Ecology of mysid shrimps in the Bornholm Basin (central Baltic Sea)

International audienceMysid shrimps are an important trophic link in the food web of the Baltic Sea. In 2002 and 2003 we investigated species composition, distribution, life cycle and prey in the Bornholm Basin (central Baltic). Three species and one genus were identified: and sp The dominant and occurred in the whole study area but were more abundant in the peripheral, more shallow regions. Size frequency distribution indicated one generation for and probably two for Main prey of all size classes in both species was the cladoceran during summer and autumn. In spring and winter also copepods of the species and were important prey items. Detritus and phytoplankton cells were of minor importance and many individuals had empty guts. Mysid shrimps in the deep basin might be advected from more shallow areas, as the abundance of all species was much lower than in coastal regions. The deep Bornholm Basin does not seem to be a favourable habitat, probably due to the inaccessibility of the oxygen deficient bottom layer. Under current hydrographic conditions mysids are probably not important predators of zooplankton and thus not competitors of planktivorous fish in the Bornholm Basin

Fluctuating Asymmetry in Body Traits Increases Predation Risks: Tawny Owl Selection Against Asymmetric Woodmice

During the last decade, the study of fluctuating asymmetry (FA) in relation to different fitness aspects has become a popular issue in evolutionary biology. There has been much recent debate in subtle departures from perfect symmetry in bilaterally paired morphological characters, and the extent to which such departure actually reflects aspects of individual quality and fitness. We used data from pellet collection and trapping sessions involving the trophic system Apodemus - Strix aluco, to test the hypothesis that asymmetric woodmice disproportionately fell prey to the tawny owl compared with "normal" woodmice. We found that woodmice preyed on by owls had significantly more asymmetric leg bones than survivors, particularly hind legs, those devoted to jumping. Thus asymmetry in locomotory traits apparently increased predation risks due probably to minor efficiency of asymmetric woodmice in evading predators or to their general low quality. These results suggest that FA affects fitness and consequently may be a good predictor of survival chances for woodmice, i.e. their quality; on the other hand, by removing asymmetric individuals, tawny owls can exert a stabilising selection on prey populations