Repeated Evolution of Power-Amplified Predatory Strikes in Trap-Jaw Spiders

Repeated Evolution of Power-Amplified Predatory Strikes in Trap-Jaw Spiders

Small animals possess intriguing morphological and behavioral traits that allow them to capture prey, including innovative structural mechanisms that produce ballistic movements by amplifying power [1–6]. Power amplification occurs when an organism produces a relatively high power output by releasin...

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Veröffentlicht in:Current biology 2016-04, Vol.26 (8), p.1057-1061
Hauptverfasser: Wood, Hannah M., Parkinson, Dilworth Y., Griswold, Charles E., Gillespie, Rosemary G., Elias, Damian O.
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Animals
arachnid
ballistic movement
Biomechanical Phenomena
Evolution, Molecular
morphology
Movement
Muscle, Skeletal - physiology
parallel evolution
phylogenetics
Phylogeny
Predatory Behavior
Spiders - genetics
Spiders - physiology
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container_end_page 1061
container_issue 8
container_start_page 1057
container_title Current biology
container_volume 26
creator Wood, Hannah M.
Parkinson, Dilworth Y.
Griswold, Charles E.
Gillespie, Rosemary G.
Elias, Damian O.
description Small animals possess intriguing morphological and behavioral traits that allow them to capture prey, including innovative structural mechanisms that produce ballistic movements by amplifying power [1–6]. Power amplification occurs when an organism produces a relatively high power output by releasing slowly stored energy almost instantaneously, resulting in movements that surpass the maximal power output of muscles [7]. For example, trap-jaw, power-amplified mechanisms have been described for several ant genera [5, 8], which have evolved some of the fastest known movements in the animal kingdom [6]. However, power-amplified predatory strikes were not previously known in one of the largest animal classes, the arachnids. Mecysmaucheniidae spiders, which occur only in New Zealand and southern South America, are tiny, cryptic, ground-dwelling spiders that rely on hunting rather than web-building to capture prey [9]. Analysis of high-speed video revealed that power-amplified mechanisms occur in some mecysmaucheniid species, with the fastest species being two orders of magnitude faster than the slowest species. Molecular phylogenetic analysis revealed that power-amplified cheliceral strikes have evolved four times independently within the family. Furthermore, we identified morphological innovations that directly relate to cheliceral function: a highly modified carapace in which the cheliceral muscles are oriented horizontally; modification of a cheliceral sclerite to have muscle attachments; and, in the power-amplified species, a thicker clypeus and clypeal apodemes. These structural innovations may have set the stage for the parallel evolution of ballistic predatory strikes. •High-speed, power-amplified predatory strikes occur in the mecysmaucheniid spiders•High-speed predatory strikes have evolved four times independently•Novel morphologies are related to functional diversification Using high-speed video, Wood et al. show that power-amplified predatory strikes have evolved independently four times within the mecysmaucheniid spider family. Several structural innovations may relate to the observed functional diversification.
doi_str_mv 10.1016/j.cub.2016.02.029
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Molecular phylogenetic analysis revealed that power-amplified cheliceral strikes have evolved four times independently within the family. Furthermore, we identified morphological innovations that directly relate to cheliceral function: a highly modified carapace in which the cheliceral muscles are oriented horizontally; modification of a cheliceral sclerite to have muscle attachments; and, in the power-amplified species, a thicker clypeus and clypeal apodemes. These structural innovations may have set the stage for the parallel evolution of ballistic predatory strikes. •High-speed, power-amplified predatory strikes occur in the mecysmaucheniid spiders•High-speed predatory strikes have evolved four times independently•Novel morphologies are related to functional diversification Using high-speed video, Wood et al. show that power-amplified predatory strikes have evolved independently four times within the mecysmaucheniid spider family. 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Molecular phylogenetic analysis revealed that power-amplified cheliceral strikes have evolved four times independently within the family. Furthermore, we identified morphological innovations that directly relate to cheliceral function: a highly modified carapace in which the cheliceral muscles are oriented horizontally; modification of a cheliceral sclerite to have muscle attachments; and, in the power-amplified species, a thicker clypeus and clypeal apodemes. These structural innovations may have set the stage for the parallel evolution of ballistic predatory strikes. •High-speed, power-amplified predatory strikes occur in the mecysmaucheniid spiders•High-speed predatory strikes have evolved four times independently•Novel morphologies are related to functional diversification Using high-speed video, Wood et al. show that power-amplified predatory strikes have evolved independently four times within the mecysmaucheniid spider family. 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source MEDLINE; Cell Press Free Archives; Elsevier ScienceDirect Journals; EZB-FREE-00999 freely available EZB journals
subjects Animals
arachnid
ballistic movement
Biomechanical Phenomena
Evolution, Molecular
morphology
Movement
Muscle, Skeletal - physiology
parallel evolution
phylogenetics
Phylogeny
Predatory Behavior
Spiders - genetics
Spiders - physiology
title Repeated Evolution of Power-Amplified Predatory Strikes in Trap-Jaw Spiders
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