表面波上大气-海洋CO2气体传递速度的无因次参数化

Tellus B: Chemical and Physical Meteorology Pub Date : 2023-04-11 DOI:10.16993/tellusb.1897

Shuo Li, A. Babanin, Changlong Guan

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引用次数: 0

摘要

准确量化海气输送速度对我们了解海气CO2通量、全球碳收支和气候响应至关重要。CO2传输速度主要受海洋表层与波浪有关的动力过程的约束，但通常用风速参数化。本研究提出并比较了两种适用于无量纲波动项的参数化。通过实验室和现场测量CO2传输和波浪统计进行了验证。在与破波概率相关的公式中，实现了气泡介导的气体传递的标度。改进的参数化方法能够对包含风、浪和破波等多种条件的实验室和现场数据集进行分解。

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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Dimensionless Parameterizations of Air-Sea CO2 Gas Transfer Velocity on Surface Waves

Accurate quantification of air-sea gas transfer velocity is critical for our understanding of air-sea CO2 gas fluxes, global carbon budget and climate responses. CO2 transfer velocity is predominantly subject to constraints of wave-related dynamic processes at the ocean surface layer but is typically parameterized with wind speed. This study proposes and compares two parameterizations which accommodate dimensionless wave terms. The validations are conducted using both laboratory and field measurements of CO2 transfer and wave statistics. A scaling of bubble-mediated gas transfer is implemented into the formula that is linked to wave breaking probability. The improved parameterizations are capable of collapsing combined laboratory and field data sets which comprise diversified conditions of wind, wave and wave breaking.

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Tellus B: Chemical and Physical Meteorology

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