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毛虫将基质用作它们的外骨骼:行为确认。

Caterpillars use the substrate as their external skeleton: A behavior confirmation.

作者信息

Lin Huai-Ti, Trimmer Barry

机构信息

Tufts University; Medford, MA USA.

出版信息

Commun Integr Biol. 2010 Sep;3(5):471-4. doi: 10.4161/cib.3.5.12560.

DOI:10.4161/cib.3.5.12560
PMID:21057644
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2974084/
Abstract

Animals that lack rigid structures often employ pressurization to maintain body form and posture. Structural stability is then provided by incompressible fluids or tissues and the inflated morphology is called a hydrostatic skeleton. However, new ground reaction force data from the caterpillar, Manduca sexta suggest an alternate strategy for large soft animals moving in complex three dimensional structures. When crawling, Manduca can keep its body primarily in tension and transmit compressive deformation using the substrate. This effectively allows the caterpillar to minimize reliance on a hydrostatic skeleton and helps it conform to the environment. We call this alternative strategy an "environmental skeleton".

摘要

缺乏刚性结构的动物通常利用压力来维持身体形态和姿势。不可压缩的液体或组织提供结构稳定性,这种膨胀的形态被称为静水骨骼。然而,来自烟草天蛾毛虫的新地面反作用力数据表明,大型软体动物在复杂三维结构中移动时存在另一种策略。爬行时,烟草天蛾毛虫可以使其身体主要处于拉伸状态,并利用基质传递压缩变形。这有效地使毛虫尽量减少对静水骨骼的依赖,并帮助它适应环境。我们将这种替代策略称为“环境骨骼”。

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