Timing and magnitude of early Aptian extreme warming: Unraveling primary δ¹⁸O variation in indurated pelagic carbonates at Deep Sea Drilling Project Site 463, central Pacific Ocean

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• 作者：Atsushi Ando ; Kunio Kaiho ; Hodaka Kawahata ; Takeshi Kakegawa
• 关键词：Cretaceous ; Aptian ; Stable isotopes ; Limestone ; Paleotemperature ; Pacific Ocean
• 刊名：Palaeogeography ; Palaeoclimatology ; Palaeoecology
• 出版年：2008
• 期刊代码：68_00310182
• 类别：ear
• 出版时间：14 April 2008
• 卷：260
• 期：3-4
• 页码：463-476
• 文件大小：1029 K

摘要

In order to elucidate early Aptian marine paleotemperature evolution across the period of enhanced organic carbon (C_org)-burial [Oceanic Anoxic Event (OAE) 1a], stable isotope analyses were performed on pelagic limestones at Deep Sea Drilling Project Site 463, central Pacific Ocean. The δ¹⁸O data exhibit a distinct anomaly by ~ − 2‰ spanning the OAE 1a interval (i.e., a ~ 6 m-thick, phytoplanktonic C_org-rich unit constrained by magneto-, bio- and δ¹³C stratigraphy). Elucidation of paleotemperature significance of the δ¹⁸O shift is made by taking account of recent Sr/Ca evidence at the same section, which revealed that geochemical signals in carbonate-poor lithologies are relatively unaltered against burial diagenesis. By discriminating δ¹⁸O values from carbonate-poor samples (CaCO₃ contents = 5–30 wt.%), it appears that an abrupt rise in sea-surface temperatures (SSTs) by 8 °C (= − 1.7‰ shift in δ¹⁸O) occurred immediately before OAE 1a, whereas a cooling mode likely prevailed during the peak C_org-burial. In terms of its stratigraphic relationship as to the C_org-rich interval and to a pronounced negative δ¹³C excursion, as well as its timescale, the observed SST rise resembles those associated with the Paleocene–Eocene thermal maximum and, more strikingly, Jurassic Toarcian OAE. This observation is consistent with the hypothesis that these paleoenvironmental events were driven by a common causal mechanism, which was likely initiated by the greenhouse effect via massive release of CH₄ or CO₂ from the isotopically-light carbon reservoir and terminated by a negative productivity feedback.