Coccolithophore variability across Marine Isotope Stage 11 in the Pacific sector of the Southern Ocean and its potential impact on the carbon cycle

Paleoceanography Pub Date : 2017-08-01 DOI:10.1002/2017PA003156

M. Saavedra‐Pellitero, K. Baumann, F. Lamy, P. Köhler

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引用次数: 13

Abstract

Proxy-based reconstructions of past changes in the marine biological carbon pumps are limited, especially in the Southern Ocean. This work provides new insights into the productivity variations in the Pacific sector of the Southern Ocean. We present new data derived from three sediment cores that show glacial/interglacial coccolithophore variability across Marine Isotope Stage 11 (MIS 11). The cores were retrieved during R/V Polarstern cruise PS75 from the Subantarctic Zone and Polar Front Zone at the western flank of the East Pacific Rise and in the vicinity of the Antarctic-Pacific Ridge. Coccolithophore assemblages were overwhelmingly dominated by the species Gephyrocapsa caribbeanica and small Gephyrocapsa. Total numbers of coccoliths, coccolith accumulation rates, coccolith fraction (CF; <20 μm fraction) Sr/Ca data, and temperature-corrected CF Sr/Ca records consistently showed an increase in coccolithophore productivity during Termination V (MIS 12-11 boundary), highest productivity throughout MIS 11 (~424–374 kyr), and a decrease during late MIS 11 in all the cores. We end with a discussion of back-calculated coccolith calcification rate in the surface ocean and its potential contribution to changes in the concentration of atmospheric CO2.

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南大洋太平洋地区海洋同位素第11阶段的Coccolithophore变异及其对碳循环的潜在影响

基于代理的海洋生物碳泵过去变化的重建是有限的，特别是在南大洋。这项工作为南大洋太平洋部分的生产力变化提供了新的见解。我们提出了来自三个沉积物岩心的新数据，这些数据显示了海洋同位素阶段11 (MIS 11)的冰期/间冰期球石团变化。这些岩心是在R/V北极星巡航PS75期间从东太平洋隆起西侧和南极-太平洋脊附近的亚南极区和极锋区回收的。球石藻组合中以加勒比海Gephyrocapsa和小Gephyrocapsa占绝对优势。球粒总数、球粒积累速率、球粒分数(CF;<20 μm分数)Sr/Ca数据和温度校正的CF Sr/Ca记录一致表明，在终止V (MIS 12-11边界)，所有岩心的球石藻生产力均有所增加，在整个MIS 11期间(~ 424-374 kyr)生产力最高，而在MIS 11后期，所有岩心的球石藻生产力均有所下降。最后，我们讨论了海洋表面回溯计算的球粒钙化率及其对大气CO2浓度变化的潜在贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Paleoceanography 地学-地球科学综合

自引率

0.00%

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审稿时长

6-12 weeks