Diversity and potential correlations to the function of Collembola cuticle structures

Collembola (springtails) are soil arthropods, representing the most widespread hexapod group worldwide. Being skin-breathing animals, Collembola evolved special cuticular patterns, which are robust and antiadhesive allowing cuticular respiration under humid conditions in the soil environment. Detail...

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Veröffentlicht in:	Zoomorphology 2013-06, Vol.132 (2), p.183-195
Hauptverfasser:	Nickerl, Julia, Helbig, Ralf, Schulz, Hans-Jürgen, Werner, Carsten, Neinhuis, Christoph
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Animal Anatomy Animal cuticle Animal Systematics/Taxonomy/Biogeography Aquatic insects Arthropoda Biomedical and Life Sciences Collembola Developmental Biology Electron microscopy Epicuticle Evolutionary Biology Histology Life Sciences Morphology Original Paper Respiration Scanning electron microscopy Skin Soil Soil environment Structures
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creator	Nickerl, Julia Helbig, Ralf Schulz, Hans-Jürgen Werner, Carsten Neinhuis, Christoph
description	Collembola (springtails) are soil arthropods, representing the most widespread hexapod group worldwide. Being skin-breathing animals, Collembola evolved special cuticular patterns, which are robust and antiadhesive allowing cuticular respiration under humid conditions in the soil environment. Details about function and formation of these unique cuticle characters are still unknown. Here we demonstrate that a high diversity of cuticular structures exists and that the different observed structural patterns of Collembola cuticles might go along with specific adaptations to life in soil. We examined the cuticle structures of 40 different species using scanning electron microscopy and compared the cuticle patterns of the different species with information about their preferred habitat. In addition, we compare the results with current systematic concepts, showing that certain cuticle structures are typical for different collembolan groups.
doi_str_mv	10.1007/s00435-012-0181-0
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Being skin-breathing animals, Collembola evolved special cuticular patterns, which are robust and antiadhesive allowing cuticular respiration under humid conditions in the soil environment. Details about function and formation of these unique cuticle characters are still unknown. Here we demonstrate that a high diversity of cuticular structures exists and that the different observed structural patterns of Collembola cuticles might go along with specific adaptations to life in soil. We examined the cuticle structures of 40 different species using scanning electron microscopy and compared the cuticle patterns of the different species with information about their preferred habitat. 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subjects	Adaptation Animal Anatomy Animal cuticle Animal Systematics/Taxonomy/Biogeography Aquatic insects Arthropoda Biomedical and Life Sciences Collembola Developmental Biology Electron microscopy Epicuticle Evolutionary Biology Histology Life Sciences Morphology Original Paper Respiration Scanning electron microscopy Skin Soil Soil environment Structures
title	Diversity and potential correlations to the function of Collembola cuticle structures
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