Impact of tropical Indian Ocean warming on the surface phytoplankton biomass at two significant coastal upwelling zones in the Arabian Sea

IF 1.9 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Dynamics of Atmospheres and Oceans Pub Date : 2023-09-09 DOI:10.1016/j.dynatmoce.2023.101401
Smitha A. , Syam Sankar , Satheesan K.
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Abstract

The Sea Surface Temperature (SST) of the Arabian Sea undergoes large seasonal variations owing to the monsoonal forcing and upwelling. Warming of the ocean adversely affects its biological productivity. The present study examined the role of the rapid warming of the tropical Indian Ocean and associated changes in physical forcing parameters on phytoplankton biomass in the Arabian Sea. SST during the summer monsoon period (June-September) of 1971–2020 showed an increasing trend of 0.6 °C in the southeastern Arabian Sea (SEAS) and 1.6 °C in the northwestern Arabian Sea. During the recent summer monsoon period of 1998–2020, surface chlorophyll-a (chl-a) concentration showed a decreasing trend of – 0.32 mg m−3 in the SEAS and an increasing trend of 0.56 mg m−3 in the northwestern Arabian Sea. High-resolution satellite and reanalysis data of physical forcing parameters such as surface winds, SST, Sea Level Anomaly (SLA) that influence the surface chl-a concentration at two distinct upwelling locations in the Arabian Sea, were analysed for the recent two decades (1998–2020). Multiple linear regression (MLR) analysis showed that SLA was the most important parameter that determines the surface chl-a variability in the SEAS, whereas alongshore wind stress was dominant in the northwestern Arabian Sea. An epochal analysis showed that in the most recent decade, SLA in the SEAS became less favourable for upwelling, whereas summer monsoon winds became increasingly favourable for upwelling in the northwestern Arabian Sea. These differences corroborate the contrasting trends in surface chl-a in the two locations in the Arabian Sea. The present study has shown that the inconsistent response of surface chl-a at distinct locations within the Arabian Sea depends on the relative strength of the influencing physical forcing mechanisms.

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热带印度洋变暖对阿拉伯海两个重要海岸上升流区表层浮游植物生物量的影响
由于季风的强迫和上升流,阿拉伯海的海面温度(SST)经历了巨大的季节变化。海洋变暖对其生物生产力产生不利影响。本研究考察了热带印度洋的快速变暖以及物理强迫参数的相关变化对阿拉伯海浮游植物生物量的影响。1971年至2020年夏季风期间(6月至9月),阿拉伯海东南部(SEAS)和阿拉伯海西北部的SST分别呈0.6°C和1.6°C的上升趋势。在最近的1998-2000年夏季风期间,SEAS的表面叶绿素a(chl-a)浓度呈-0.32 mg m−3的下降趋势,阿拉伯海西北部的叶绿素a浓度呈0.56 mg m−3。分析了近二十年(1998-2000)来影响阿拉伯海两个不同上升流位置表面chl-a浓度的物理强迫参数(如表面风、SST、海平面异常(SLA))的高分辨率卫星和再分析数据。多元线性回归(MLR)分析表明,SLA是决定SEAS中表层chl-a变化的最重要参数,而沿岸风应力在阿拉伯海西北部占主导地位。一项划时代的分析表明,在最近十年中,SEAS的SLA对上升流的影响越来越小,而阿拉伯海西北部的夏季季风对上升流越来越有利。这些差异证实了阿拉伯海两个地点表面叶绿素a的对比趋势。目前的研究表明,阿拉伯海不同位置表面chl-a的不一致响应取决于影响物理强迫机制的相对强度。
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来源期刊
Dynamics of Atmospheres and Oceans
Dynamics of Atmospheres and Oceans 地学-地球化学与地球物理
CiteScore
3.10
自引率
5.90%
发文量
43
审稿时长
>12 weeks
期刊介绍: Dynamics of Atmospheres and Oceans is an international journal for research related to the dynamical and physical processes governing atmospheres, oceans and climate. Authors are invited to submit articles, short contributions or scholarly reviews in the following areas: •Dynamic meteorology •Physical oceanography •Geophysical fluid dynamics •Climate variability and climate change •Atmosphere-ocean-biosphere-cryosphere interactions •Prediction and predictability •Scale interactions Papers of theoretical, computational, experimental and observational investigations are invited, particularly those that explore the fundamental nature - or bring together the interdisciplinary and multidisciplinary aspects - of dynamical and physical processes at all scales. Papers that explore air-sea interactions and the coupling between atmospheres, oceans, and other components of the climate system are particularly welcome.
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