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In our present-day landscape in Central Europe major parts of the xylobiontic especially of the saproxylic beetle fauna belong to the group of endangered species assemblages (Speight 1989, Geiser 1994). Oaks, in Central Europe mainly Quercus robur and Q. petraea, are well known for their large number of associated insect species and harbour the highest beetle diversity, especially for dead wood inhabiting species, of all broadleaved tree species in this region (e.g. Palm 1959). A characteristic species associated with oaks in its life-cycle is the endangered Great Capricorn Cerambyx cerdo. C. cerdo is one of the protected species explicitly named in the Habitats Directive of the European Union with the goal of maintaining existing populations and establishing long-term survival (Council of the European Communities 1992). The last remaining colonised areas of this longhorn beetle in Central Europe are well known for the enormous number of very rare xylobiontic beetle species. Thus, we are interested in the following research questions: 1) Are there typical species associated with C. cerdo? 2) If so, what kind of relationship do these associated species have to C. cerdo from a nature conservation point of view?
The Hawaiian Islands have arisen in isolation in the middle of the Pacific Ocean due to volcanism unleashed by interaction of mantle-deep thermal plumes with the overlying Pacific Plate (MONTELLI et al. 2004, ABOUCHAMI et al. 2005). This volcano “factory” has produced a consistently present string of islands increasing in age from the current Big Island of Hawaii (500,000 years old) northwestwardly to the island of Kure, estimated to be 28-30 million years old (CARSON & CLAGUE 1995). Successively colonizing and proliferating on these islands since Miocene time (LIEBHERR 2005), are beetles classified in the carabid beetle genus Blackburnia SHARP, 1878 (LIEBHERR & ZIMMERMAN 2000). The 132 known Blackburnia species are arrayed in four successive adelphotaxa. The monotypic subgenus Protocaccus LIEBHERR & ZIMMERMAN, 2000, adelphotaxon to the rest of the radiation, is represented by B. mandibularis LIEBHERR, 2000 of Kauai. The next-diverging clade is classified as subgenus Colpocaccus SHARP, 1903, and is composed of four flightcapable species. The last two adelphotaxa are the nominate subgenus Blackburnia and subgenus Metromenus SHARP, 1884. The former includes 52 species, and is based on a ground-plan ancestor that was capable of dispersal by winged flight. This clade exhibits the greatest anagenetic diversification of all four clades, with various subgroups exhibiting extensive modifications of the external cuticle, including thickened, ridged, and variously shaped pronota and elytra, as well as elongate legs, and extensive specializations of the male and female genitalia (LIEBHERR & ZIMMERMAN 1998, 2000). Taxa exhibiting cuticular modifications are all brachypterous, suggesting that loss of metathoracic wings was a requisite precursor to modification of body armature. All 75 species of subgenus Metromenus are characterized by brachyptery. These also exhibit various body forms however the member taxa are never characterized by the thickened cuticle and associated modifications seen among taxa of sg. Blackburnia. Monophyly of the latter three subgenera was corroborated using molecular sequence data (CRYAN et al. 2001), though basal relationships of the three clades were resolved so that Colpocaccus and Metromenus were construed as adelphotaxa. In this study, morphological characters, and ecological and genetic characteristics of the various clades compared. These comparisons illustrate the coordinated diversification of ecological and genetic traits, and how these are associated with different levels of speciation. These traits are then put in the context of species endangerment, assessed using biotic survey data started in the 19th Century, and continuing during present-day efforts to completely describe and characterize the Blackburnia fauna.