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Steel trap (sometimes written "steel-trap" or "steeltrap") is an informal term in the study of comparative plant physiology of the carnivorous plants. "Steel trap", more particularly "active steel trap", refers to prey capture devices such as occur in some members of the family Droseraceae, and in particular in the genera ''Dionaea'' ("Venus flytrap") and ''Aldrovanda'' ("waterwheel").〔Breckpot C., 1997. Aldrovanda vesiculosa: Description, distribution, ecology and cultivation. Carniv. Plant Newslett. 26: 73-82. () 〕 The term apparently originated with the author Francis Ernest Lloyd in 1942, in which he adopted the overly general term "steel trap" rather than say, "gin trap" or a more adjectival form, for devices such as the lobed trap leaves of ''Dionaea''. The distinctive attributes of "steel trap" devices are that:〔Williams, Stephen E. Comparative Sensory Physiology of the Droseraceae. Proceedings of the American Philosophical Society, Vol. 120, No. 3 (Jun. 15, 1976), pp.187-204. Pub: American Philosophical Society. Stable URL: () 〕 * they are active, capturing prey with positive movements, not relying on mere stickiness, hooks, pitfalls or the like; * prey capturing activity occurs only in response to specific tactile stimuli — prey making contact with sensory bristles; * the action is a thigmonastic, stereotyped, rapid movement (often completed in well under one second). When the term "steel trap" originally was published, it apparently referred in part to the shape of the trap mechanism,〔 but in terms of their functional significance rather than their shape, the associated concepts listed could apply equally well to the bladder traps of ''Utricularia''〔Rutishauser, Rolf and Jeannette Brugger and Lorenz Butschi (1992) Structural and developmental diversity of Utricularia traps. Carniv. Pl. Newslett. 21(3):68-74 ()〕 and to the more recently described action of the Australian sundew species ''Drosera glanduligera''. Those species also trap actively, in response to tactile stimuli, using a rapid thigmonastic response. At all events, the "active steel trap" mechanism differs in one or more of these respects from trap mechanisms in other members of the family Droseraceae. It also differs from other passive trapping mechanisms such as those of the pitfall traps of pitcher plants. The genus ''Drosophyllum'' for example, uses the "passive flypaper" mechanism, in which prey in contact with the sticky fluid on the bristles of the leaves simply get more tangled as they struggle.〔 This "passive flypaper" mechanism of ''Drosophyllum'' differs in turn from the "active flypaper" trap of the related sundew genus ''Drosera''. The adhesive-bearing bristles or "tentacles" of most ''Drosera'' species nastically bend inwards, trapping the struggling insect, and commencing the process of digestion. These movements are slow and very different from the steel trap action.〔 ''Drosera glanduligera'' has a mechanism in some ways different from the typical "active flypaper" of most ''Drosera'' species. Its sticky tentacles grow only in the flat area of its round, peltate leaves; around the margin of the leaf there are long, jointed tentacles that snap inwards when stimulated, catapulting prey inward to succumb to the sticky tentacles in the usual manner.〔 ==References== 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Steel trap (carnivorous plants)」の詳細全文を読む スポンサード リンク
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