Intrareef variations in Li/Mg and Sr/Ca sea surface temperature proxies in the Caribbean reef-building coral Siderastrea siderea

Paleoceanography Pub Date : 2016-10-01 DOI:10.1002/2016PA002968

Sara E. Fowell, K. Sandford, J. Stewart, K. Castillo, J. Ries, G. Foster

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引用次数: 35

Abstract

Caribbean sea surface temperatures (SSTs) have increased at a rate of 0.2°C per decade since 1971, a rate double that of the mean global change. Recent investigations of the coral Siderastrea siderea on the Belize Mesoamerican Barrier Reef System (MBRS) have demonstrated that warming over the last 30 years has had a detrimental impact on calcification. Instrumental temperature records in this region are sparse, making it necessary to reconstruct longer SST records indirectly through geochemical temperature proxies. Here we investigate the skeletal Sr/Ca and Li/Mg ratios of S. siderea from two distinct reef zones (forereef and backreef) of the MBRS. Our field calibrations of S. siderea show that Li/Mg and Sr/Ca ratios are well correlated with temperature, although both ratios are 3 times more sensitive to temperature change in the forereef than in the backreef. These differences suggest that a secondary parameter also influences these SST proxies, highlighting the importance for site- and species-specific SST calibrations. Application of these paleothermometers to downcore samples reveals highly uncertain reconstructed temperatures in backreef coral, but well-matched reconstructed temperatures in forereef coral, both between Sr/Ca-SSTs and Li/Mg-SSTs, and in comparison to the Hadley Centre Sea Ice and Sea Surface Temperature record. Reconstructions generated from a combined Sr/Ca and Li/Mg multiproxy calibration improve the precision of these SST reconstructions. This result confirms that there are circumstances in which both Li/Mg and Sr/Ca are reliable as stand-alone and combined proxies of sea surface temperature. However, the results also highlight that high-precision, site-specific calibrations remain critical for reconstructing accurate SSTs from coral-based elemental proxies.

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加勒比造礁珊瑚中Li/Mg和Sr/Ca海表温度的区内变化

自1971年以来，加勒比海海面温度(SSTs)以每十年0.2°C的速度增加，是全球平均变化速度的两倍。最近对伯利兹中美洲堡礁系统(MBRS)上的Siderastrea siderea珊瑚的调查表明，过去30年的变暖对钙化产生了不利影响。该地区的仪器温度记录较为稀疏，需要通过地球化学温度代用品间接重建较长的海表温度记录。本文研究了MBRS两个不同的礁带(前礁和后礁)中S. siderea的Sr/Ca和Li/Mg骨骼比值。我们的野外校准表明，S. siderea的Li/Mg和Sr/Ca比值与温度有很好的相关性，尽管这两个比值对前礁温度变化的敏感性是后礁的3倍。这些差异表明，一个次要参数也会影响这些海温代用物，突出了特定地点和物种海温校准的重要性。将这些古温度计应用于下岩芯样品，发现后礁珊瑚的重建温度高度不确定，但前礁珊瑚的重建温度在Sr/Ca-SSTs和Li/Mg-SSTs之间，并与Hadley中心海冰和海面温度记录相匹配。由Sr/Ca和Li/Mg组合的多代理校准产生的重建提高了这些海温重建的精度。这一结果证实，在某些情况下，Li/Mg和Sr/Ca作为单独或联合的海面温度指标都是可靠的。然而，结果也强调，高精度、特定地点的校准对于从基于珊瑚的元素代用品重建准确的海温仍然至关重要。

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

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0.00%

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审稿时长

6-12 weeks