Distribution of artificial radioisotopes in granulometric and organic fractions of alluvial soils downstream from the Krasnoyarsk Mining and Chemical Combine (KMCC), Russia

详细信息    查看全文

• 作者：Elena M. Korobova ; Vitaly G. Linnik ; Justin Brown
• 关键词：Alluvial soils ; Organic fractions ; Particle distribution ; Radionuclides ; Yenisey floodplain
• 刊名：Journal of Soils and Sediments
• 出版年：2016
• 出版时间：April 2016
• 年：2016
• 卷：16
• 期：4
• 页码：1279-1287
• 全文大小：1,174 KB
• 参考文献：Bolsunovsky A (2011) Radionuclide speciation in sediments of the Yenisei River. Radioprotection 46(6):S195–S198CrossRef
  Bondareva L, Artamonova S (2011) The relationship of mineral and geochemical composition to artificial radionuclide partitioning in Yenisei river sediments downstream from mining-and-chemical combine Rosatom. Nat Sci 3(7):517–529
  Bondareva LG, Bolsunovskii AY (2008) Speciation of artificial radionuclides 60Co, 137Cs, 152Eu, and 241Am in bottom sediments of the Yenisei River. Radiochemistry 50(5):547–552CrossRef
  Brown JE, Wright S, Linnik V (2002) STREAM. Source development and transport of radioactive contamination in the environment through the use of satellite imagery. Final Report (01.03.99-01.06.02). Project ERB IC-15-CT-98-0219 in the EC Inco-Copernicus Programme (IVth Framework). Statens stralevern, Oslo
  Glaus MA, Hummel W, Van Loon LR (2000) Trace metal-humate interactions. I. Experimental determination of conditional stability constants. Appl Geochem 15(7):953–973CrossRef
  Korobova E, Linnik V, Chizhikova N (2008) The history of the Chernobyl 137Cs contamination of the flood plain soils and its relation to physical and chemical properties of the soil horizons (a case study). J Geochem Explor 96(2–3):236–255CrossRef
  Korobova EM, Linnik VG, Chizhikova NP, Alekseeva TN, Shkinev VM, Brown J, Dinu MI (2014) Granulometric and mineralogic investigation for explanation of radionuclide accumulation in different size fractions of the Yenisey floodplain soils. J Geochem Explor 142:49–59CrossRef
  Kropatcheva M, Chuguevsky A, Melgunov M (2012) Distribution of 152Eu and 154Eu in the alluvial soil–rhizosphere–plant roots’ system. J Environ Radioactiv 106:58–64CrossRef
  Linnik VG, Brown JE, Dowdall M, Potapov VN, Surkov VV, Korobova EM, Volosov AG, Vakulovsky SM, Tertyshnik EG (2005) Radioactive contamination of the Balchug (Upper Yenisey) floodplain, Russia in relation to sedimentation processes and geomorphology. Sci Total Environ 339:233–251CrossRef
  Linnik VG, Brown JE, Dowdall M, Potapov VN, Nosov AV, Surkov VV, Sokolov AV, Wright SM, Borghuis S (2006) Patterns and inventories of radioactive contamination of island sites of the Yenisey River, Russia. J Environ Radioactiv 87(2):188–208CrossRef
  Linnik VG, Korobova EM, Brown JE (2013) A historical outline of radionuclide contamination of the Yenisey floodplain based on landscape and radiometric survey. Geogr, Environ Sustain 2(6):49–62CrossRef
  Linnik VG, Korobova EM, Brown J, Surkov VV, Potapov VN, Sokolov AV (2014) Investigation of radionuclides in the Yenisey River floodplain systems: relation of the topsoil radionuclide contamination to landscape features. J Geochem Explor 142:60–68CrossRef
  Nosov AV (1997) A study of mechanism of migration of radioactive substances in the Yenisey floodplain. Russ Meteorol Hydrol 12:84–91 (in Russian)
  Nosov AV, Krylov AV, Kiselev VP, Kazakov SV (2010) Modeling radionuclide migration in surface waters. Institute for Safe Development of Nuclear Energy. Rus. Ac. of Sci, Nauka, Moscow (in Russian)
  Nossov AV, Martynova AM, Shishlov AE, Savitsky YV (2002) The analysis of radioactive contamination of the Yenisei River by results of expeditions for the period 1990–2000. In: Strand P, Jolle T (eds) Environmental radioactivity in the Arctic and Antarctic. The 5th International Conference. NRPA, Osteras, pp 167–170
