1. Opisthonotal glands in the Camisiidae (Acari, Oribatida): evidence for a regressive evolutionary trend
- Author
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Günther Krisper, Günther Raspotnig, Miriam Schaider, Hans-Jörg Leis, Edith Stabentheiner, Petra Föttinger, and Gerald N. Rechberger
- Subjects
biology ,Phylogenetic tree ,Ecology ,Cuticle ,Zoology ,biology.organism_classification ,Platynothrus ,Genus ,Genetics ,Animal Science and Zoology ,Acari ,Heminothrus ,Molecular Biology ,Oribatida ,Ecology, Evolution, Behavior and Systematics ,Camisiidae - Abstract
Paired, sac-like and typically large opisthonotal glands (syn. oil glands), mainly considered for chemical protection and communication, characterize the so-called ‘glandulate Oribatida’ which include the Parhyposomata, Mixonomata, Desmonomata and Brachypylina but also the Astigmata. Among these groups distinct evolutionary trends affect the morphology of glands and their secretion profiles, thereby rendering them highly informative characters with phylogenetic significance. One striking tendency, convergently occurring in a few glandulate groups, leads to the degeneration or even complete regression of opisthonotal glands. In this study, a first example of coherent evolutionary steps towards opisthonotal gland degeneration is described by using desmonomatan Camisiidae as a model: Opisthonotal glands in representatives of genus Platynothrus still show morphologically and chemically ancient conditions with fairly-well developed glandular reservoirs. Secretion patterns mainly consist of a characteristic set of terpenes and aromatics (‘astigmatid compounds’) as found in outgroups such as desmonomatan Trhypochthoniidae. Progressive states of regression of opisthonotal glands, along with a reduction of component-richness and amounts of secretions, occur in representatives of Heminothrus and, more conspicuously, in species of Camisia, most likely indicating a consistent evolutionary trend. This trend towards opisthonotal gland atrophy may be due to novel alternative and cheap strategies of passive defense in more-derivative camisiids – such as mechanical protection by encrustation of the cuticle – that possibly compensate for the lack of chemical defenses.
- Published
- 2009
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