硬地、缝隙和薄黑色页岩:特提斯中上层盆地詹金斯事件(T-OAE)期间碳酸盐沉积的空间非均质性

T. Müller, G. Price, E. Mattioli, M. Leskó, F. Kristály, J. Pálfy
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引用次数: 6

摘要

詹金斯事件或托瓦西安海洋缺氧事件是一个反映在碳同位素和其他地球化学异常中的严重环境扰动事件。尽管在欧洲西北部的陆表盆地中对其进行了充分的研究,但在开阔的海洋环境中对其影响的了解较少。本文介绍了匈牙利Gerecse山Tölgyhát和Kisgerecse剖面的新的地球化学(碳同位素、CaCO3、[Mn])和纳米化石生物地层资料。这些剖面记录了特提斯洋边缘附近的远洋碳酸盐沉积。Tölgyhát剖面碳同位素负偏移为c. 6‰,在致密粘土和黑色页岩层中,CaCO3含量随詹金斯事件而下降。在Kisgerecse,生物和化学地层学资料显示下陶拉纪有一个缺口。最上层Pliensbachian硬地的存在,最下层Toarcian Tenuicostatum氨岩带的缺失,Tölgyhát的Jenkyns事件浓缩记录,以及Kisgerecse的Tenuicostatum浓缩带和负碳同位素异常的缺失,暗示碳酸盐沉积被阻止。钙化危机和海平面上升共同导致了碳酸盐产量和陆源输入的减少,这表明火山成因二氧化碳驱动的全球变暖可能是它们的共同原因。
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Hardground, gap and thin black shale: spatial heterogeneity of arrested carbonate sedimentation during the Jenkyns Event (T-OAE) in a Tethyan pelagic Basin (Gerecse Mts, Hungary)
Abstract The Jenkyns Event or Toarcian Oceanic Anoxic Event was an episode of severe environmental perturbations reflected in carbon isotope and other geochemical anomalies. Although well studied in the epicontinental basins in NW Europe, its effects are less understood in open marine environments. Here we present new geochemical (carbon isotope, CaCO3, [Mn]) and nannofossil biostratigraphic data from the Tölgyhát and Kisgerecse sections in the Gerecse Hills (Hungary). These sections record pelagic carbonate sedimentation near the margin of the Tethys Ocean. A negative carbon isotope excursion of c. 6‰ is observed in the Tölgyhát section, in a condensed clay and black shale layer where the CaCO3 content drops in association with the Jenkyns Event. At Kisgerecse, bio- and chemostratigraphic data suggest a gap in the lower Toarcian. The presence of an uppermost Pliensbachian hardground, the absence of the lowermost Toarcian Tenuicostatum ammonite zone and the condensed record of the Jenkyns Event at Tölgyhát, together with a condensed Tenuicostatum Zone and the missing negative carbon isotope anomaly at Kisgerecse, imply arrested carbonate sedimentation. A calcification crisis and sea-level rise together led to a decrease in carbonate production and terrigenous input, suggesting that volcanogenic CO2-driven global warming may have been their common cause.
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