Pacing of late Pliensbachian and early Toarcian carbon cycle perturbations and environmental change in the westernmost Tethys (La Cerradura Section, Subbetic zone of the Betic Cordillera, Spain)

Ricardo L. Silva, M. Ruhl, Cillian Barry, M. Reolid, W. Ruebsam
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引用次数: 9

Abstract

Abstract Detailed assessment of high-resolution elemental and isotopic geochemical datasets collected from the marl–limestone alternations cropping out at La Cerradura (Subbetic domain of the Betic Cordillera, Spain) and chrono- and chemostratigraphic correlation with the reference Mochras borehole (Cardigan Bay Basin, UK) unveiled valuable new insights into understanding of late Pliensbachian–early Toarcian palaeoenvironmental dynamics in a key geographical area between the northern European seaway and the Tethys Ocean. This study shows that deposition in the study area took place under dominantly oxic water column conditions, indicated, for example, by the generalized lack of enrichment in organic matter and redox metals typically associated with anoxia and euxinia. Carbon isotope stratigraphy (δ13CTOC) allowed recognition of the spinatum (=emaciatum in the Submediterranean Province), Pliensbachian–Toarcian, and early Toarcian Oceanic Anoxic Event negative carbon isotopic excursions and the late Pliensbachian positive carbon isotopic excursion. It is here suggested that the observed periodic changes in lithology and sedimentary geochemistry occur at orbital frequencies (i.e. long and short eccentricity and, tentatively, precession), hinting at an astronomical control of the local–regional climate and environment during the Pliensbachian and Toarcian in the mid- to low-latitude South Iberian palaeomargin area.
西班牙Betic Cordillera亚北洋带La Cerradura剖面特提斯最西端Pliensbachian晚期和Toarcian早期碳循环扰动与环境变化的步调
详细评估了La Cerradura(西班牙Betic Cordillera的亚北洋域)的泥灰岩蚀变所收集的高分辨率元素和同位素地球化学数据集,并与参考Mochras钻孔(Cardigan Bay Basin)进行了年代和化学地层对比。在欧洲北部海道和特提斯洋之间的一个关键地理区域,英国)揭示了对pliensbachia - Toarcian早期古环境动力学的有价值的新见解。该研究表明,研究区域的沉积主要发生在含氧水柱条件下,例如,有机质和氧化还原金属普遍缺乏富集,通常与缺氧和缺氧有关。碳同位素地层(δ13CTOC)识别了spinatum(亚地中海省=emaciatum)、Pliensbachian - Toarcian和Toarcian早期海洋缺氧事件的负碳同位素偏移和Pliensbachian晚期的正碳同位素偏移。本文认为,观测到的岩性和沉积地球化学的周期性变化发生在轨道频率上(即长、短偏心率和暂定的岁差),暗示了中低纬度南伊比利亚古边缘地区Pliensbachian和Toarcian时期局地气候和环境的天文控制。
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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