Mineralogical characteristics of Uskol Lake sediments (Republic of Khakassia) | Geosphere Research. 2021. № 2. DOI: 10.17223/25421379/19/3

Mineralogical characteristics of Uskol Lake sediments (Republic of Khakassia)

This is a detailed study of mineralogical and geochemical characteristics of Uskol Lake sediments and waters. Uskol Lake exists in semiarid conditions and belongs to South-Minusinsk salt lakes group, Southern Siberia of Russia. It consists of three reservoirs, two of which are intermittent. Using X-ray diffraction analysis allowed determination of mineral species, among which are oxides (quartz), aluminosilicates (illite, Na- and Ca-Mg-montmorillonite, analcime, albite and sanidine), carbonates (calcite, dolomite), sulfates (gypsum, thenardite) and halides (halite). According to their origin, the minerals can be divided into two associations: terrigenous and hydrogenous. Terrigenous association includes non-soluble minerals and corresponds well to the bed rocks composition. Hydrogenous association includes minerals, which form due to evaporation processes. While studying the regularities of vertical and lateral distribution of mineral species it was stated that mostly they are evenly distributed. However, there is a tendency of gypsum and halite accumulation in the upper parts of cross sections; also it was noted that at the depths of 30-100 cm there is illite and Ca-Mg montmorillonite contents increase in relation to Na-montmorillonite content. Carbonate (calcite, mostly) contents increase at about 200 m from lake shore. The order of hydrogenous minerals sedimentation from chloridesulfate waters of the Lake Uskol was determined. In general, minerals are precipitating as following: CO3 2- → HCO3 - → SO4 2- → Cl- for anions, Ca2+ → Mg2+ → Na2+ for cations. Obtained results are confirmed and enhances by physicochemical calculations, which show balance between lake waters and oxides, aluminosilicates, carbonates and sulfates. It is stated that evaporation processes as well as rocks weathering greatly influence the mineral formation.

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Keywords

South Minusinsk Basin, X-ray diffractometry, salt lakes, mineral formation, hydrogenic minerals

Authors

Name	Organization	E-mail
Khrushcheva Maria O.	Tomsk State University	masha2904@mail.ru
Dutova Ekaterina M.	Tomsk Polytechnic University; Tomsk State University	dutova@tpu.ru
Tishin Platon A.	Tomsk State University	tishin_pa@mail.ru
Nikitenkov Alexey N.	Tomsk Polytechnic University	corestone@mail.ru
Chernyshov Alexey I.	Tomsk State University	aich@ggf.tsu.ru
Arkhipov Alexander L.	Tomsk State University	alexlarhipov@gmail.com

Всего: 6

References

Базарова В.Б., Гребенникова Т.А., Мохова Л.М., Орлова Л.А. Особенности озерного осадконакопления в степной зоне Юго-Восточного Забайкалья в голоцене (на примере отложений оз. Зун-Соктуй) // Геология и геофизика. 2011. Т. 52 (3). C. 426-438

Борзенко С.В. Основные условия формирования химического состава вод соленых и солоноватых озер Восточного Забайкалья // Геохимия. 2020. Т. 65, № 12. C. 1212-1230

Букаты М.Б. Разработка программного обеспечения для решения гидрогеологических задач // Известия Томского политехнического университета. 2002. Т. 305, № 6. С. 348-365

Валяшко М.Г. Геохимические закономерности формирования месторождений калийных солей. М. : Изд-во МГУ, 1962. 398 с

Вологдина И.В., Дутова Е.М., Покровский Д.С., Радюк И.В. Природно-техногенные минеральные новообразования на водозаборах Томской области // Вестник Санкт-Петербургского университета. Науки о Земле. 2015. № 3. С. 58-72

Гаськова О.Л., Букаты М.Б., Широносова Г.П., Кабанник В.Г. Термодинамическая модель сорбции двух валентных тяжелых металлов кальцитов в природно-техногенных обстановках // Геология и геофизика. 2009. Т. 50, № 2. C. 115-126

Дривер Дж. Геохимия природных вод. М. : Мир, 1985. 440 с

Дутова Е.М., Букаты М.Б., Неволько А.И., Покровский Д.С., Шварцев С.Л. Гидрогенное концентрирование золота в аллювиальных россыпях Егорьевского района (Салаир) // Геология и геофизика. 2006. Т. 47, № 3. C. 364-376

Котельников А.Д., Макаренко Н.А., Дербан А.Г., Котельникова И.В., Филимонов А.Н., Сатаев Ф.Р., Третьяк А.И., Кренида О.А., Козулина Т.В. Государственная геологическая карта Российской Федерации масштаба 1 : 200 000. Издание второе. Серия Минусинская. Лист N-46-XIX (Усть-Бюрь). Объяснительная записка. СПб. : Картографическая фабрика ВСЕГЕИ, 2018. 330 с

Покровский Д.С., Дутова Е.М., Рогов Г.М., Вологдина И.В., Тайлашев А.С., Лычагин Д.В. Минеральные новообразования на водозаборах Томской области / под ред. Д. С. Покровского. Томск : НТЛ, 2002. 176 с

