Доклады Академии наукДоклады Академии наук0869-5652The Russian Academy of Sciences1887710.31857/S0869-56524896621-625Research ArticleMamon stratum of the upper devonian of the Voronezh anteclise - new kaolin-bearing provinceSavkoA. D.boeva@igem.ruNovikovV. M.boeva@igem.ruBoevaN. M.boeva@igem.ruKrainovA. V.boeva@igem.ruMilashA. V.boeva@igem.ruZhegalloE. A.boeva@igem.ruOvchinnikovaM. Yu.boeva@igem.ruBortnikovN. S.<p>Academician of the Russian Academy of Sciences</p>boeva@igem.ruVoronezh State UniversityInstitute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry of the Russian Academy of SciencesPaleontological Institute of the Russian Academy of Science2312201948966216252212201922122019Copyright © 2019, Russian academy of sciences2019<p class="a" style="margin-left: 0cm;"><span lang="EN-US">The lithofacies analysis of the Mamon showed showed that secondary kaolin deposits, forming a new kaolin-bearing province in the southern part of the Voronezh anteklise, are associated with a complex of deluvial-proluvial, lacustrine-boggy, and floodplain-oxbow deposits. The main ore minerals are kaolinite, quartz and secondary iron oxides and gibbsite. The presence of both terrigenous and autistic kaolinite was revealed. An important role in the formation of the latter, as well as gibbsite, played an organic substance.</span></p>Mamon sand-kaolin stratumterrigenousauthigenickaolinitebiofilmsмамонская песчано-каолиновая толщатерригенныйаутигенныйкаолинитбиоплёнки[Горбачев Б.Ф., Красникова Е.В. // Строительные материалы. 2015. № 4. С. 6-17.][Murray H.H. Kaolin Minerals: Their Genesis and Occurrences // In: Bailey S.W. (Ed.) Hydrous Phyllosilicates (exclusive of Micas). Reviews in Mineralogy, 19. 1998. Mineralogical Society of America. Washington D.C. P. 67-89.][Ekosse G.E. // Applied Clay Science. 2010. № 50. P. 212-236.][Горбачев Б.Ф., Васянов Г.П., Какорин В.И., Лузин В.П. // Литология и полезные ископаемые. 2007. № 2. С. 187-200.][Савко А.Д., Мануковский С.В., Шевырев Л.Т. // Тр. науч.-исслед. ин-та геологии Воронеж. ун-та. 2008. Вып. 53. 112 с.][Савко А.Д., Мануковский С.В., Крайнов А.В., Корабельников Н.А., Милаш А.В. // Вестник Воронеж. гос. ун-та. Сер. Геология. 2018. № 2. С. 20-28.][Bortnikov N.S., Novikov V.M., Soboleva S.V., Savko A.D., Boeva N.M., Zhegallo E.A., Bu-shue- va E.B. // Doklady Earth Sciences. 2012. V. 444. № 1. P. 634-638.][Naimark E.B., Boeva N.M., Kalinina M.A., Zaytseva L.V. // Paleontological Journal. 2018. V. 52. № 2. P. 109-122.][Kompantseva E.I., Naimark E.B., Boeva N.M., Zhukhlistov A.P., Novikov V.M., Nikitina N.S. Interaction of Anoxygenic Phototrophic Bacteria Rhodopseudomonas sp. with Kaolinite // Microbiology. 2013. V. 82. № .3. P. 316-326.][Bortnikov N.S., Novikov V.M., Savko A.D., Boeva N.M., Zhegallo E.A., Bushueva E.B., Krainov A.V., Dmitriev D.A. // Lithology and Mineral Resources. 2013. V. 48. № 5. P. 384-397.][Saikia B.J., Parthasarathy G. Fourier Transform Infrared Spectroscopic Characterization of Kaolinite from Assam and Meghalaya, Northeastern India // J. Mod. Phys. 2010. № 1. P. 206-210.][Aparicio P., Gala E., Ferrell R.E. A New Kaolinite Order Index Based on XRD Profile Fitting // Clay Minerals. 2006. № 41. P. 811-817.][Mansa R., Ngassa Piegang G.B., Detellier C. Kaolinite Aggregation in Book-like Structures from Non-aqueous Media // Clays and Clay Minerals. 2017. V. 65. № 3. P. 193-205.][Bortnikov N.S., Savko A.D., Novikov V.M., Boeva N.M., Soboleva S.V., Zhegallo E.A., Dmitriev D.I., Krainov A.V., Zhukhlistov A.P., Bushueva E.B. The Latnenskoe Refractory Clay Deposit (Central Russia) // Lithology and Mineral Resources. 2016. V. 51. № 6. P. 425-438.]