太古宙晚期的生物圈氧化作用与大气演化

Late Archean biospheric oxygenation and atmospheric evolution.

作者信息

Kaufman Alan J, Johnston David T, Farquhar James, Masterson Andrew L, Lyons Timothy W, Bates Steve, Anbar Ariel D, Arnold Gail L, Garvin Jessica, Buick Roger

机构信息

Departments of Geology and Earth System Science Interdisciplinary Center, University of Maryland, College Park, MD 20742-4211, USA.

出版信息

Science. 2007 Sep 28;317(5846):1900-3. doi: 10.1126/science.1138700.

DOI:10.1126/science.1138700

PMID:17901329

Abstract

High-resolution geochemical analyses of organic-rich shale and carbonate through the 2500 million-year-old Mount McRae Shale in the Hamersley Basin of northwestern Australia record changes in both the oxidation state of the surface ocean and the atmospheric composition. The Mount McRae record of sulfur isotopes captures the widespread and possibly permanent activation of the oxidative sulfur cycle for perhaps the first time in Earth's history. The correlation of the time-series sulfur isotope signals in northwestern Australia with equivalent strata from South Africa suggests that changes in the exogenic sulfur cycle recorded in marine sediments were global in scope and were linked to atmospheric evolution. The data suggest that oxygenation of the surface ocean preceded pervasive and persistent atmospheric oxygenation by 50 million years or more.

摘要

通过对澳大利亚西北部哈默斯利盆地有着25亿年历史的麦克雷山页岩中富含有机质的页岩和碳酸盐进行高分辨率地球化学分析，记录了表层海洋氧化态和大气成分的变化。麦克雷山的硫同位素记录可能首次捕捉到了地球历史上氧化硫循环的广泛且可能是永久性的激活。澳大利亚西北部的时间序列硫同位素信号与南非等地层的相关性表明，海洋沉积物中记录的外生硫循环变化具有全球范围，并且与大气演化有关。数据表明，表层海洋的氧化作用比普遍且持续的大气氧化作用早了5000万年或更久。

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太古宙晚期的生物圈氧化作用与大气演化

Late Archean biospheric oxygenation and atmospheric evolution.

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