在南比利牛斯山(西班牙)古新世-始新世热极盛时期,指纹识别增强了洪泛区再加工:对河道动力学和碳埋藏的影响

Geology Pub Date : 2024-05-23 DOI:10.1130/g52180.1
Marine Prieur, Alexander C. Whittaker, P. Nuriel, Rocío Jaimes-Gutierrez, Eduardo Garzanti, M. Roigé, T. Sømme, Fritz Schlunegger, S. Castelltort
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引用次数: 0

摘要

根据古新世-始新世热极盛期(PETM,约 56 Ma)的沉积记录,可以研究从碳释放到随后的恢复阶段整个气候事件期间的反馈机制。PETM 期间海洋中粘土沉积物的增加与陆地侵蚀作用的增强有关。冲积河道的流动性被用来解释细沉积物输出的增加,其依据是更频繁的过渡性崩塌。在本研究中,我们检验了从洪泛平原到海洋环境中的微钠(棱柱状方解石凝结块)再加工是否可以作为洪泛平原因河道流动而再加工的指纹。我们量化了南比利牛斯山脉(西班牙特伦普盆地)PETM 之前和同期的河流至海洋砂岩中来源于洪泛区的再加工微钠颗粒的丰度。方解石上的激光烧蚀-电感耦合等离子体-质谱 U-Pb 年龄证实了微钠石颗粒的萨尼特时代。我们的数据显示,在 PETM 期间,向海洋领域输出的洪泛平原沉积物增加了四倍。此外,我们的研究还表明,这主要是由于河道流动性增强、河道两岸和河道间的再加工造成的,腹地的侵蚀加剧是次要因素。洪泛区再加工的增加相当于生物圈碳埋藏通量增加了 2.2 倍。因此,在像 PETM 这样的气候扰动期间,河道流动性的增强和向海洋的细粒沉积物迁移可能是一个重要的负反馈机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fingerprinting enhanced floodplain reworking during the Paleocene−Eocene Thermal Maximum in the Southern Pyrenees (Spain): Implications for channel dynamics and carbon burial
The sedimentary record of the Paleocene−Eocene Thermal Maximum (PETM, ca. 56 Ma) allows the study of feedback mechanisms over the entire duration of a climatic event, from carbon release to the subsequent recovery phase. Clay sedimentation increase in the oceans during the PETM is linked to enhanced terrestrial erosion. Fluvial channel mobility has been invoked to explain this increase in fine sediment export based on more frequent transitional avulsions. In this study, we test whether the reworking of Microcodium (prismatic calcite concretions) from the floodplain to marine environments can serve to fingerprint floodplain reworking due to channel mobility. We quantified the abundance of floodplain-sourced Microcodium grains reworked in fluvial to marine sandstones pre-dating and coeval to the PETM in the Southern Pyrenees (Tremp Basin, Spain). Laser ablation−inductively coupled plasma−mass spectrometry U-Pb ages on calcite confirm the Thanetian age of the Microcodium grains. Our data show a four-fold increase in the export of floodplain sediments to the marine domain during the PETM. Moreover, we show that this is predominantly due to enhanced channel mobility, reworking channel banks and interfluves, with increased erosion in the hinterland as a secondary factor. This increase in floodplain reworking would correspond to an increase in biospheric carbon burial flux by a factor of 2.2. Therefore, enhanced channel mobility and fine-grain sediment transport to the oceans during a climatic perturbation such as the PETM may constitute an important negative feedback mechanism.
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