中新世早期至中期赤道太平洋东部的垂直热梯度历史:对赤道温跃层发展的影响

H. Matsui, H. Nishi, A. Kuroyanagi, H. Hayashi, M. Ikehara, R. Takashima
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引用次数: 7

摘要

了解赤道温跃层对于了解热带太平洋的气候变化至关重要。多物种浮游有孔虫分析提供了一种检查温度分布和温跃层结构的方法。虽然长期温跃层的发育可以追溯到中新世晚期,但早至中新世中期的温跃层发育却很少被研究。此外,与动态南极冰盖的关系仍不清楚。本文研究了东赤道太平洋(EEP) U1337综合海洋钻探项目站点早至中新世中期(23.1 ~ 11.7 Ma)的上层水柱垂直热梯度。该梯度在中新世气候最适期增大,而在南极东部冰盖扩张期减小。与赤道西太平洋(WEP)记录的对比表明,赤道西太平洋的海表温度比赤道西太平洋更稳定。根据EEP和WEP之间的两个对角线梯度进一步估计赤道温跃层:16.7 ~ 15.7 Ma温跃层变浅,16.5 ~ 13.8 Ma温跃层倾斜减弱。“蒙特利漂移”的开始和南极冰盖体积的减少将分别影响温跃层深度和倾斜。与上新世到现代相比,温跃层的深度可能要深得多。此外,以4点为基础的等温线分布(4DI指数)作为等温线分布均匀或不均匀的度量。4DI指数在EAIE和其他迷你事件前后显著降低,反映了在更多冰川覆盖的南极洲下均匀分布的等温线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vertical thermal gradient history in the eastern equatorial Pacific during the early to middle Miocene: Implications for the equatorial thermocline development
Knowledge of the equatorial thermocline is essential for understanding climate changes in the tropical Pacific. Multispecies planktic foraminiferal analyses provide a way to examine temperature distributions and thus the structure of the thermocline. Although the secular thermocline development has been documented back to the late Miocene, the early to middle Miocene interval has rarely been examined. In addition, relationships with the dynamic Antarctic ice sheets remain unclear. Here we investigate the vertical thermal gradient in the upper water column at Integrated Ocean Drilling Program Site U1337 in the eastern equatorial Pacific (EEP) throughout the early to middle Miocene (23.1 to 11.7 Ma). The gradient increased over the Miocene Climatic Optimum, whereas it decreased during the East Antarctic Ice Sheet Expansion (EAIE). Comparison of the EEP record with its western equatorial Pacific (WEP) counterpart suggests that sea surface temperature was more stable in the WEP than in the EEP. We further estimated equatorial thermocline from two diagonal gradients between the EEP and the WEP: thermocline shoaled from 16.7 to 15.7 Ma and tilt weakened between 16.5 and 13.8 Ma. The onset of the “Monterey Excursion” and the reduced Antarctic ice sheet volume would have affected thermocline depth and tilt, respectively. Thermocline depth was likely much deeper compared to Pliocene-to-modern conditions. Furthermore, a 4-point-based distribution of isotherms (4DI index) was used as a metric of the evenness or unevenness of the isotherm distributions. The 4DI index considerably reduced at around the EAIE and other Mi-events, reflecting the evenly distributed isotherms under a more glaciated Antarctica.
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来源期刊
Paleoceanography
Paleoceanography 地学-地球科学综合
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