OAE2期间的墨西哥湾北部及其水深与黑色页岩开发的关系

C. Lowery, R. Cunningham, C. Barrie, T. Bralower, J. Snedden
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引用次数: 21

摘要

尽管名称如此,海洋缺氧事件(OAE)并不是古代海洋中均匀缺氧和黑色页岩沉积的时期。在现代海洋中,陆架环境占生产力和有机碳埋藏的大部分,白垩纪也可能如此。然而,这种增加的机制不太可能在所有货架环境中都是一致的。一些地区,如非洲西北部边缘,以强烈的上升流为特征,但是什么可能推动不适合上升流的大陆架生产力的提高?为了解决这一问题,我们利用微体古生物学、碳同位素和沉积学,首次记录了墨西哥湾北部陆架的海洋缺氧事件2(OAE2)。OAE2发生在含氧良好的内浅海/下河口下塔斯卡卢萨砂岩沉积期间。上覆的有机质丰富、缺氧的海洋塔斯卡卢萨页岩在年龄上完全是土仑纪。我们追踪了从Spinks岩芯到墨西哥湾深水区的有机物富集情况,在那里,电缆测井计算和公开的地球化学数据表明,整个Cenomanian-Turonian边界层段都存在有机物富集和缺氧现象。墨西哥湾陆架的氧化还原变化和有机物保存是由早期土仑阶高水位之前的海平面上升驱动的,这导致富含营养、缺氧的水平流到陆架上。这导致有机质质量积累率比非洲西北部边缘等上升流地区低1-2个数量级,但它可能发生在更大的地理区域,这表明海平面上升是OAE2期间碳埋藏总体增加的重要组成部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Northern Gulf of Mexico During OAE2 and the Relationship Between Water Depth and Black Shale Development
Despite their name, Oceanic Anoxic Events (OAEs) are not periods of uniform anoxia and black shale deposition in ancient oceans. Shelf environments account for the majority of productivity and organic carbon burial in the modern ocean, and this was likely true in the Cretaceous as well. However, it is unlikely that the mechanisms for such an increase were uniform across all shelf environments. Some, like the northwest margin of Africa, were characterized by strong upwelling, but what might drive enhanced productivity on shelves not geographically suited for upwelling? To address this, we use micropaleontology, carbon isotopes, and sedimentology to present the first record of Oceanic Anoxic Event 2 (OAE2) from the northern Gulf of Mexico shelf. Here OAE2 occurred during the deposition of the well-oxygenated, inner neritic/lower estuarine Lower Tuscaloosa Sandstone. The overlying organic-rich oxygen-poor Marine Tuscaloosa Shale is entirely Turonian in age. We trace organic matter enrichment from the Spinks Core into the deepwater Gulf of Mexico, where wireline log calculations and public geochemical data indicate organic enrichment and anoxia throughout the Cenomanian-Turonian boundary interval. Redox change and organic matter preservation across the Gulf of Mexico shelf were driven by sea level rise prior to the early Turonian highstand, which caused the advection of nutrient-rich, oxygen-poor waters onto the shelf. This results in organic matter mass accumulation rates 1–2 orders of magnitude lower than upwelling sites like the NW African margin, but it likely occurred over a much larger geographic area, suggesting that sea level rise was an important component of the overall increase in carbon burial during OAE2.
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来源期刊
Paleoceanography
Paleoceanography 地学-地球科学综合
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