Geochemical changes across the Ordovician-Silurian transition on the Yangtze Platform,South China

• Published in: Science China. Earth sciences Vol. 52; no. 1; pp. 38 - 54
• Main Authors: Yan, DeTian, Chen, DaiZhao, Wang, QingChen, Wang, JianGuo
• Format: Journal Article
• Language: English
• Published: Heidelberg SP Science in China Press 2009; Springer Nature B.V
• Subjects: Anoxic conditions; boundary; earth; Earth and Environmental Science; Earth Sciences; elements; extinction; Geochemistry; Glaciation; mass; Mass extinctions; Oceanic analysis; Ordovician; Ordovician-Silurian; paleo-redox; Platform; proxies; rare; Sea level; Silurian; trace; Trace elements; Yangtze; China; Yangtze Valley; paleo-redox proxies; mass extinction; trace elements; Ordovician-Silurian boundary; Yangtze Platform; rare earth elements
• ISSN: 1674-7313; 1006-9313; 1869-1897; 1862-2801
• DOI: 10.1007/s11430-008-0143-z

The trace element and rare earth element(REE) variations across the Ordovician-Silurian succession are presented from two outcrop sections on the Yangtze Platform:the Nanbazi section,Guizhou Province,deposited in a shallow platform interior setting,and the Wangjiawan section,Hubei Province,deposited in a deeper basinal environment.Geochemical analysis of closely spaced samples through three intervals,the Wufeng,Guanyinqiao and Longmaxi,revealed vast palaeoceanographic changes.Some geochemical proxies,including Th/U,Ni/Co,V/Cr,and V/(V+Ni) ratios,together with sedimentary facies and biotic data,indicate that an anoxic condition on the most of the Yangtze Platform during the Wufeng and Longmaxi intervals,but an oxic condition during the Guanyinqiao time.The shift of the anoxic to the oxic environment during the Guanyinqiao time coincided with a global sea-level lowstand,in parallel with the global glaciation.The Longmaxian anoxic environment was a result of a global sea-level rise,which may be synchronized with a mainly catastrophic event in the latest Ordovician.Although the two sections generally show similar variation patterns of trace and REE concentrations and some element ratios,a minor difference occurs between the Wangjiawan and Nanbazi sections,likely reflecting a difference in depositional setting during the accumulation.Such an oceanic oxygen-level variation may add a useful constraint to the current arguments on the cause and consequence of the latest Ordovician mass extinction.