Рентгенография основных типов породообразующих минералов (слоистые и каркасные силикаты) / под ред. В. А. Франк-Каменецкого. Л. : Недра, 1983. 359 с

Рогозин Д.Ю. Меромиктические озера Северо-Минусинской котловины: закономерности стратификации и экология фото-трофных серных бактерий. Красноярск : Изд-во ИФСОРАН, 2018. 241 с

Солотчина Э.П., Скляров Е.В., Солотчин П.А., Вологина Е.Г., Столповская В.Н., Склярова О.А., Ухова Н.Н. Реконструкция климата голоцена на основе карбонатной осадочной летописи малого соленого озера Верхнее Белое (Западное Забайкалье) // Геология и геофизика. 2012. Т. 53 (12). С. 1756-1775

Ходяков Г. С., Юдкин Ю.П. Седиментационный анализ высоко,дисперсных систем. М. : Химия, 1981. 192 с

Хрущева М.О., Тишин П.А., Архипов А.Л. Чернышов А.И. Минералогия современных эвапоритов урочища Талое озеро (Республика Хакасия) // Вестник ИГ Коми НЦ УрО Ран. 2018. № 11. C. 48-53

Хрущева М.О., Тишин П.А., Небера Т.С., Чернышов А.И., Архипов А.Л. Генетическая информативность глинистых минералов осадков озера Усколь (Республика Хакасия) // Записки Российского минералогического общества. 2020. Т. 149, № 5. C. 99-111

Чарыкова М.В., Чарыков Н.А. Термодинамическое моделирование процессов эвапоритовой седиментации. СПб. : Наука, 2003. 261 с

Abdi L., Rahimpour-Bonab H., Mirmohammad-Makki M., Probst J., Langeroudi S.R. Sedimentology, mineralogy, and geochemistry of the Late Quaternary Meyghan Playa sediments, NE Arak, Iran: palaeoclimate implications // Arabian Journal of Geosciences. 2018. V. 11. 589 p

Attia O.E. Sedimentological characteristics and geochemical evolution of Nabqsabkha, Gulf of Aqaba, Sinai, Egypt // Arab. J. Geosci. 2013. V. 6. P. 2045-2059

Bailey S.W., Brindley G.W., Fanning D.S. et al. Report of the Clay Minerals Society Nomenclature Committee for 1982 and 1983 // Clay and Clay Minerals. 1984. V. 32. P. 239-240

Balobanenko A.A., L'gotin V., Dutova E.M., Pokrovsky D.S., Nikitenkov A.N., Raduk I.V. Geochemical groundwater peculiarities of Paleogene sediments in S-E Western Siberia artesian basin // IOP Conference Series: Earth and Environmental Science. 2016. V. 43 (1), No. 012030. doi: org/10.1088/1755-1315/43/1/012030

Banks D., Parnachev V.P., Frengstad B., Holden W., Karnachuk O.V., Vedernikov A.A. The hydrogeochemistry of the Altaiskii, Askizskii, Beiskii, Bogradskii, Shirinskii, Tashtipskii and Ust' Abakanskii regions, Republic of Khakassia, Southern Siberia, Russian Federation // NGU. 2001. 106 p

Banks D., Parnachev V.P., Frengstad B., Holden W., Karnachuk O.V., Vedernikov A.A. The evolution of alkaline, saline ground- and surface waters in the southern Siberian steppes // Applied Geochemistry. 2004. V. 19, No. 12. P. 1905-1926

Banks D., Parnachev V.P., Frengstad B., Karnachuk O.V. Hydrogeochemical Data Report: the Sampling of Selected Locations in the Republic of Khakassia, Kuznetsk Alatau Oblast' and Kemerovo Oblast', Southern Siberia. Russian Federation // Geological Survey of Norway. 2008. 103 p

Borzenko S.V. Principal Parameters Controlling Water Composition in Saline and Brackish Lakes in Eastern Transbaikalia // Geochemistry International. 2020. V. 58, No. 12. P. 1356-1373

Borzenko S.V., Shvartsev S.L. Chemical composition of salt lakes in East Transbaikalia // Applied geochemical. 2019. V. 103. P. 72-84

Chao L., Zicheng P., Dong Y., Weiguo L., Zhaofeng Z., Jianfeng H., Chenlin C. A lacustrine record from Lop Nur, Xinjiang, China: implications for palaeoclimate change during Late Pleistocene // Asian Earth Science. 2009. V. 34. P. 38-45

Dutova E.M. Geochemistry off resh ground water in the Altai-Sayan folded area and adjacent areas of the West Siberian plate // Applied Geochemistry. 2020. V. 120, No. 104673. doi: 10.1016/j.apgeochem.2020.104673

Dutova E., Nikitenkov A., Kuzevanov K. The HydroGeo Software Package and Its Usage // E3S Web of Conferences. 2019. V. 98, No. 04005. doi: 10.1051/e3sconf/20199804005

