Chenran Song , Chengguo Guan , Wei Wang , Philippe Claeys , Chuanming Zhou , Bin Wan , Naihua Xue , Yongliang Hu , Ke Pang , Zhe Chen , Xunlai Yuan
{"title":"华南扬子地块早、中期埃迪卡拉纪海洋氧化还原结构的统计估算","authors":"Chenran Song , Chengguo Guan , Wei Wang , Philippe Claeys , Chuanming Zhou , Bin Wan , Naihua Xue , Yongliang Hu , Ke Pang , Zhe Chen , Xunlai Yuan","doi":"10.1016/j.precamres.2024.107483","DOIUrl":null,"url":null,"abstract":"<div><p>Early to middle Ediacaran organic-rich black shales host several famous fossil biotas and provide key evidence for understanding the coevolution of multicellular organisms and palaeoceanic environment. The water column redox states play critical roles in organic-rich shale deposition. Amongst multiple geochemical redox indexes, iron-speciation chemistry (Fe<sub>HR</sub>/Fe<sub>T</sub>, Fe<sub>py</sub>/Fe<sub>HR</sub>) in shales constitutes a reliable proxy to reconstruct the first-order redox framework of the ocean basin. However, iron-speciation is a local marine redox proxy, and only compiled data collected from multiple different sedimentary facies record statistically significant changes of oxidation states within a depositional basin. Here we compiled the spatiotemporal distribution of iron-speciation data in early to middle Ediacaran black shales of the Yangtze block in South China. New high-resolution analysis on two outcrops and one drill-core reflects overall ferruginous condition and dominant euxinic condition locally interrupted by oxic states, respectively, generally indicating pervasive anoxic depositional environment for the Member II shales of the Ediacaran Doushantuo Formation in the Lower Yangtze block. Compilation of fourteen Ediacaran sections from shallow-, slope- and deep-water facies demonstrates frequent spatiotemporal oscillation of the redox conditions throughout the Yangtze block. Widespread ferruginous states, accompanied with euxinic zones mainly focusing in lower slope facies, are detected during the early Ediacaran period, in contrast with more widespread euxinic settings in the middle Ediacaran period. Statistical data including new high-resolution results from the Lower Yangtze block show generally low enrichment for redox sensitive elements (RSEs, e.g., Mo, V and U) in the Member II shales probably due to their contemporary low seawater concentrations. An increase of RSEs concentrations occurs in the Member IV shales, which probably reflects more oxidized Earth surface environment during middle Ediacaran period. The increasing Earth oxygenation documents the occurrence of widespread euxinic states during deposition of the Member IV shales. Compilation of spatial distribution of TOC contents in black shales demonstrates their apparent relevance to spatial distribution of the euxinic rather than ferruginous states, which is likely due to the favorable role of sulfurization process on burial and preservation of organic matters. The euxinic states may also facilitate the exceptional preservation of the soft-bodied Ediacaran fossils.</p></div>","PeriodicalId":49674,"journal":{"name":"Precambrian Research","volume":null,"pages":null},"PeriodicalIF":3.2000,"publicationDate":"2024-06-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Statistical estimation of the early to middle Ediacaran ocean redox architecture in the Yangtze block of South China\",\"authors\":\"Chenran Song , Chengguo Guan , Wei Wang , Philippe Claeys , Chuanming Zhou , Bin Wan , Naihua Xue , Yongliang Hu , Ke Pang , Zhe Chen , Xunlai Yuan\",\"doi\":\"10.1016/j.precamres.2024.107483\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Early to middle Ediacaran organic-rich black shales host several famous fossil biotas and provide key evidence for understanding the coevolution of multicellular organisms and palaeoceanic environment. The water column redox states play critical roles in organic-rich shale deposition. Amongst multiple geochemical redox indexes, iron-speciation chemistry (Fe<sub>HR</sub>/Fe<sub>T</sub>, Fe<sub>py</sub>/Fe<sub>HR</sub>) in shales constitutes a reliable proxy to reconstruct the first-order redox framework of the ocean basin. However, iron-speciation is a local marine redox proxy, and only compiled data collected from multiple different sedimentary facies record statistically significant changes of oxidation states within a depositional basin. Here we compiled the spatiotemporal distribution of iron-speciation data in early to middle Ediacaran black shales of the Yangtze block in South China. New high-resolution analysis on two outcrops and one drill-core reflects overall ferruginous condition and dominant euxinic condition locally interrupted by oxic states, respectively, generally indicating pervasive anoxic depositional environment for the Member II shales of the Ediacaran Doushantuo Formation in the Lower Yangtze block. Compilation of fourteen Ediacaran sections from shallow-, slope- and deep-water facies demonstrates frequent spatiotemporal oscillation of the redox conditions throughout the Yangtze block. Widespread ferruginous states, accompanied with euxinic zones mainly focusing in lower slope facies, are detected during the early Ediacaran period, in contrast with more widespread euxinic settings in the middle Ediacaran period. Statistical data including new high-resolution results from the Lower Yangtze block show generally low enrichment for redox sensitive elements (RSEs, e.g., Mo, V and U) in the Member II shales probably due to their contemporary low seawater concentrations. An increase of RSEs concentrations occurs in the Member IV shales, which probably reflects more oxidized Earth surface environment during middle Ediacaran period. The increasing Earth oxygenation documents the occurrence of widespread euxinic states during deposition of the Member IV shales. Compilation of spatial distribution of TOC contents in black shales demonstrates their apparent relevance to spatial distribution of the euxinic rather than ferruginous states, which is likely due to the favorable role of sulfurization process on burial and preservation of organic matters. 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引用次数: 0
