气候变化领域集成服务门户(CCPortal): Air-Sea CO2 Exchange Over the Mediterranean Sea, the Red Sea and the Arabian Sea

CCPortal

DOI	10.1007/s41742-024-00586-6
	Air-Sea CO2 Exchange Over the Mediterranean Sea, the Red Sea and the Arabian Sea
	Zarghamipour, Mona; Malakooti, Hossein; Bordbar, Mohammad Hadi
发表日期	2024
ISSN	1735-6865
EISSN	2008-2304
起始页码	18
结束页码	3
卷号	18 期号:3
英文摘要	Anthropogenic greenhouse gas emissions are reshaping oceanic CO2 uptake patterns. This study focuses on the crucial regions of the Arabian Sea, Red Sea, and Mediterranean Sea which are highly affected by human-caused climate change, aiming to unravel the complexities of air-sea CO2 exchange dynamics. Understanding these processes is essential for predicting climate changes and assessing the health of marine ecosystems. In this context, a combination of observation-based data (Oc_v2020), and a multi-model ensemble of climate model simulations, were employed to explore the spatial and temporal variations in air-sea CO2 flux (FCO2) over these areas from 1982 to 2019. We implemented the Bayesian Model Averaging approach on the model outputs, resulting in a better representation of simulated CO2 flux. Overall, climate models seem to underestimate the FCO2 over the western Arabian Sea. We speculate that this model failure is attributed to the negative biased in vertical water velocity and the unrealistically representation of carbon release during coastal upwelling processes in the model. Our findings suggest that CO2 source across the Red Sea, the Arabian Sea, and the central region of the Mediterranean Sea has been reduced with a trend of - 0.494 +/- 0.009, - 1.350 +/- 0.001, and - 0.329 +/- 0.074 gCm(-2) year(-1) decade(-1), respectively. In contrast, the CO2 sink across the Western Mediterranean has been enhanced with a trend of - 0.793 +/- 0.086 gCm(-2) year(-1) decade(-1). In general, change in the water temperature was recognized as the major contributor to the sea surface partial pressure of CO2 (pCO(2)). The exception was found in the Arabian Sea, where non-thermal effects play the major role. Our results show that the CO2 flux variation is accompanied by regional changes in the sea surface pCO(2). Across the North Arabian Sea, FCO2 is also correlated with the surface wind variability, which is likely due to the changes in wind-driven upwelling. In conclusion, our study advances the understanding of regional air-sea CO2 exchange dynamics, emphasizing the need for improved model representation in areas with intense seasonal upwelling. The prominent changes in the Arabian Sea, underscore the immediate necessity for science-based management in this region to mitigate the impacts of human-induced global warming.
英文关键词	Air-sea CO2 exchange; Bayesian Model Averaging; Climate indices; ESM; Teleconnection patterns
语种	英语
WOS研究方向	Environmental Sciences & Ecology
WOS类目	Environmental Sciences
WOS记录号	WOS:001197227100003
来源期刊	INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/306011
作者单位	University of Hormozgan
推荐引用方式 GB/T 7714	Zarghamipour, Mona,Malakooti, Hossein,Bordbar, Mohammad Hadi. Air-Sea CO2 Exchange Over the Mediterranean Sea, the Red Sea and the Arabian Sea[J],2024,18(3).
APA	Zarghamipour, Mona,Malakooti, Hossein,&Bordbar, Mohammad Hadi.(2024).Air-Sea CO2 Exchange Over the Mediterranean Sea, the Red Sea and the Arabian Sea.INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH,18(3).
MLA	Zarghamipour, Mona,et al."Air-Sea CO2 Exchange Over the Mediterranean Sea, the Red Sea and the Arabian Sea".INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH 18.3(2024).