Dutova E.M., Nikitenkov A.N., Pokrovskiy V.D., Banks D., Frengstad B.S., Parnachev V.P. Modelling of the dissolution and reprecipitation of uranium under oxidizing conditions in the zone of shallow groundwater circulation // Environ. Radioact. 2017. V. 178-179. Р. 63-76

Dutova E., Vologdina I., Pokrovsky D., Nalivaiko N., Kuzevanov K., Pokrovsky V. Hydrogenous mineral neoformations in Tomsk water intake facility from underground sources // IOP Conference Series: Earth and Environmental Science. 2016. V. 33, No. 1. 012017. doi: 10.1088/1755-1315/33/1/012017

Eugster H.P., Hardie L.A. Saline Lakes // Geology and Physics. Springer Verlag, 1978. P. 237-293

Gibbs R.J. Mechanisms controlling world water chemistry // Science. 1970. V. 170. P. 1088-1090

Kamenov G.D. ICP-MS and Material Analysis // The Encyclopedia of Archaeological Sciences / ed. by Sandra L. Lopez Varela. John Wiley & Sons, Inc., 2018. 4 p. doi: 10.1002/9781119188230

Karmalov A.I., Dutova E.M., Vologdina I.V., Pokrovsky D.S., Pokrovskiy V.D., Kuzevanov K.K. Hydrogeochemical Characteristics of Water Intakes from Groundwater Sources in Seversk // IOP Conference Series: Earth and Environmental Science. 2016. No. 012032. doi: 10.1088/1755-1315/43/1/012032

Khrushcheva M.O., Dutova E.M., Tishin P.A., Arkhipov A.L., Nikitenkov A.N., Chernyshov A.I. Taloe - Sedimentation in an Intermittent Lake (Russian Federation, Republic of Khakassia) // Minerals. 2021. V. 11, No. 522. doi: 10.3390/min11050522

Khrushcheva M.O., Nebera T.S. Swelling clay minerals of bottom sediments of Uskol lake (Republic of Khakassia) // IOP Conference Series: Earth and Environmental Science. 2019. V. 319, No. 012010. doi: 10.1088/1755-1315/319/1/012010

Kolpakova M., Gaskova O., Borzenko S. Surface and groudwaters impact on geocemical stability of Saline lakes in semi-arid landscapes (Kulunda lowland, south of western Siberia, Russia) // SGEM. 2020. V. 3, No. 1. P. 321-327

Kolpakova M.N., Gaskova O.L., Naymushina O.S., Karpov, A.V., Vladimirov A.G., Krivonogov S.K. Saline lakes of Northern Kazakhstan: Geochemical correlations of elements and controls on their accumulation in water and bottom sediments // Applied Geochemistry. 2019. V. 107. P. 8-18

Parnachev V.P., Banks D., Berezovsky A.Y., Garbe-Schonberg D. Hydrochemical evolution of Na-SO4-Cl ground waters in cold, semi-arid region of southern Siberia // Hydrogeology. 1999. V. 7. P. 549-560

Parnachev V.P., Degermendzhy A.G. Geographical, geological and hydrochemical distribution of saline lakes in Khakasia, Southern Siberia // Aquatic ecology. 2002. V. 36. P. 107-122

Pokrovskiy V., Pokrovskiy D., Dutova E., Nikitenkov A. The research underflooding processes of architecture monuments on the territory of Tomsk with using gis-technology // SGEM. 2014. V. 2, No. 1. P. 935-941

Richoz S., Baldermann A., Frauwallner A., Harzhauser M., Daxner-Hock G., Klammer D., Piller W.E. Geochemistry and mineralogy of the Oligo-Miocene sediments of the valley of lakes, Mongolia // Paleobiodivers Paleoenviron. 2017. V. 97. P. 233-258

Roop H.A., Dunbar G.B., Levy R., Vandergoes M.J., Forrest A.L., Walker S.L., Purdie J., Upton P., Whinney J. Seasonal controls on sediment transport and deposition in Lake Ohau, South Island, New Zealand: implications for a high-resolution Holocene paleoclimate reconstruction // Sedimentology. 2015. V. 62. P. 826-844

Shvartsev S.L., Dutova E.M. Hydrochemistry and mobilization of gold in the hypergenesis zone (Kuznetsk Alatau, Russia) // Geol. Ore Deposits. 2001. V. 43 (3). P. 224-233

Sinha R., Raymahashay B.C. Evaporite mineralogy and geochemical evolution of the Sambhar Salt Lake, Rajestan, India // Sediment Geology. 2004. V. 166. P. 59-71

Strakhovenko V., Subetto D., Ovdina E., Danilenko I., Belkina N., Efremenko N., Maslov A. Mineralogical and geochemical composition of Late Holocene bottom sediments of Lake Onego // Journal of Great Lakes Research. 2020. V. 46, No. 3. P. 443-455

Warren J. Evaporates: sediment, resources and hydrocarbon. Berlin : Springer, 2006. 1035 p

Zamana L.V., Borzenko S.V. Hydrochemical Regime of Salt Lakes of South-Eastern Transbaikalia // Geography and Natural Resources. 2010. V. 4. P. 100-107