托阿尔西元大洋缺氧事件后气候周期性控制的周期性底水通风事件:詹金斯事件

IF 1.8 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Lorenz Schwark, Wolfgang Ruebsam
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引用次数: 0

摘要

托阿克缺氧事件的环境扰动及其相关的碳同位素偏移(CIE)以周期性的方式发生,表明存在一种轨道控制机制。卢森堡洛林次盆地的雅罗姆E. ammonite亚区沉积地层显示了八个沉积周期,其中大部分都在CIE之后,这意味着CIE的结束与环境压力的完全恢复并不一致。托阿希安危机的海平面和温度波动与北半球冰冻圈的消亡有关,冰冻圈的消亡调节了轨道 100 ka 偏心率频带上的恒星期与间冰期。在恒星阶段,风力增强加上海平面降低,破坏了分层的陆架水域,并使风暴潮基底靠近海底。底层水的通风中断了层状和富含有机质的黑色页岩的堆积,但形成了有机质稀薄的非层状灰色粘土岩,其中富含陆生蜡脂和孢子,这些都是由于风力增强而从腹地通过风化搬运提供的。据推测,风系统是由泰提安大陆架北部低温层与较温暖的沿海低地之间的高压差驱动的。这就将大陆架界限会议之后的大气湍流与假定的伴随大陆架界限会议初期快速变暖的气旋加强区分开来。CIE 之后洛林次盆地的深水通风事件伴随着德国西南部盆地的平行演变,这表明在易受风暴潮基底降低影响的古测深次盆地中存在一种超区域驱动机制。在西北-泰坦大陆架水深较大的次盆地,CIE 后轨道驱动的大气湍流对水柱分层的影响较小或没有影响,富含有机质的层状黑页岩沉积持续存在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Climate cyclicity-controlled recurrent bottom-water ventilation events in the aftermath of the Toarcian Oceanic Anoxic Event: the Jenkyns Event

Climate cyclicity-controlled recurrent bottom-water ventilation events in the aftermath of the Toarcian Oceanic Anoxic Event: the Jenkyns Event

Environmental perturbations of the Toarcian Anoxic Event and its associated carbon isotope excursion (CIE) occurred in a cyclic fashion indicating an orbital control mechanism. Sedimentary strata of the E. elegantulum ammonite subzone in the Lorraine Sub-basin, Luxembourg, exhibit eight sedimentary cycles, most of which postdate the CIE, implying that its termination did not coincide with a full recovery from environmental stress. Sea-level and temperature fluctuations of the Toarcian crisis were linked to a cryosphere demise in the Northern Hemisphere, which modulated stadial versus interstadial phases on the orbital 100 ka eccentricity frequency band. Upon stadial phases, enhanced wind strength in combination with lowered sea level disrupted stratified shelf waters and shifted the storm wave base close to the sea floor. Ventilation of bottom waters interrupted accumulation of laminated and organic-rich black shales, but formed organic-lean and non-laminated gray claystones enriched in terrigenous wax lipids and spores provided via aeolian transport from the hinterland due to the enhanced wind strength. Wind systems are assumed to have been driven by high pressure differences between the cryosphere in the North of the Tethyan shelf and the warmer costal lowland. This distinguishes the atmospheric turbulences after the CIE from the postulated intensification of the cyclones that accompanied the rapid warming at the beginning of the CIE. The deep-water ventilation event following the CIE in the Lorraine Sub-basin was accompanied by a parallel evolution in the SW German Basin, indicating a supraregional driving mechanism in paleobathymetric sub-basins susceptible to lowering of storm wave base. In sub-basins with greater water depth on the NW-Tethyan shelf, post-CIE orbitally driven atmospheric turbulences had a minor or no effect on water column stratification and deposition of organic-rich laminated black shales persisted.

Graphical abstract

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来源期刊
International Journal of Earth Sciences
International Journal of Earth Sciences 地学-地球科学综合
CiteScore
4.60
自引率
4.30%
发文量
120
审稿时长
4-8 weeks
期刊介绍: The International Journal of Earth Sciences publishes process-oriented original and review papers on the history of the earth, including - Dynamics of the lithosphere - Tectonics and volcanology - Sedimentology - Evolution of life - Marine and continental ecosystems - Global dynamics of physicochemical cycles - Mineral deposits and hydrocarbons - Surface processes.
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