Э.З. Самышев
Born: 28 October 1937In 1963 he graduated from Kaliningrad Technological Institute of Fisheries and Fish Economics (Ichthyology Department), USSR. Ph.H. thesis “Trophodynamical and biochemical aspects of studies of seston components in tropical zone of the Eastern Atlantics” (Sevastopol, Institute of Biology of the Southern Seas) (1970).Doctor’s thesis “Antarctic krill and the structure of planktonic community in its distribution area” (Moscow, Institute of Oceanology of Acad. Sci., USSR).Head of Department of Functioning of Marine Ecosystems, Institute of Biology of the Southern Seas (IBSS), Sevastopol, Ukrainian Republic, USSR (1990-2014), A.O. Kovalevsky Institute of Marine Biological Research, Sevastopol, Russian Federation (2015 - 2019), A.O. Kovalevsky Institute of Biology of the Southern Seas of RAS - up to present). A sphere of scientific-expert activity - ecology, hydrobiology, biocenology, anthropogenic effect on water ecosystems and it’s harmfulness, mariculture of fishes and invertebrates, production of invertebrates in the World Ocean (stock, fisheries, effectiveness), methods of evaluation of stock and production of invertebrates and their effectiveness. Prof. Samyshev is organizer and participant of 25 researches cruises to different areas of the Atlantic, Indian, Southern Oceans and the Black Sea. And he is the author of more 250 scientific publications (the author of three monographers, co-author of 10 monographers and author of more 150 articles).Professor Samyshev in composition the group of researchers was awarded the State premium of Ukraine in domain of science and technique (2007).
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salp mass per unit volume of the respirometer), diel/circadian rhythms in salps, and spatial
variability of their metabolic performance related to the feeding conditions. The mass specific respiration rates of both salp life forms (oozooids and blastozooids) appeared to be independent of their body mass. The salp-specific respiration rates at 3°C were strongly
negatively influenced by their incubation density ranging between 2.0 and 90.4 gWW.l−1. Salp respiration rates adjusted to an incubation density of 3 gWW.l−1 in both oozooids and blastozooids followed similar circadian rhythms with the mean respiration rates of 79.5 and 41.5 μg O2 gWW−1 h−1, respectively. Deviation of these rates from actual field-measured
respiration rates corrected for the salp density and diel variability during 1998 and 2002 identified effects of food concentrations, i.e. proxy of the plankton community development and composition, on the salp population performance.
salp mass per unit volume of the respirometer), diel/circadian rhythms in salps, and spatial
variability of their metabolic performance related to the feeding conditions. The mass specific respiration rates of both salp life forms (oozooids and blastozooids) appeared to be independent of their body mass. The salp-specific respiration rates at 3°C were strongly
negatively influenced by their incubation density ranging between 2.0 and 90.4 gWW.l−1. Salp respiration rates adjusted to an incubation density of 3 gWW.l−1 in both oozooids and blastozooids followed similar circadian rhythms with the mean respiration rates of 79.5 and 41.5 μg O2 gWW−1 h−1, respectively. Deviation of these rates from actual field-measured
respiration rates corrected for the salp density and diel variability during 1998 and 2002 identified effects of food concentrations, i.e. proxy of the plankton community development and composition, on the salp population performance.