摘要
早、中埃迪卡拉纪富含有机质的黑色页岩孕育了多个著名的生物化石,为了解多细胞生物与古海洋环境的共同演化提供了关键证据。水柱氧化还原状态在富有机质页岩沉积过程中起着关键作用。在多种地球化学氧化还原指数中,页岩中的铁分类化学(FeHR/FeT、Fepy/FeHR)是重建海洋盆地一阶氧化还原框架的可靠替代指标。然而,铁盐种类是一种局部海洋氧化还原代用指标,只有从多个不同沉积面收集到的汇编数据才能记录一个沉积盆地内氧化态在统计学上的显著变化。在此,我们汇编了华南扬子地块早、中期埃迪卡拉纪黑色页岩中铁分类数据的时空分布。对两个露头和一个钻孔岩芯进行的新的高分辨率分析分别反映了总体的铁质状态和局部被缺氧状态打断的主要缺氧状态,总体上表明了下长江地块埃迪卡拉统斗山坨地层Ⅱ层页岩普遍缺氧的沉积环境。通过对 14 个埃迪卡拉纪浅、斜坡和深水剖面的汇编,表明整个长江地块的氧化还原条件经常发生时空振荡。在埃迪卡拉纪早期发现了广泛的铁锈状态,并伴有主要集中在下斜坡面的氧化带,而在埃迪卡拉纪中期则发现了更为广泛的氧化环境。包括长江下游区块新的高分辨率结果在内的统计数据显示,可能是由于当代海水浓度较低,二期页岩中氧化还原敏感元素(RSE,如钼、钒和铀)的富集程度普遍较低。成员 IV 页岩中的氧化还原敏感元素浓度有所增加,这可能反映了埃迪卡拉中期地球表面环境氧化程度较高。地球含氧量的增加表明,在成员 IV 页岩沉积过程中出现了广泛的富氧状态。对黑色页岩中 TOC 含量的空间分布进行的分析表明,它们明显与紫红态而不是铁锈态的空间分布有关,这可能是由于硫化过程对有机质的埋藏和保存起到了有利的作用。硫化态还可能有利于埃迪卡拉软体化石的特殊保存。
Statistical estimation of the early to middle Ediacaran ocean redox architecture in the Yangtze block of South China
Early to middle Ediacaran organic-rich black shales host several famous fossil biotas and provide key evidence for understanding the coevolution of multicellular organisms and palaeoceanic environment. The water column redox states play critical roles in organic-rich shale deposition. Amongst multiple geochemical redox indexes, iron-speciation chemistry (FeHR/FeT, Fepy/FeHR) in shales constitutes a reliable proxy to reconstruct the first-order redox framework of the ocean basin. However, iron-speciation is a local marine redox proxy, and only compiled data collected from multiple different sedimentary facies record statistically significant changes of oxidation states within a depositional basin. Here we compiled the spatiotemporal distribution of iron-speciation data in early to middle Ediacaran black shales of the Yangtze block in South China. New high-resolution analysis on two outcrops and one drill-core reflects overall ferruginous condition and dominant euxinic condition locally interrupted by oxic states, respectively, generally indicating pervasive anoxic depositional environment for the Member II shales of the Ediacaran Doushantuo Formation in the Lower Yangtze block. Compilation of fourteen Ediacaran sections from shallow-, slope- and deep-water facies demonstrates frequent spatiotemporal oscillation of the redox conditions throughout the Yangtze block. Widespread ferruginous states, accompanied with euxinic zones mainly focusing in lower slope facies, are detected during the early Ediacaran period, in contrast with more widespread euxinic settings in the middle Ediacaran period. Statistical data including new high-resolution results from the Lower Yangtze block show generally low enrichment for redox sensitive elements (RSEs, e.g., Mo, V and U) in the Member II shales probably due to their contemporary low seawater concentrations. An increase of RSEs concentrations occurs in the Member IV shales, which probably reflects more oxidized Earth surface environment during middle Ediacaran period. The increasing Earth oxygenation documents the occurrence of widespread euxinic states during deposition of the Member IV shales. Compilation of spatial distribution of TOC contents in black shales demonstrates their apparent relevance to spatial distribution of the euxinic rather than ferruginous states, which is likely due to the favorable role of sulfurization process on burial and preservation of organic matters. The euxinic states may also facilitate the exceptional preservation of the soft-bodied Ediacaran fossils.
期刊介绍:
Precambrian Research publishes studies on all aspects of the early stages of the composition, structure and evolution of the Earth and its planetary neighbours. With a focus on process-oriented and comparative studies, it covers, but is not restricted to, subjects such as:
(1) Chemical, biological, biochemical and cosmochemical evolution; the origin of life; the evolution of the oceans and atmosphere; the early fossil record; palaeobiology;
(2) Geochronology and isotope and elemental geochemistry;
(3) Precambrian mineral deposits;
(4) Geophysical aspects of the early Earth and Precambrian terrains;
(5) Nature, formation and evolution of the Precambrian lithosphere and mantle including magmatic, depositional, metamorphic and tectonic processes.
In addition, the editors particularly welcome integrated process-oriented studies that involve a combination of the above fields and comparative studies that demonstrate the effect of Precambrian evolution on Phanerozoic earth system processes.
Regional and localised studies of Precambrian phenomena are considered appropriate only when the detail and quality allow illustration of a wider process, or when significant gaps in basic knowledge of a particular area can be filled.