Latest Cretaceous climatic and environmental change in the South Atlantic region

Lineke Woelders, J. Vellekoop, D. Kroon, J. Smit, S. Casadío, M. Prámparo, J. Dinarès‐Turell, F. Peterse, A. Sluijs, J. Lenaerts, R. Speijer
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引用次数: 49

Abstract

Latest Maastrichtian climate change caused by Deccan volcanism has been invoked as a cause of mass extinction at the Cretaceous-Paleogene (K-Pg) boundary (~66.0 Ma). Yet late Maastrichtian climate and ecological changes are poorly documented, in particular on the Southern Hemisphere. Here we present upper Maastrichtian-lower Danian climate and biotic records from the Bajada del Jaguel (BJ) shelf site (Neuquen Basin, Argentina), employing the TEX86 paleothermometer, marine palynology (dinoflagellate cysts), and micropaleontology (foraminifera). These records are correlated to the astronomically tuned Ocean Drilling Program Site 1262 (Walvis Ridge). Collectively, we use these records to assess climatic and ecological effects of Deccan volcanism in the Southern Atlantic region. Both the TEX86-based sea surface temperature (SST) record at BJ and the bulk carbonate δ18O-based SST record of Site 1262 show a latest Maastrichtian warming of ~2.5–4°C, at 450 to 150 kyr before the K-Pg boundary, coinciding with the a large Deccan outpouring phase. Benthic foraminiferal and dinocyst assemblage changes indicate that this warming resulted in enhanced runoff and stratification of the water column, likely resulting from more humid climate conditions in the Neuquen Basin. These climate conditions could have been caused by an expanding and strengthening thermal low over the South American continent. Biotic changes in response to late Maastrichtian environmental changes are rather limited, when compared to the major turnovers observed at many K-Pg boundary sites worldwide. This suggests that environmental perturbations during the latest Maastrichtian warming event were less severe than those following the K-Pg boundary impact.
南大西洋地区晚白垩世气候和环境变化
德干火山活动引起的马斯特里赫特阶最新气候变化被认为是白垩纪-古近系(K-Pg)边界(约66.0 Ma)大规模灭绝的原因。然而,马斯特里赫特纪晚期的气候和生态变化记录很少,尤其是在南半球。在这里,我们使用TEX86古温度计、海洋孢粉学(甲藻囊肿)和微古生物学(有孔虫),介绍了上马斯特里赫特阶-下达尼亚阶Bajada del Jaguel(BJ)陆架遗址(阿根廷Neuquen盆地)的气候和生物记录。这些记录与经过天文调整的海洋钻探计划地点1262(沃尔维斯山脊)有关。总之,我们使用这些记录来评估南大西洋地区德干火山活动的气候和生态影响。BJ的基于TEX86的海面温度(SST)记录和1262号站点的基于大块碳酸盐δ18O的SST记录都显示,在K-Pg边界之前的450至150 kyr,马斯特里赫特阶最新变暖约为2.5–4°C,和大型德干喷溢相吻合。底栖有孔虫和恐龙囊肿组合的变化表明,这种变暖导致了水柱的径流和分层增加,这可能是由于Neuquen盆地更潮湿的气候条件造成的。这些气候条件可能是由南美洲大陆上空不断扩大和增强的热低压造成的。与世界各地许多K-Pg边界点观测到的主要失误相比,响应马斯特里赫特晚期环境变化的生物变化相当有限。这表明,最近马斯特里赫特变暖事件期间的环境扰动不如K-Pg边界影响之后的环境扰动严重。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Paleoceanography
Paleoceanography 地学-地球科学综合
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