Dynamics of the Biogeochemical Composition of the Sediments from Marine Part of the Marginal Filter under the Influence of the Razdol’naya River Runoff (Amur Bay, Sea of Japan)

The contents of Si, Fe, Mn, K, P, V, Cr, Co, Ni, Pb, Cu, Zn, Cd, As, Sn, Mo, Li, Rb, Cs, Sc, Ga, Y, Hf, Ta, Nb, Th, U, С org , and clay minerals (HM, CHL, SM) were analyzed in the subcolloid fraction of bottom sediments (BS) from the marine part of the Razdol’naya River marginal filter, which were s...

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Published in:	Geochemistry international Vol. 59; no. 12; pp. 1181 - 1187
Main Author:	Polyakov, D. M.
Format:	Journal Article
Language:	English
Published:	Moscow Pleiades Publishing 01-12-2021 Springer Springer Nature B.V
Subjects:	Analysis Annual runoff Bottom sediments Cadmium Chromium Clay Clay minerals Copper Earth and Environmental Science Earth Sciences Geochemistry Heavy metals Hurricanes Iron Lead Manganese Metals Minerals Molybdenum Particulate matter River discharge River flow Rivers Runoff Sediment Sediments Sediments (Geology) Silicon Suspended particulate matter Tin Typhoons Zinc Zooplankton clay minerals sorption on Fe and Mn oxyhydroxides bioaccumulation of elements
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Abstract	The contents of Si, Fe, Mn, K, P, V, Cr, Co, Ni, Pb, Cu, Zn, Cd, As, Sn, Mo, Li, Rb, Cs, Sc, Ga, Y, Hf, Ta, Nb, Th, U, С org , and clay minerals (HM, CHL, SM) were analyzed in the subcolloid fraction of bottom sediments (BS) from the marine part of the Razdol’naya River marginal filter, which were sampled during average annual (2014) and elevated (typhoon, 2015) river runoff. It was revealed that suspended particulate matter feeding Amur Bay comes from the river with the high contents of HS (after the typhoon) and from Uglovoi Bay with high SM (average annual river runoff). The typhoon provides two times higher HM influx in the bay compared to that of the average annual river runoff. An increase of element contents is related to the sorption on clay minerals (HM, SM) and newly formed Fe, Mn oxyhydroxides (heavy metals, HM. As well as U and Th), as well as to the accumulation by marine phyto- and zooplankton (Mo, As, P).
AbstractList	The contents of Si, Fe, Mn, K, P, V, Cr, Co, Ni, Pb, Cu, Zn, Cd, As, Sn, Mo, Li, Rb, Cs, Sc, Ga, Y, Hf, Ta, Nb, Th, U, Ð¡.sub.org, and clay minerals (HM, CHL, SM) were analyzed in the subcolloid fraction of bottom sediments (BS) from the marine part of the Razdol'naya River marginal filter, which were sampled during average annual (2014) and elevated (typhoon, 2015) river runoff. It was revealed that suspended particulate matter feeding Amur Bay comes from the river with the high contents of HS (after the typhoon) and from Uglovoi Bay with high SM (average annual river runoff). The typhoon provides two times higher HM influx in the bay compared to that of the average annual river runoff. An increase of element contents is related to the sorption on clay minerals (HM, SM) and newly formed Fe, Mn oxyhydroxides (heavy metals, HM. As well as U and Th), as well as to the accumulation by marine phyto- and zooplankton (Mo, As, P). The contents of Si, Fe, Mn, K, P, V, Cr, Co, Ni, Pb, Cu, Zn, Cd, As, Sn, Mo, Li, Rb, Cs, Sc, Ga, Y, Hf, Ta, Nb, Th, U, С org , and clay minerals (HM, CHL, SM) were analyzed in the subcolloid fraction of bottom sediments (BS) from the marine part of the Razdol’naya River marginal filter, which were sampled