The response of calcareous nannoplankton to the latest Pliensbachian–early Toarcian environmental changes in the Camino Section (Basque Cantabrian Basin, northern Spain)

Ángela Fraguas, J. J. Gómez, A. Goy, M. J. Comas-Rengifo
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引用次数: 9

Abstract

Abstract Quantitative analysis performed on latest Pliensbachian–early Toarcian calcareous nannofossil assemblages from the Camino section (Basque Cantabrian Basin) allowed their response to the environmental changes recorded during this time interval to be deciphered, characterized by an extinction event. The results were introduced within a principal component analysis and compared with the stable isotope and total organic carbon curves. During the latest Pliensbachian, the Mirabile and the lowermost part of the Semicelatum Ammonite Subzones, Schizosphaerella, Bussonius prinsii, Biscutum finchii, Calcivascularis jansae and Similiscutum avitum, taxa that probably thrived in rather cold waters, dominated the calcareous nannofossil assemblages. Coinciding with warmer and wetter conditions, which probably led to an increase in surface water fertility, recorded slightly below the extinction boundary, the mesotrophic taxa B. novum, L. hauffii and Calyculus spp. were dominant. Nevertheless, T. patulus and C. jansae, which became extinct just below the extinction boundary, show preferences for oligotrophic conditions. Salinities similar to those of modern oceans have been inferred around the extinction boundary, considering the coupling between the abundances of Calyculus spp. and the species richness together with the absence of black shales. After the extinction boundary, nannofossil assemblages were dominated by the deep-dwelling C. crassus and the shallow-dwelling Lotharingius species, interpreted as opportunistic taxa. This work confirms that calcareous nannofossils are a really useful tool for palaeoceanographic and palaeoenvironmental reconstructions, especially in terms of climatic changes.
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西班牙北部巴斯克坎塔布里安盆地Camino剖面钙质纳米浮游生物对pliensbachia - Toarcian早期环境变化的响应
对巴斯克坎塔布里亚盆地Camino剖面最新的pliensbachia - Toarcian早期钙质纳米化石组合进行了定量分析,从而揭示了它们对这一时期环境变化的响应,其特征是灭绝事件。在主成分分析中引入了结果,并与稳定同位素和总有机碳曲线进行了比较。在最近的Pliensbachian, Mirabile和Semicelatum amamite亚带的最下部,Schizosphaerella, Bussonius prinsii,饼干,Calcivascularis jansae和Similiscutum avitum这些可能在较冷的水域中繁殖的分类群主导了钙质纳米化石组合。与温暖湿润的环境相一致,这可能导致了地表水肥力的增加,在灭绝边界以下记录的中营养分类群b.s ovum, L. hauffii和Calyculus spp.占主导地位。然而,在灭绝边界以下灭绝的苍鹭和苍鹭则表现出对少营养条件的偏好。考虑到Calyculus spp.的丰度与物种丰富度之间的耦合以及黑色页岩的缺失,在灭绝边界附近推断出与现代海洋相似的盐度。在灭绝界之后,纳米化石组合以深栖C. crassus和浅栖Lotharingius物种为主,被解释为机会分类群。这项工作证实了钙质纳米化石是古海洋学和古环境重建的一个非常有用的工具,特别是在气候变化方面。
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