Mineralogy and geochemistry of marine glauconitic siliciclasts and phosphates in selected Cenomanian–Turonian units,Bohemian Cretaceous Basin,Czech Republic: Implications for provenance and depositional environment |
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| Institution: | 1. State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Xueyuanlu 29, Haidian District, Beijing 100083, China;2. College of Zijin Mining, Fuzhou University, Fuzhou, Fujian 350108, China;3. Research Institute, China National Offshore Oil Corporation, Taiyanggong Nanjie NO 6, Chaoyang District, Beijing 100083, China;1. Geological Faculty, Moscow State University, Vorobievy Gory, Moscow 119234 Russia;2. Geological Institute, Russian Academy of Sciences, Pyzhevsky per. 7, Moscow 109017 Russia |
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| Abstract: | Glauconitic siliciclastic rocks and phosphate components from the Pecínov Member of the Peruc–Korycany Formation (Upper Cenomanian), the lower part of the Bílá Hora Formation (Lower Turonian) and the lower part of the Teplice Formation (Upper Turonian) are studied. Geochemical indices suggest that the siliciclasts were derived from the weathering and recycling products of variable rock types of the Bohemian Massif, with a pronounced signature of felsic-derived source lithologies and a minor contribution from the sources of a chemically intermediate nature. Geochemical and mineralogical criteria suggest that the climate in the mid-Cretaceous was generally humid with possible intermittent arid episodes, which resulted in a long-term weathering of source rocks and the development of residual clay minerals in the source area. Several geochemical indications point toward highly reducing marine conditions during deposition of the mudstones, which are composed of quartz, glauconite, kaolinite, smectite, apatite and calcite. The glauconites show a highly mature character with >8 wt. % K2O and bear evidence of long residence time near the sediment–water interface. They are depleted in Fe and rich in Al indicating a mixed layer mica–smectite as a precursor. Carbonate-fluorapatite is the only phosphate phase identified in the phosphate components, with up to 8 wt. % CO32?, excess F? and significant amounts of Na+ and SO42? in the apatite structure. A short-lived phosphogenic event(s) took place in the latest Cenomanian and involved large areas of the Bohemian Cretaceous Basin in association with the Oceanic Anoxic Event 2. The phosphate nodules were initially precipitated under suboxic conditions around the Cenomanian–Turonian boundary and were later reworked and emplaced in the earliest Turonian units. Phosphate coprolites mark another phosphogenic event in the early Upper Turonian. The development of the phosphate coprolites took place under variable redox conditions; the release of organically-bound phosphate and subsequent phosphatisation of fecal material took place under suboxic environment, followed by reworking in oxic realms. |
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| Keywords: | Glauconite Apatite Siliciclasts Phosphogenesis Paleoclimate Provenance Cretaceous OAE2 |
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