Enrichment of dissolved silica in the deep equatorial Pacific during the Eocene-Oligocene

Paleoceanography Pub Date : 2017-08-01 DOI:10.1002/2017PA003090

Guillaume Fontorbe, P. Frings, C. Rocha, K. Hendry, J. Carstensen, D. Conley

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引用次数: 23

Abstract

Silicon isotope ratios (expressed as δ30Si) in marine microfossils can provide insights into silica cycling over geologic time. Here we used δ30Si of sponge spicules and radiolarian tests from the Paleogene Equatorial Transect (Ocean Drilling Program Leg 199) spanning the Eocene and Oligocene (~50–23 Ma) to reconstruct dissolved silica (DSi) concentrations in deep waters and to examine upper ocean δ30Si. The δ30Si values range from −3.16 to +0.18‰ and from −0.07 to +1.42‰ for the sponge and radiolarian records, respectively. Both records show a transition toward lower δ30Si values around 37 Ma. The shift in radiolarian δ30Si is interpreted as a consequence of changes in the δ30Si of source DSi to the region. The decrease in sponge δ30Si is interpreted as a transition from low DSi concentrations to higher DSi concentrations, most likely related to the shift toward a solely Southern Ocean source of deep water in the Pacific during the Paleogene that has been suggested by results from paleoceanographic tracers such as neodymium and carbon isotopes. Sponge δ30Si provides relatively direct information about the nutrient content of deep water and is a useful complement to other tracers of deep water circulation in the oceans of the past.

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始新世-渐新世赤道太平洋深处溶解二氧化硅的富集

海洋微体化石中的硅同位素比率（表示为δ30Si）可以深入了解地质时期二氧化硅的循环。在这里，我们使用了海绵针状物的δ30Si和跨越始新世和渐新世（~50–23 Ma）的古近系赤道剖面（海洋钻探计划第199段）的放射虫测试，以重建深水中的溶解二氧化硅（DSi）浓度，并检查上层海洋的δ30硅。海绵记录和放射虫记录的δ30Si值范围分别为−3.16至+0.18‰和−0.07至+1.42‰。两个记录都显示了在37Ma左右向较低的δ30Si值的转变。放射虫δ30Si的移动被解释为源DSi的δ30Si向该区域变化的结果。海绵δ30Si的减少被解释为从低DSi浓度到更高DSi浓度的转变，很可能与古近纪向太平洋唯一的南大洋深水源的转变有关，这是由钕和碳同位素等古海洋示踪剂的结果提出的。海绵δ30Si提供了关于深水营养成分的相对直接的信息，是对过去海洋中其他深水循环示踪剂的有用补充。

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

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审稿时长

6-12 weeks