T. V. Kudyshkin scite author profile

T. V. Kudyshkin

6Publications

65Citation Statements Received

15Citation Statements Given

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Centre of Hydrometeorological Service

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Hydrographic survey in the dying Aral Sea

Zavialov

Kostianoy

Емельянов

et al. 2003

Geophysical Research Letters

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[1] We report the results of a hydrographic survey conducted in November, 2002, in the Uzbekistan part of the western basin of the dying Aral Sea. There were very few hydrographic measurements in this region since at least early 1990s. The salinity in the western deep basin of the Aral Sea varied from about 82 psu at the surface to over 94 psu at the bottom. The absolute lake surface level was about 30.5 m. Hence, the observed salinity values were much higher, and the level much lower, than expected according to earlier predictions. The density in the western basin exhibited an extremely strong stratification of $11 kg/m 3 per $20 m in the bottom layer. The picnocline was accompanied by a temperature inversion whose magnitude was $4°C. The observed density stratification effectively isolating the lower part of the water column from surface exchanges may be responsible for the increase of summer SSTs and evaporation rates reported in previous studies. We discovered the hydrogen sulphide contamination in the bottom layer whose upper limit was at the depth of approximately 22 m. Estimates suggest that the western basin salinization occurs not only because of the local evaporation, but also because of the assimilation of the saltier eastern basin water in the course of the interbasin exchange through the connecting channel. The satellite imagery analysis, in particular the Maximum CrossCorrelation method, suggests that the circulation pattern in the Aral Sea in its present limits is cyclonic under the eastern winds that are predominant in the region throughout the year.

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Artemia parthenogenetica (Branchiopoda: Anostraca) from the Large Aral Sea: Abundance, distribution, population structure and cyst production

Арашкевич

Sapozhnikov

Soloviov

et al. 2009

Journal of Marine Systems

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Five years of field hydrographic research in the Large Aral Sea (2002–2006)

Zavialov

Ni²,

Kudyshkin

et al. 2009

Journal of Marine Systems

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Ongoing Changes of Ionic Composition and Dissolved Gases in the Aral Sea

Zavialov

Kudyshkin

et al. 2008

Aquat Geochem

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Starting from 1961, the Aral Sea, a major saline lake in Central Asia, has been continuously shrinking because of deficiency in its water budget. Accordingly, the salinity of the once brackish lake increased by a factor of magnitude. During the desiccation, the salt composition of the Aral Sea has been subject to continuous changes because of chemical precipitation accompanying the salinity buildup. This paper provides a summary of these changes based on water samples collected from the so-called Large Aral Sea during the field surveys of 2002-2007. Once fully ventilated, the lake developed anoxic conditions and H 2 S contamination is frequently observed in the bottom layers. However, hydrogen sulfide is a variable rather than a permanent feature of the present Aral Sea. Because of the precipitation of calcium carbonate, gypsum, and, possibly, mirabilite, which successively occurred as the salinity increased, the relative content of SO 4 -and Ca 2? ions decreased. Accordingly, compared with the pre-desiccation period before 1960, the sulfateto-chloride mass ratio decreased by 10-30%, while the relative content of calcium decreased almost 7-fold. The depletion in calcium is more pronounced in the shallow eastern part of the lake, where salinity is much higher. However, the reduction of the sulfate-to-chloride ratio in the eastern basin is smaller than that for the western basin of the Aral Sea. Hypothetically, this could be explained through precipitation of halite already taking place in the eastern basin, but not yet in the western basin. Vertical profiles of the ionic content in the relatively deep western part of the lake reveal a decrease of calcium content and relative increase of sulfate ion content toward the bottom, which is consistent with the previously published concept that the bottom layers of the western trench contain a significant admixture of the water advected from the eastern basin.

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Expeditionary studies in the western basin of the Aral Sea in September 2006

et al. 2008

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Expeditionary research in the western and eastern basins of the Aral Sea (October 2005)

et al. 2006

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T. V. Kudyshkin

Hydrographic survey in the dying Aral Sea

Artemia parthenogenetica (Branchiopoda: Anostraca) from the Large Aral Sea: Abundance, distribution, population structure and cyst production

Five years of field hydrographic research in the Large Aral Sea (2002–2006)

Ongoing Changes of Ionic Composition and Dissolved Gases in the Aral Sea

Expeditionary studies in the western basin of the Aral Sea in September 2006

Expeditionary research in the western and eastern basins of the Aral Sea (October 2005)

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