Integrative Oceanography Division, Scripps Institution of Oceanography, University of California San Diego , 9500 Gilman Drive, La Jolla, California 92093-0218, United States.
Environ Sci Technol. 2014 Jun 3;48(11):6401-8. doi: 10.1021/es500514j. Epub 2014 May 14.
As the ocean undergoes acidification, marine organisms will become increasingly exposed to reduced pH, yet variability in many coastal settings complicates our ability to accurately estimate pH exposure for those organisms that are difficult to track. Here we present shell-based geochemical proxies that reflect pH exposure from laboratory and field settings in larvae of the mussels Mytilus californianus and M. galloprovincialis. Laboratory-based proxies were generated from shells precipitated at pH 7.51 to 8.04. U/Ca, Sr/Ca, and multielemental signatures represented as principal components varied with pH for both species. Of these, U/Ca was the best predictor of pH and did not vary with larval size, with semidiurnal pH fluctuations, or with oxygen concentration. Field applications of U/Ca were tested with mussel larvae reared in situ at both known and unknown pH conditions. Larval shells precipitated in a region of greater upwelling had higher U/Ca, and these U/Ca values corresponded well with the laboratory-derived U/Ca-pH proxy. Retention of the larval shell after settlement in molluscs allows use of this geochemical proxy to assess ocean acidification effects on marine populations.
随着海洋酸化的发生,海洋生物将越来越多地暴露在降低的 pH 值环境中,但许多沿海环境的变异性使得我们难以准确估计那些难以追踪的生物的 pH 值暴露情况。在这里,我们提出了基于贝壳的地球化学示踪剂,这些示踪剂反映了贻贝 Mytilus californianus 和 M. galloprovincialis 幼虫在实验室和野外环境中的 pH 值暴露情况。基于实验室的示踪剂是在 pH 值为 7.51 至 8.04 的条件下沉淀的贝壳生成的。U/Ca、Sr/Ca 和多元素特征作为主成分因物种而异,随 pH 值变化。在这些特征中,U/Ca 是 pH 的最佳预测因子,不受幼虫大小、半日内 pH 波动或氧浓度的影响。U/Ca 的野外应用在已知和未知 pH 条件下在原位饲养的贻贝幼虫中进行了测试。在上升流更大的区域沉淀的幼虫贝壳具有更高的 U/Ca,这些 U/Ca 值与实验室衍生的 U/Ca-pH 示踪剂非常吻合。在软体动物中,幼虫贝壳在定居后的保留使得这种地球化学示踪剂能够用于评估海洋酸化对海洋种群的影响。
