leaf, while shiny (giving the genus its common name of 'butterwort'), does not appear carnivorous. However, this belies the fact that the leaf is an extremely effective trap of small flying insects (such as fungus gnats), and its surface responds to prey by relatively rapid growth. This thigmotropic growth may involve rolling of the leaf blade (to prevent rain from splashing the prey off the leaf surface) or dishing of the surface under the prey to form a shallow digestive pit.Pinguiculasessilebutterwortfungus gnatsthigmotropic The sundew genus (Drosera) consists of over 100 species of active flypapers whose mucilage glands are borne at the end of long tentacles, which frequently grow fast enough in response to prey (thigmotropism) to aid the trapping process. The tentacles of D. burmanii can bend 180° in a minute or so. Sundews are extremely cosmopolitan and are found on all the continents except the Antarctic mainland. They are most diverse in Australia, the home to the large subgroup of pygmy sundews such as D. pygmaea and to a number of tuberous sundews such as D. peltata, which form tubers that aestivate during the dry summer months. These species are so dependent on insect sources of nitrogen that they generally lack the enzyme nitrate reductase, which most plants require to assimilate soil-borne nitrate into organic forms.sundewDroseratentaclesthigmotropismAntarcticAustraliaaestivatenitrate reductase

12 The only two active snap traps—the Venus flytrap (Dionaea muscipula) and the waterwheel plant (Aldrovandavesiculosa)—are believed to have had a common ancestor with similar adaptations. Their trapping mechanism has also been described as a "mouse trap", "bear trap" or "man trap", based on their shape and rapid movement. However, the term snap trap is preferred as other designations are misleading, particularly with respect to the intended prey. Aldrovanda is aquatic and specialised in catching small invertebrates; Dionaea is terrestrial and catches a variety of arthropods, including spiders. [8]Venus flytrapDionaea muscipulawaterwheel plantAldrovandacommon ancestor [8] The traps are very similar, with leaves whose terminal section is divided into two lobes, hinged along the midrib. Trigger hairs (three on each lobe in Dionaea muscipula, many more in the case of Aldrovanda) inside the trap lobes are sensitive to touch. When a trigger hair is bent, stretch-gated ion channels in themembranes of cells at the base of the trigger hair open, generating an action potential that propagates to cells in the midrib. [9] These cells respond by pumping out ions, which may either cause water to follow by osmosis (collapsing the cells in the midrib) or cause rapid acid growth. [10] The mechanism is still debated, but in any case, changes in the shape of cells in the midrib allow the lobes, held under tension, to snap shut, [9] flipping rapidly from convex to concave [11] and interring the prey. This whole process takes less than a second. In the Venus flytrap, closure in response to raindrops and blown-in debris is prevented by the leaves having a simple memory: for the lobes to shut, two stimuli are required, 0.5 to 30 seconds apart.Trigger hairsion channelsmembranesaction potential [9]acid growth [10] [9] [11]stimuli

13 http://en.wikipedia.org/wiki/Carnivorous_plant

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