during average annual (2014) and elevated (typhoon, 2015) river runoff. It was revealed that suspended particulate matter feeding Amur Bay comes from the river with the high contents of HS (after the typhoon) and from Uglovoi Bay with high SM (average annual river runoff). The typhoon provides two times higher HM influx in the bay compared to that of the average annual river runoff. An increase of element contents is related to the sorption on clay minerals (HM, SM) and newly formed Fe, Mn oxyhydroxides (heavy metals, HM. As well as U and Th), as well as to the accumulation by marine phyto- and zooplankton (Mo, As, P). The contents of Si, Fe, Mn, K, P, V, Cr, Co, Ni, Pb, Cu, Zn, Cd, As, Sn, Mo, Li, Rb, Cs, Sc, Ga, Y, Hf, Ta, Nb, Th, U, Сorg, and clay minerals (HM, CHL, SM) were analyzed in the subcolloid fraction of bottom sediments (BS) from the marine part of the Razdol’naya River marginal filter, which were sampled during average annual (2014) and elevated (typhoon, 2015) river runoff. It was revealed that suspended particulate matter feeding Amur Bay comes from the river with the high contents of HS (after the typhoon) and from Uglovoi Bay with high SM (average annual river runoff). The typhoon provides two times higher HM influx in the bay compared to that of the average annual river runoff. An increase of element contents is related to the sorption on clay minerals (HM, SM) and newly formed Fe, Mn oxyhydroxides (heavy metals, HM. As well as U and Th), as well as to the accumulation by marine phyto- and zooplankton (Mo, As, P).
Audience	Academic
Author	Polyakov, D. M.
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Copyright	Pleiades Publishing, Ltd. 2021. ISSN 0016-7029, Geochemistry International, 2021, Vol. 59, No. 12, pp. 1181–1187. © Pleiades Publishing, Ltd., 2021. Russian Text © The Author(s), 2021, published in Geokhimiya, 2021, Vol. 66, No. 12, pp. 1148–1155. COPYRIGHT 2021 Springer
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References	PolyakovD. M.ZarubinaN. V.Geochemical features of REE and Y accumulation in the subcolloid fraction of sediments from the northern part of Amur Bay (Sea of Japan)Geochem. Int.20175548949510.1134/S001670291705010X D. M. Polyakov A. V. Mozherovsky, and A. A. Mar’yash, “Geochemical aspects of accumulation of major elements in subcolloid fraction of bottom sediments along the Razdol’naya River-Amur Bay section (Sea of Japan),” Meteorol. Gidrol., No. 10, 79–88 (2014). BaturinG. N.SavenkoV. S.Phosphorus in oceanic sedimentogenesisOceanology199737107113 PolyakovD. M.“Geochemical aspects of the accumulation of chemical elements in various fractions of bottom sediments of the Razdolnaya River Amursky Bay marginal filter,” Ecological Studies and the State of the Ecosystem of Amursky Bay and the Estuarine Zone of the Razdolnaya River (Sea of Japan)2009VladivostokDalnauka Geochemistry, Mineralogy, and Genetic Types of Rare-Element Deposits. Volume 1. Rare-Element Geochemistry (Nauka, Moscow, 1964) [in Russian]. KholodovV. N.Geochemistry of phosphorus and origin of phosphorites: Communication 2. Sources of phosphorus in continents and genesis of marine phosphoritesLithol. Miner. Resour.20033847749410.1023/A:1027358409558 PolyakovD. M.Dynamics of microelement concentrations in bottom sediments of the marginal filter (Razdol’naya R.