Ocean Alkalinity, Buffering and Biogeochemical Processes

IF 25.2 1区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Reviews of Geophysics Pub Date : 2020-06-09 DOI:10.1029/2019RG000681

Jack J. Middelburg, Karline Soetaert, Mathilde Hagens

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引用次数: 106

Abstract

Alkalinity, the excess of proton acceptors over donors, plays a major role in ocean chemistry, in buffering and in calcium carbonate precipitation and dissolution. Understanding alkalinity dynamics is pivotal to quantify ocean carbon dioxide uptake during times of global change. Here we review ocean alkalinity and its role in ocean buffering as well as the biogeochemical processes governing alkalinity and pH in the ocean. We show that it is important to distinguish between measurable titration alkalinity and charge balance alkalinity that is used to quantify calcification and carbonate dissolution and needed to understand the impact of biogeochemical processes on components of the carbon dioxide system. A general treatment of ocean buffering and quantification via sensitivity factors is presented and used to link existing buffer and sensitivity factors. The impact of individual biogeochemical processes on ocean alkalinity and pH is discussed and quantified using these sensitivity factors. Processes governing ocean alkalinity on longer time scales such as carbonate compensation, (reversed) silicate weathering, and anaerobic mineralization are discussed and used to derive a close-to-balance ocean alkalinity budget for the modern ocean.

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海洋碱度、缓冲和生物地球化学过程

碱度，即质子受体多于质子供体，在海洋化学、缓冲和碳酸钙沉淀和溶解中起着重要作用。了解碱度动态是量化全球变化期间海洋二氧化碳吸收的关键。本文综述了海洋碱度及其在海洋缓冲中的作用，以及控制海洋碱度和pH的生物地球化学过程。我们表明，区分可测量滴定碱度和电荷平衡碱度是很重要的，电荷平衡碱度用于量化钙化和碳酸盐溶解，需要了解生物地球化学过程对二氧化碳系统组分的影响。提出了海洋缓冲的一般处理和通过敏感性因子的量化，并将现有的缓冲和敏感性因子联系起来。利用这些敏感性因子讨论和量化了各个生物地球化学过程对海洋碱度和pH的影响。在较长时间尺度上控制海洋碱度的过程，如碳酸盐补偿、(反向)硅酸盐风化和厌氧矿化进行了讨论，并用于推导现代海洋接近平衡的海洋碱度预算。

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

Reviews of Geophysics 地学-地球化学与地球物理

CiteScore

50.30

自引率

0.80%

发文量

审稿时长

12 months

期刊介绍： Geophysics Reviews (ROG) offers comprehensive overviews and syntheses of current research across various domains of the Earth and space sciences. Our goal is to present accessible and engaging reviews that cater to the diverse AGU community. While authorship is typically by invitation, we warmly encourage readers and potential authors to share their suggestions with our editors.