Siberian musk deer in the diets of tiger and bears in the Sikhote-Alin

The role of the Siberian musk deer in the diets of the Amur tiger, brown bear, and Asian black bear has been studied in the Sikhote-Alin State Biosphere Reserve in 1992 to 2016. Information has been collected from 763 tiger feeding sites, and the contents of tiger feces have been analyzed. Radiotelemetry has been used to evaluate tiger–musk deer relationships. The musk deer accounted for 0.26% of all animal species found to be eaten by the tiger. Musk deer remains in feces of the tiger, brown bear, and Asian black bear occurred with frequencies of 1.3, 0.2, and 0.3%, respectively. A case of musk deer avoiding the presence of brown bear is described.     

The total content of toxic elements in horsehair given the level of essential elements

Environmental Science and Pollution Research - Elemental status of 214 mares aged 3–7 years from 11 breeds was studied: Arabian purebred (n = 20), Bashkir (n = 20), Kabarda (n = 20), Vyatka...     

Enchytraeid Community (Annelida,Clitellata, Enchytraeidae) and Its Dependence on Edaphic Conditions in Rice Agroecosystems in Russia

Russian Journal of Ecology - Communities of soil animals (meso- and macrofauna) in rice paddies tend to be fragmented, and have extremely low abundance. Nevertheless, some groups, such as...     

Trophic structure of ecosystems and ecotoxicology of soil organisms

Studies on the ecotoxicology of soil organisms have led to the revision of views on the trophic structure of ecosystems. It was found that the microbial link is obligatory and controls the migration of toxicants and their effects in the food chain. Differences in effects are accounted for by both the physiological stability of organisms and their affliation with relatively independent and biogeochemically closed ecosystems differing in their spatiotemporal scales. The latter form a hierarchical three-level structure: ecosystems of unicellular organisms—ecosystems of small multicellular organisms—the ecosystem of large multicellular organisms, or of biogeocenosis. Trophic networks within the structure are united by ecosystemophagy as the type of feeding of large multicellular organisms, and this accounts for the importance of the latter as indicators of long-term changes in a biogeocenosis.     

The Root System of Larix sukaczewii Dyl. in the Polluted Environment of the Ufa Industrial Center

Russian Journal of Ecology -     

Specific Features of Root System Structure in Pinus sylvestrisL. and Larix sukaczewiiDyl. under Conditions of the Ufa Industrial Center

Russian Journal of Ecology -     

Contourobionts in ocean monitoring

The external ocean biotopes (contours), i.e. the ocean interfaces with the atmosphere, rocky, sandy, muddy shores and river waters are active surface areas providing the most favourable conditions for the development of life-forms. The contour communities (contourobionts) form the external biological structure of the oceans. Due to their location the contour communities are exposed to environmental factors much more heavily than the communities inhabiting the water column. Therefore they can be used as biological indicators of the borders of marine impact zones. They are of special significance for integrated global ocean monitoring. Systematic observations of the conditions of contour communities and individual contourobionts provide valuable information on the man-made changes in the seas and oceans.