Nannochoristidae (=Nannomecoptera) and Boreidae (=Neomecoptera) are traditionally assigned to the holometabolan order Mecoptera. Both are presently in the focus of insect systematists. They differ strikingly from the "typical" mecopteran pattern, not only in their larval and adult morphology, but also in their life style and reproductive biology. Phylogenetic affinities between Boreidae ("snow fleas") and fleas have been postulated mainly based on molecular data, while morphological characters related to food uptake and larval features suggest a close relationship between Nannochoristidae and true flies. Both groups display fascinating features such as preferred temperatures around 0°C, extremely slender larvae adapted to running water, and a highly unusual mating behaviour. Despite the extremely low number of known species, there is no doubt that both groups are key taxa and in their own way highlights in the evolution of the extremely successful Holometabola. Their interesting characteristics and the impressive number of recent studies on various aspects of Nannochoristidae and Boreidae justifies a new volume in the Handbook of Zoology series dedicated to these highly unusual taxa.
Klappentext
Nannochoristidae (=Nannomecoptera) and Boreidae (=Neomecoptera) are traditionally assigned to the holometabolan Order Mecoptera. Both groups are key taxa and highlights in the evolution of the extremely successful Holometabola. This and an impressive number of recent studies on various aspects of Nannochoristidae and Boreidae more than justifies a new volume in the series Handbook of Zoology dedicated to these highly unusual taxa.
Biografie (Andreas Schmidt-Rhaesa)
Dr. rer. nat. Andreas Schmidt-Rhaesa, geboren 1966, ist Privatdozent in der Arbeitsgruppe Zoomorphologie und Systematik an der Universität Bielefeld; zahlreiche Veröffentlichungen über Saitenwürmer (Nematomorpha) - u.a. über die Morphologie mariner und limnischer Arten, über neue und bekannte Arten sowie über die Systematik der Gruppe aufgrund von morphologischen und molekularen Merkmalen. Zur Zeit mehrere Projekte zu Morphologie, Entwicklung, Taxonomie und Lebenszyklus der Nematomorpha.