古新世—始新世极热期浅海对全球气候变化的响应

J. Self‐Trail, M. Robinson, T. Bralower, J. Sessa, E. Hajek, L. Kump, S. Trampush, D. Willard, L. Edwards, D. Powars, G. A. Wandless
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引用次数: 40

摘要

古新世-始新世热盛期(PETM)是一个极端温暖的时期,导致全球范围内海洋和陆地生态系统的破坏。在这里,我们检查了马里兰州Mattawoman Creek Billingsley路(MCBR)扩建路段的沉积物、动植物,并探讨了索尔兹伯里湾近岸浅海(30-100米水深)场地变暖的影响。观测表明,在PETM开始时,随着陆地和淡水输入的增加,该地点突然从开阔的海洋环境转变为前三角洲环境。微体化石生物群的变化表明,最早始新世的水柱分层和低氧底层水条件。通过微生物成岩作用形成的自生碳酸盐产生了异常大的体积碳同位素位移,而海底有孔虫的相应信号大小与其他海洋地点相似。这证明,在散装沉积物中测得的碳同位素漂移幅度向陆地增加并不是由于富含12C的二氧化碳几乎瞬间释放。我们得出的结论是,MCBR站点记录了近海海洋对全球气候变化的反应,可以作为现代海岸对全球变暖反应的模拟。
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Shallow marine response to global climate change during the Paleocene‐Eocene Thermal Maximum, Salisbury Embayment, USA
The Paleocene-Eocene Thermal Maximum (PETM) was an interval of extreme warmth that caused disruption of marine and terrestrial ecosystems on a global scale. Here we examine the sediments, flora and fauna from an expanded section at Mattawoman Creek-Billingsley Road (MCBR) in Maryland and explore the impact of warming at a nearshore shallow marine (30-100 m water depth) site in the Salisbury Embayment. Observations indicate that, at the onset of the PETM, the site abruptly shifted from an open-marine to prodelta setting with increased terrestrial and fresh water input. Changes in microfossil biota suggest stratification of the water column and low oxygen bottom water conditions in the earliest Eocene. Formation of authigenic carbonate through microbial diagenesis produced an unusually large bulk carbon isotope shift, while the magnitude of the corresponding signal from benthic foraminifera is similar to that at other marine sites. This proves that the landward increase in the magnitude of the carbon isotope excursion measured in bulk sediment is not due to a near instantaneous release of 12C-enriched CO2. We conclude that the MCBR site records nearshore marine response to global climate change that can be used as an analog for modern coastal response to global warming.
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Paleoceanography
Paleoceanography 地学-地球科学综合
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