  Novikov AP (2010) Migration and concentration of artificial radionuclides in environmental objects. Geochem Int 48(13):1263–1387CrossRef
  Perel’man AI (1975) Landscape geochemistry. Vysshaya shkola, Moscow (in Russian)
  Puffengoldz КN (1978) Geological glossary in 2 volumes. Nedra, Moscow (in Russian)
  Sansone U, Belli B, Voitsekovitch OV, Kanivets VV (1996) 137Cs and 90Sr in water and suspended particulate matter of the Dnieper River-Reservoirs System (Ukraine). Sci Total Environ 186(3):257–271CrossRef
  Standring WJF, Brown JE, Dowdall M, Korobova EM, Linnik VG, Volosov AG (2009) Vertical distribution of anthropogenic radionuclides in cores from contaminated floodplains of the Yenisey River. J Environ Radioactiv 100(12):1109–1120CrossRef
  Sukhorukov FV, Melgunov MS, Kovalev SI (2000) The main traits of distribution of technogenous radionuclides in alluvial soils and bottom sediments of the Yenisei River. Contemp Probl Ecol 1:39–50 (in Russian)
  Sukhorukov FV, Degermendzhy AG, Belolipetsky VM et al (2004) Distribution and migration of radionuclides in the Yenisei Plain. Publ. House of SB RAS “Geo”, in Russian
  Sukhorukov FV, Melgunov MS, Makarova et al (2006) Mobility of technogenic radionuclides in soils and bottom sediments of the Yenisey river based on natural and laboratory experiments. In: Izrael Y (ed) Radioactivity after nuclear explosions and incidents. Proceedings of the International Conference. Gidrometeoizdat, St.-Pertersburg, pp 306–312, in Russian
  Sval’nov VN, Alekseeva TN (2005) Granulometric analysis of the world ocean sediments. Nauka, Moscow (in Russian)
  Vakulovsky SM, Nikitin AI, Chumichev VB, Katrich IY, Voitsekhovich OA, Medinets VI et al (1994) Cesium-137 and strontium-90 contamination of water bodies in the areas affected by releases from the Chernobyl nuclear power plant accident: an overview. J Environ Radioact 23:103–122CrossRef
  Vakulovsky SM, Tertyshnik EG, Borodina TS, Iskra AA (2006) Man-made radionuclides in the Yenisey River. In: Izrael Y (ed) Radioactivity after nuclear explosions and incidents, vol V. 2. Proceedings of the International Conference. Gidrometeoizdat, St.-Petersburg, pp 294–299, in Russian
  Varshal GM (1994) Forms of migration of fulvic acids and metals in natural waters. Doctoral dissertation Vernadsky Institute of Geochemistry and Analytical Chemistry, Russian Academy of Sciences (in Russian)
  Varshal GM, Koshcheeva IY, Velyukhanova TK, Chkhetia DN, Tyutyunnik OA, Grinevskaya ZM (1996) Sorption of heavy metals and isotopic carriers of long-lived radionuclides by humic acid: report 1. Sorption of caesium (I), strontium (II), cerium (III), ruthenium (IV) by humic acid. Geokhimiya 11:1107–1112 (in Russian)
  
• 作者单位：Elena M. Korobova (1)
  Vitaly G. Linnik (2)
  Justin Brown (3)
  
  1. Vernadsky Institute of Geochemistry and Analytical Chemistry, 117991, Moscow, Russia
  2. Geographical Department, Moscow State University, Moscow, Russia
  3. Norwegian Radiation Protection Authority, Box 55, 1332, Østerås, Oslo, Norway
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Environment
  Soil Science and Conservation
  Environment
  Environmental Physics
  
• 出版者：Springer Berlin / Heidelberg
• ISSN：1614-7480

文摘

Purpose The purpose of this study was to compare the distribution of the most significant medium and long-lived radioisotopes, i.e., 60Co, 137Cs, and 152Eu, in granulometric and organic fractions of alluvial soils downstream from the Krasnoyarsk Mining and Chemical Combine (KMCC), Russia, to reveal natural patterns of their behavior and accumulation.