新生代第一次过热期的变暖、酸化和钙化反馈——最新的大年事件

IF 4.8 1区 地球科学 Q1 GEOLOGY
Geology Pub Date : 2023-11-07 DOI:10.1130/g51330.1
Margareta Harbich, James S.K. Barnet, James W.B. Rae, Dick Kroon
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引用次数: 0

摘要

最新的丹麦事件(LDE;约62.15 Ma)是古新世早期由偏心率驱动的一次主要的瞬态变暖事件和碳循环扰动(过热),与古新世晚期-始新世早期的大型事件相比,这一事件受到的关注明显较少。更好地了解LDE的性质可能会更广泛地扩大我们对超热现象的理解,并提高我们对地球系统对极端气候状态的响应的认识。我们提供了浮游和底栖有孔虫Mg/Ca和B/Ca的记录,这些记录为LDE期间南大西洋温度和碳酸盐化学的变化提供了新的线索。我们的浮游Mg/Ca记录显示,在较老的碳同位素偏移期间,海面温度脉冲增加了至少~ 1.5°C,在较年轻的同位素偏移期间,海面温度脉冲增加了~ 0.5°C。我们观察到浮游生物和底栖生物B/Ca的下降,与底栖生物δ13C的显著负偏移同步,这表明在表层和深海中,碳酸盐体系向更酸性、溶解的无机碳-丰富的条件转变。在LDE之后,条件仍然更加酸性,我们认为这可能与浮游钙化物组成变化导致的海洋碱度汇增强有关,暗示钙化物生态与海洋大气二氧化碳之间存在一种新的反馈。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Warming, acidification, and calcification feedback during the first hyperthermal of the Cenozoic—The Latest Danian Event
The Latest Danian Event (LDE; ca. 62.15 Ma) is a major double-spiked eccentricity-driven transient warming event and carbon cycle perturbation (hyperthermal) in the early Paleocene, which has received significantly less attention compared to the larger events of the late Paleocene−early Eocene. A better understanding of the nature of the LDE may broaden our understanding of hyperthermals more generally and improve our knowledge of Earth system responses to extreme climate states. We present planktic and benthic foraminiferal Mg/Ca and B/Ca records that shed new light on changes in South Atlantic temperature and carbonate chemistry during the LDE. Our planktic Mg/Ca record reveals a pulsed increase in sea-surface temperature of at least ∼1.5 °C during the older carbon isotope excursion, and ∼0.5 °C during the younger isotope excursion. We observe drops in planktic and benthic B/Ca, synchronous with pronounced negative excursions in benthic δ13C, which suggest a shift in the carbonate system toward more acidic, dissolved inorganic carbon−rich conditions, in both the surface and deep ocean. Conditions remained more acidic following the LDE, which we suggest may be linked to an enhanced ocean alkalinity sink due to changes in the makeup of planktic calcifiers, hinting at a novel feedback between calcifier ecology and ocean-atmosphere CO2.
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来源期刊
Geology
Geology 地学-地质学
CiteScore
10.00
自引率
3.40%
发文量
228
审稿时长
6.2 months
期刊介绍: Published since 1973, Geology features rapid publication of about 23 refereed short (four-page) papers each month. Articles cover all earth-science disciplines and include new investigations and provocative topics. Professional geologists and university-level students in the earth sciences use this widely read journal to keep up with scientific research trends. The online forum section facilitates author-reader dialog. Includes color and occasional large-format illustrations on oversized loose inserts.
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