This dissertation presents an integrated form of Systematics, which is based on the so called DNA taxonomy invented from Tautz et al. that is meant as the definition of populations with shared genotypes of their respective individuals in combination with the traditional binominal system of Linné, and its combination with Biology, Ecology, and Phylo(geo)graphy. Using insects as an example, issues like methods of DNA extraction, phylogenetic reconstruction algorithms, procedures of new species descriptions, species delimitation and species identification, phylogenetic analyses, as well as practical applications in ecology are treated. The scientific findings corroborate the usefulness of DNA taxonomy as a tool of modern systematics and constitute a further development thereof.
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This dissertation presents an integrated form of Systematics, which is based on the so called DNA taxonomy invented from Tautz et al. that is meant as the definition of populations with shared genotypes of their respective individuals in combination with the traditional binominal system of Linné, and its combination with Biology, Ecology, and Phylo(geo)graphy. Using insects as an example, issues like methods of DNA extraction, phylogenetic reconstruction algorithms, procedures of new species des...
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