1. Nitrogen Isotope Evidence for Redox Variations at the Ediacaran-Cambrian Transition in South China.
- Author
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Wang, Xinqiang, Shi, Xiaoying, Tang, Dongjie, and Zhang, Wenhao
- Subjects
NITROGEN isotopes ,OXIDATION-reduction reaction ,CAMBRIAN Period ,DENITRIFICATION ,TRILOBITES - Abstract
Nitrogen isotope (δ
15 ;N) analyses of the early Cambrian (ca. 542-520 Ma) strata in the Yangtze Gorges area, south China, reveal a prominent positive δ15 N excursion (≥+8%), concurrent with a negative shift in organic carbon isotopes (δ13 Corg ) at the early Nemakit-Daldynian or early Fortunian stage. This positive δ15 N excursion, in combination with the previously reported paired δ13 Ccarb- δ13 Corg at this interval, can be interpreted as resulting from denitrification with large isotopic fractionation. Subsequent δ15 N from early Nemakit-Daldynian to early Tommotian (stage 2) are dominated by stable values fluctuating between -2‰ and +2‰, close to that of atmosphere N2 (∼0‰) accompanied by the low and stable δ13 Corg (∼-33‰) and decoupled δ13 Ccarb -δ13 Corg . We argue that the relatively low and invariant δ15 N values from this interval likely resulted from enhanced N fixation with limited isotopic fractionation. Enhanced N fixation is generally associated with significant nutrient N loss mainly through denitrification and anammox, indicating the expansion of an anoxic environment. The δ15 N records of the study sections show large difference from that of potential time-equivalent Zhujiaqing Formation in the Xiaotan section. This discrepancy can be plausibly attributed to different redox conditions in a stratified ocean inherited from the Ediacaran. Anoxic ocean conditions may have lasted for millions of years until the early Atdabanian (stage 3), when trilobites started to dominate the Cambrian ocean. [ABSTRACT FROM AUTHOR]- Published
- 2013
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