有机碳稳定同位素比值跨K/T边界的变化:全球控制还是局部控制?

Philip A. Meyers
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引用次数: 13

摘要

全球碳酸盐岩碳δ 13c值从马斯特里赫特早期较重的值向大年早期较轻的值转变表明,在海洋生产力低迷时期,同位素轻有机碳向无机碳储层再循环。全球分散的K/T剖面的有机碳δ13值比较没有显示出类似的全球发育良好的模式。有几个因素明显压倒了同位素较轻的无机碳源对有机质同位素特征的潜在影响:(1)生物组合中的物种变化可能改变有机质的平均同位素分异;(2)陆地/海洋有机质对沿海海域贡献比例的变化可能叠加了同位素记录。在确定K/T边界剖面沉积有机碳同位素特征时,局部现象明显大于全球变化。
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Changes in organic carbon stable isotope ratios across the K/T boundary: global or local control?

A global shift in carbonate carbon δ13C-values from heavier values in the Maastrichtian to lighter values in the early Danian indicates recycling of isotopically light organic carbon to inorganic carbon reservoirs during a period of depressed marine productivity. Comparison of organic carbon δ13-values from globally dispersed K/T sections does not show a similar, globally well-developed pattern. Several factors evidently overwhelm the potential impact of an isotopically lighter inorganic carbon source on organic matter isotopic signatures: (1) species changes in biological assemblages may modify the averaged isotopic fractionation of organic matter; and (2) shifts in the proportion of land/marine organic matter contributions to coastal marine locations may overprint the isotopic record. Local phenomena evidently outweigh global change in determining the isotope signature of organic carbon deposited in K/T boundary sections.

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