Redox changes in Early Cambrian black shales at Xiaotan section, Yunnan Province, South China

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• 作者：Lawrence M. Och^a ; ^{lawrence.och@eawag.ch} ; Graham A. Shields-Zhou^a ; ^b ; Simon W. Poulton^c ; Christina Manning^d ; Matthew F. Thirlwall^d ; Da Li^e ; Xi Chen^e ; Hongfei Ling^e ; Tony Osborn^a ; Lorenzo Cremonese^a
• 关键词：Cambrian Explosion ; Yangtze Platform ; Redox-sensitive trace-metals ; Iron speciation ; Redox geochemistry ; Ni&ndash ; Mo sulphide ore
• 刊名：Precambrian Research
• 出版年：2013
• 出版时间：February, 2013
• 年：2013
• 卷：225
• 期：Complete
• 页码：166-189
• 全文大小：3268 K

文摘

The Xiaotan section, situated on the southwestern Yangtze Platform, South China, contains an unusually expanded sedimentary record, spanning the upper Neoproterozoic to the Cambrian and representing more than 40 My of marine sedimentation. Three distinct black shale units of the Shiyantou and Yuanshan formations were analysed for redox-sensitive trace elements and iron speciation, in order to constrain the evolution of the marine environment during the Early Cambrian metazoan biodiversification on the southwestern Yangtze Platform. For comparison we also include black shale samples of the Shiyantou Fm. from the Meishucun section, samples from a previous study covering the Shiyantou and Yuanshan Fm. at Dapotuo near Chengjiang, and samples from the strongly condensed Early Cambrian Niutitang Fm. from the Zhongnan section situated on the platform margin. Th/U and Fe_HR/Fe_T ratios reveal that bottom waters on the southwestern Yangtze Platform were commonly anoxic and ferruginous into the Cambrian, but became oxic after deposition of the black shales of the lower Yuanshan Formation, which elsewhere contains the Chengjiang Biota. Average Mo/TOC ratios, used as an indicator of the size of the Mo reservoir, increase up-section, and together with generally increasing S/C ratios suggest a trend towards normal (Phanerozoic) marine conditions. A distinctive Ni peak within the upper Shiyantou Fm. at Xiaotan and maximum Mo concentrations at the base of the Yuanshan Fm. can be correlated to the Ni-Mo sulphide layer within the lower Niutitang Fm. and thus indicate two separate pulses of sedimentary-exhalative nickel enrichment and subsequent, redox controlled molybdenum accumulation. A strong decoupling of organic carbon and pyrite sulphur within both sections further suggests upwelling of H₂S-rich waters onto the platform. We argue here for an opening of the depositional environment on the northwestern Yangtze Platform which led to the upwelling of sulphidic waters, ventilation of the seafloor and ultimately its colonisation by newly emergent animal groups during the ¡®Cambrian Explosion¡¯.