早志留世后冰期横断时期长江中上游地区的水文限制条件:主要、痕量元素地球化学和Mo-TOC关系的制约因素

IF 2.6 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Chuan Wang, Tian Dong, Zhiliang He, Xiaowen Guo, Sen Liu
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引用次数: 0

摘要

对氧化还原敏感的痕量金属在还原条件下具有很强的富集能力,因此不仅被广泛用作古氧化还原电位的替代指标,而且还为了解水体性质(如盆地限制程度)提供了重要信息。为了揭示整个长江中上游地区早志留纪冰期后的水文限制条件,我们采用电感耦合等离子体质谱法(ICP-MS)和Leco燃烧技术分析了龙马溪地层下部的痕量金属浓度和有机地球化学数据。我们分析了不同沉积中心的水文限制条件和氧化还原条件,包括四川盆地南部、东部和北部沉积中心以及湖北西部地区沉积中心。沉积Mo-TOC关系、MoEF-UEF协变和上升流强度表明,四川盆地南部、东部沉积中心和湖北西部沉积中心为中度水文限制的深水区,而四川盆地北部沉积中心的限制条件相对较弱。此外,由于地理位置、与开阔的秦岭洋的连通性以及河口环流等因素的综合影响,同一沉积中心的限制程度也不尽相同。氧化还原代用指标(Corg/P)表明,龙马溪下统沉积于缺氧水体中。不同沉积中心和同一沉积中心不同位置的氧化还原条件存在明显的空间差异,这可能受海平面相对上升、水文限制和上升流强度的控制。缺氧条件更有可能出现在水柱相对较深且受到限制的区域。此外,四川盆地北部沉积中心的缺氧条件也可能与强烈的上升流强度和 P 循环回水体的行为有关,这可以促进初级生产力,进一步维持持续的缺氧条件。Corg/P与Mo/TOC之间的相关性表明,在相对弱的限制盆地中,沉积物中微量元素的富集受海水中微量元素浓度的控制。在中等限制海盆中,微量元素富集主要受氧化还原条件控制。而在还原性较强的条件下,水文限制可能会成为主导因素。应用沉积物 Mo-TOC 关系、MoEF-UEF 协变和上升流可深入了解水文限制条件,但 Mo/TOC 关系仅限于缺氧面,因为微量金属的少量积累也可能是缺氧条件的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrographic restriction conditions in the Middle and Upper Yangtze region during the Early Silurian post-glacial transgression: Constraints from major, trace elemental geochemistry and Mo-TOC relationship
Redox-sensitive trace metals have not only been widely used as the proxy for palaeoredox potential due to the strong enrichments under reducing conditions but also provide critical information into water-mass properties, such as the degree of basin restriction. In order to reveal the Early Silurian post-glacial transgression hydrographic restriction conditions throughout the Middle and Upper Yangtze region, trace metal concentrations and organic geochemical data of the lower Longmaxi Formation were analyzed by the Inductively Coupled Plasma-Mass Spectrometry (ICP-MS) and Leco combustion techniques. We analyzed the hydrographic restriction conditions and redox conditions of different depocenters, including the Southern, Eastern, and Northern Sichuan Basin depocenters and the Western Hubei Region depocenter. The sedimentary Mo-TOC relationship, MoEF-UEF covariation, and upwelling intensity suggest that the Southern, Eastern Sichuan Basin depocenters and the Western Hubei Region depocenter were deep water areas with moderate hydrographic restriction, whereas the restriction conditions of Northern Sichuan Basin depocenter was relatively weak. In addition, due to the combined effect of geographical location, connectivity with the open Qinling Ocean, and estuarine circulation, restriction degrees varied in the same depocenter. The redox proxy (Corg/P) indicated that the lower Longmaxi Formation was deposited in an anoxic water column. There are significant spatial differences in redox conditions in different depocenters and different locations within the same depocenter, which may be controlled by relative sea level rise, hydrographic restriction, and upwelling intensity. Anoxic conditions were more likely to occur in areas where water column was relatively deep and restricted. In addition, the anoxic conditions in the Northern Sichuan Basin depocenter may also associated with the strong upwelling intensity and the behavior of P cycling back to water column, which can promote the primary productivity and further maintain persistent anoxic conditions. The correlation between Corg/P and Mo/TOC indicates that, in relatively weak restriction basin, the trace elements enrichment in sediments was controlled by trace elemental concentrations in seawater. In moderate restriction basin, the trace elements enrichment was mainly controlled by redox conditions. Whereas under more reducing conditions, hydrographic restriction may tend to become the dominant factor. The application of sediment Mo-TOC relationship, MoEF-UEF covariation, and upwelling can provide insights into hydrographic restriction conditions, but the Mo/TOC relationship is limited to anoxic facies, as little trace metal accumulation could also be the consequence of oxic conditions.
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来源期刊
CiteScore
5.90
自引率
10.00%
发文量
398
审稿时长
3.8 months
期刊介绍: Palaeogeography, Palaeoclimatology, Palaeoecology is an international medium for the publication of high quality and multidisciplinary, original studies and comprehensive reviews in the field of palaeo-environmental geology. The journal aims at bringing together data with global implications from research in the many different disciplines involved in palaeo-environmental investigations. By cutting across the boundaries of established sciences, it provides an interdisciplinary forum where issues of general interest can be discussed.
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