Ballistic tongue projection in chameleons maintains high performance at low temperature

Environmental temperature impacts the physical activity and ecology of ectothermic animals through its effects on muscle contractile physiology. Sprinting, swimming, and jumping performance of ectotherms decreases by at least 33% over a 10 °C drop, accompanied by a similar decline in muscle power. W...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2010-03, Vol.107 (12), p.5495-5499
Hauptverfasser:	Anderson, Christopher V, Deban, Stephen M
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Sprache:	eng
Schlagworte:	Animals Arithmetic mean Ballistics Biological Sciences Biomechanical Phenomena Cold Temperature Ecosystem Elastic tissue Elastic Tissue - physiology Feeding Behavior - physiology Jumping Lizards Lizards - physiology Low temperature Muscle, Skeletal - physiology Muscles Reptiles & amphibians Temperature Temperature dependence Tissues Tongue Tongue - physiology Velocity
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Anderson, Christopher V Deban, Stephen M
description	Environmental temperature impacts the physical activity and ecology of ectothermic animals through its effects on muscle contractile physiology. Sprinting, swimming, and jumping performance of ectotherms decreases by at least 33% over a 10 °C drop, accompanied by a similar decline in muscle power. We propose that ballistic movements that are powered by recoil of elastic tissues are less thermally dependent than movements that rely on direct muscular power. We found that an elastically powered movement, ballistic tongue projection in chameleons, maintains high performance over a 20 °C range. Peak velocity and power decline by only 10%–19% with a 10 °C drop, compared to >42% for nonelastic, muscle-powered tongue retraction. These results indicate that the elastic recoil mechanism circumvents the constraints that low temperature imposes on muscle rate properties and thereby reduces the thermal dependence of tongue projection. We propose that organisms that use elastic recoil mechanisms for ecologically important movements such as feeding and locomotion may benefit from an expanded thermal niche.
doi_str_mv	10.1073/pnas.0910778107
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subjects	Animals Arithmetic mean Ballistics Biological Sciences Biomechanical Phenomena Cold Temperature Ecosystem Elastic tissue Elastic Tissue - physiology Feeding Behavior - physiology Jumping Lizards Lizards - physiology Low temperature Muscle, Skeletal - physiology Muscles Reptiles & amphibians Temperature Temperature dependence Tissues Tongue Tongue - physiology Velocity
title	Ballistic tongue projection in chameleons maintains high performance at low temperature
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