2015 年和 2019 年夏季阿拉伯海东南部的负表面叶绿素浓度异常现象

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY
Huaming Huang, Ke Huang, Lei Yang, Zhanlin Liang, Wei Song, Dongxiao Wang
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引用次数: 0

摘要

卫星观测显示,2015 年和 2019 年夏季(7 月-8 月-9 月),阿拉伯海东南部(SEAS,北纬 6°-15°,东经 72°-77°)出现了两次极低表面叶绿素浓度(SCC)事件,同时海面温度异常偏高。我们发现,导致这两次相似的低 SCC 事件的物理过程存在明显差异。2019 年夏季东南大西洋 SCC 偏低主要与印度洋偶极子(IOD)极端正值事件期间,当地风异常和斯里兰卡东部附近东风异常驱动的西向下沉沿岸开尔文波的共同作用导致的上升流减弱和热层深度加深有关。2015 年夏季,孟加拉湾南部由印度洋偶极子诱发的较弱的正偏东异常也会驱动下沉沿岸开尔文波向西传播,加深东南大西洋的热层。但与 2019 年夏季不同的是,2015 年夏季 SEAS 的局地风应力卷曲异常有利于上涌,从而抵消了沿岸开尔文波的下沉运动,导致下沉输送减弱(为 2019 年的三分之一)。同时,由于 2015/2016 年超强厄尔尼诺现象的发展,夏季东南大西洋上层海洋极度变暖。尽管 2015 年的 IOD 强度要弱得多,但这种大幅升温加强了上层海洋分层,导致垂直混合减弱,并将 SCC 降至极低水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Negative Surface Chlorophyll Concentration Anomalies in the Southeast Arabian Sea During Summer in 2015 and 2019

Negative Surface Chlorophyll Concentration Anomalies in the Southeast Arabian Sea During Summer in 2015 and 2019

Satellite observations revealed two extremely low surface chlorophyll concentration (SCC) events with a warm sea surface temperature anomaly in the southeastern Arabian Sea (SEAS, 6°–15°N, 72°–77°E) during the summer (July–August–September) in 2015 and 2019. We find that the physical processes leading to these two similar low SCC events are remarkably different. The low SCC in the SEAS during summer 2019 is mainly related to the weakened upwelling and deepening of the thermocline depth due to the combined effects of the local wind anomalies and the arrival of westward-propagating downwelling coastal Kelvin wave driven by easterly anomalies near the eastern Sri Lanka during an extreme positive Indian Ocean Dipole (IOD) event. In summer 2015, a weaker positive IOD-induced easterly anomalies in the southern Bay of Bengal also drives downwelling coastal Kelvin waves westward, deepening the thermocline in the SEAS. But unlike that in summer 2019, the local wind stress curl anomalies in the SEAS during summer 2015 favors upwelling, which counteracts the downward motion of the coastal Kelvin waves, leading to weaker downward transport (one-third of that in 2019). Meanwhile, the upper ocean layer in the SEAS experiences extreme warming during summer owing to the development of 2015/2016 super El Niño. This substantial warming enhances upper oceanic stratification, which results in weaker vertical mixing and reduces the SCC to an extremely low level despite the much weaker IOD strength in 2015.

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来源期刊
Journal of Geophysical Research-Oceans
Journal of Geophysical Research-Oceans Earth and Planetary Sciences-Oceanography
CiteScore
7.00
自引率
13.90%
发文量
429
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