–Amur Bay)—result of biogeochemical processesWater Res.20174465466110.1134/S0097807817040157 DeminaL. L.Quantification of the role of organisms in the geochemical migration of trace metals in the oceanGeochem. Int.20155322424010.1134/S0016702915030040 A. V. Mozherovsky, S. G. Pliss, A. V. Sorochinskaya, K. P. olok, L. M. Gramm-Osipov, and V. V. Gusev, “Formation of bottom sediments of Uglovoe Bay,” Tikhookean. Geol., No. 2, 93–96 (1983). LisitsynA. P.Marginal filter of oceansOkeanologiya199434735747 O. V. Dudarev, A. I. Botsul, N. I. Savel’eva, A. N. Charkin, V. A. Dubina, and V. V. Anikiev, “Scales of variability of lithological–biogeochemical processes in the Razdol’naya River estuary (Sea of Japan): terrigenous flux and formation of bottom sediments,” State of Marine Ecosystems under the Influence of River Runoff (Dal’nauka, Vladivostok, 2005), pp. 7–40. KholodovV. N.Geochemistry of phosphorus and origin of phosphorites: communication 1. Role of terrigenous material in the hypergene phosphorus geochemistryLithol. Miner. Resour.20033831433110.1023/A:1024659612956 AllawayW. H.Trace Analysis: Physical Methods1965 MizensG. A.RonkinYu. L.LepikhinaO. P.PopovaO. Yu.Trace elements and REE in the Devonian clastic complexes of the Magnitogorsk Megazone, Southern UralsGeochem. Int.20064445647410.1134/S001670290605003X GordeevV. V.River Runoff in Ocean and Its Geochemical Features1983MoscowNauka PetelinV. P.Grain-Size Analysis of Marine Bottom Sediments1967MoscowNauka SamofalovaI. A.Chemical Composition of Soils and Soil-Forming Rocks2009PermPermskaya GSKHA I. Yu. Lubchenko and I. V. Belova, “Element migration in riverine waters,” Litol. Polezn. Iskop., No. 2, 23–29 (1973). KhazheevaZ. I.TulokhonovA. K.Distribution of metals in bottom deposits in the branches of Selenga River DeltaGeochem. Int.20074518519210.1134/S0016702907020073 D. M. Polyakov and K. I. Aksentov, “Dynamics of accumulation of Fe, Mn, and other heavy metals of subcolloid fraction of bottom sediments in the marginal filter of the Razdol’naya River (Amur Bay, Sea of Japan),” Meteorol. Gidrol., No. 11, 79–86 (2013). PolyakovD. M.KhodorenkoH. D.Mar’yashA. A.“Some aspects of accumulation of organic matter of subcolloid fraction of bottom sediments at the river–sea barrier (Razdol’naya River–Amur Bay),” Vestn. Dal’nevost. Otd. Ross. AkadNauk, No.201268993 11366_CR5 G. N. Baturin (11366_CR2) 1997; 37 11366_CR4 V. V. Gordeev (11366_CR6) 1983 D. M. Polyakov (11366_CR16) 2017; 44 D. M. Polyakov (11366_CR18) 2017; 55 D. M. Polyakov (11366_CR15) 2009 11366_CR13 I. A. Samofalova (11366_CR21) 2009 11366_CR20 Z. I. Khazheeva (11366_CR7) 2007; 45 11366_CR11 D. M. Polyakov (11366_CR19) 2012; 6 A. P. Lisitsyn (11366_CR10) 1994; 34 V. N. Kholodov (11366_CR8) 2003; 38 G. A. Mizens (11366_CR12) 2006; 44 V. N. Kholodov (11366_CR9) 2003; 38 V. P. Petelin (11366_CR14) 1967 11366_CR17 L. L. Demina (11366_CR3) 2015; 53 W. H. Allaway (11366_CR1) 1965
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SubjectTerms	Analysis Annual runoff Bottom sediments Cadmium Chromium Clay Clay minerals Copper Earth and Environmental Science Earth Sciences Geochemistry Heavy metals Hurricanes Iron Lead Manganese Metals Minerals Molybdenum Particulate matter River discharge River flow Rivers Runoff Sediment Sediments Sediments (Geology) Silicon Suspended particulate matter Tin Typhoons Zinc Zooplankton
Title	Dynamics of the Biogeochemical Composition of the Sediments from Marine Part of the Marginal Filter under the Influence of the Razdol’naya River Runoff (Amur Bay, Sea of Japan)
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