Is there a link between carbon isotopes and sea level in epicontinental carbonate settings?

Page C. Quinton, Michael C. Rygel
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Abstract

A presumed link between carbon isotopic trends and sea level change features prominently in many studies of epicontinental carbonates. In these shallow marine environments, a combination of basin restriction, burial/oxidation of organic carbon, proximity to terrestrial carbon sources, carbonate mineralogy, and/or meteoric influence can result in δ13Ccarb records that are distinct from that of the open ocean. Because many of these processes are linked to sea level change, it has been argued that sea level might exert a significant and systematic control on the δ13Ccarb records from epicontinental settings. Multiple studies have attempted to document sea level's influence on carbon isotopic trends, but they do so with only limited constraints on sea level change and without objective evaluations of interpreted trends and relationships. We argue that the complex and complicated set of processes influencing carbon isotopic values in epicontinental settings requires a systematic approach to truly address the question of sea level's influence on δ13Ccarb. Only by integrating carbon isotopic records with a detailed sedimentological and sequence stratigraphic framework can we properly track changes in depositional environments and reconstruct the transgressive-regressive history of the rocks. Trends and relationships in these robust datasets can be evaluated with rank correlation tests specifically designed and empirically tested to deal with noisy datasets. In short, we map a possible path forward for systematic testing of the relationship between sea level and δ13Ccarb.

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在陆表碳酸盐岩环境中,碳同位素与海平面之间是否存在联系?
碳同位素趋势与海平面变化之间的假定联系在许多陆表碳酸盐研究中具有突出的特点。在这些浅海环境中,盆地限制、有机碳的埋藏/氧化、接近陆地碳源、碳酸盐矿物学和/或大气影响的综合作用可导致δ13Ccarb记录与开阔海洋的不同。由于许多这些过程与海平面变化有关,因此有人认为海平面可能对陆表环境的δ13Ccarb记录起着重要而系统的控制作用。多项研究试图记录海平面对碳同位素趋势的影响,但这些研究对海平面变化的限制有限,也没有对已解释的趋势和关系进行客观评价。我们认为,在陆表环境中,影响碳同位素值的复杂过程需要一个系统的方法来真正解决海平面对δ13Ccarb的影响问题。只有将碳同位素记录与详细的沉积学和层序地层格架相结合,才能正确地追踪沉积环境的变化,重建岩石的海侵退史。这些稳健数据集中的趋势和关系可以通过专门设计和经验测试的秩相关测试来评估,以处理有噪声的数据集。简而言之,我们为系统测试海平面与δ13Ccarb之间的关系绘制了一条可能的路径。
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