Calibration of the B/Ca proxy in the planktic foraminifer Orbulina universa to Paleocene seawater conditions

L. Haynes, B. Hönisch, K. Dyez, K. Holland, Y. Rosenthal, Carina R. Fish, A. Subhas, J. Rae
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引用次数: 28

Abstract

The B/Ca ratio of planktic foraminiferal calcite, a proxy for the surface ocean carbonate system, displays large negative excursions during the Paleocene-Eocene Thermal Maximum (PETM, 55.9 Ma), consistent with rapid ocean acidification at that time. However, the B/Ca excursion measured at the PETM exceeds a magnitude that modern pH calibrations can explain. Numerous other controls on the proxy have been suggested, including foraminiferal growth rate and the total concentration of dissolved inorganic carbon (DIC). Here we present new calibrations for B/Ca versus the combined effects of pH and DIC in the symbiont-bearing planktic foraminifer Orbulina universa, grown in culture solutions with simulated Paleocene seawater elemental composition (high [Ca], low [Mg], and low total boron concentration ([B]_T). We also investigate the isolated effects of low seawater [B]_T, high [Ca], reduced symbiont photosynthetic activity, and average shell growth rate on O. universa B/Ca in order to further understand the proxy systematics and to determine other possible influences on the PETM records. We find that average shell growth rate does not appear to determine B/Ca in high calcite saturation experiments. In addition, our “Paleocene” calibration shows higher sensitivity than the modern calibration at low [B(OH)_4−]/DIC. Given a large DIC pulse at the PETM, this amplification of the B/Ca response can more fully explain the PETM B/Ca excursion. However, further calibrations with other foraminifer species are needed to determine the range of foraminifer species-specific proxy sensitivities under these conditions for quantitative reconstruction of large carbon cycle perturbations.
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浮游有孔虫(Orbulina universa)中B/Ca代用物与古新世海水条件的校正
浮游有孔虫方解石的B/Ca比是表层海洋碳酸盐系统的代表,在古新世-始新世热盛期(PETM,55.9 Ma)显示出较大的负偏移,与当时的快速海洋酸化一致。然而,在PETM测量的B/Ca偏移超过了现代pH校准可以解释的幅度。已经提出了对该代理的许多其他控制,包括有孔虫的生长速率和溶解无机碳(DIC)的总浓度。在这里,我们提出了B/Ca与pH和DIC共同作用的新校准,该共生体浮游有孔虫在模拟古新世海水元素组成(高[Ca]、低[Mg]和低总硼浓度([B]_T)的培养溶液中生长。我们还研究了低海水[B]_T、高[Ca]、共生体光合活性降低和平均外壳生长速率对O.universa B/Ca的孤立影响,以进一步了解代理系统学并确定对PETM记录的其他可能影响。我们发现,在高方解石饱和度实验中,平均壳层生长速率似乎不能确定B/Ca。此外,我们的“古新世”校准在低[B(OH)_4−]/DIC下显示出比现代校准更高的灵敏度。给定PETM处的大DIC脉冲,B/Ca响应的这种放大可以更充分地解释PETM B/Ca偏移。然而,需要对其他有孔虫物种进行进一步的校准,以确定在这些条件下,有孔虫特定物种的代理灵敏度范围,从而定量重建大的碳循环扰动。
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来源期刊
Paleoceanography
Paleoceanography 地学-地球科学综合
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