Suwen Ye, Zhaoru Zhang, Timo Vihma, Mingshun Jiang, Chuan Xie, Lejiang Yu, Walker O. Smith Jr.
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引用次数: 0
Abstract
The northern Antarctic Peninsula (NAP) region is a highly productive ecosystem that supports a large krill-based food web. In summer 2006, the NAP region had substantially elevated phytoplankton biomass, with surface chlorophyll-a concentrations that reached the greatest level during 2001–2023. Using the long-term in situ data from the U.S. Antarctic Marine Living Resources program, satellite observations, and ERA5 reanalysis products, the mechanisms of the elevated chlorophyll-a anomalies in summer 2006 were analyzed. The results suggest that the position of the Amundsen Sea Low (ASL) shifted considerably westward that summer, resulting in strong positive sea level pressure anomalies west of the NAP, which induced southerly wind anomalies and reduced the advection of moist airflow toward the NAP. This in turn reduced the cloud coverage and increased photosynthetically available radiation over this region, which directly increased the phytoplankton photosynthesis. The intensified radiation also increased the ocean temperature and strengthened stratification, which increased phytoplankton growth rates and allowed phytoplankton to accumulate in the upper euphotic zone. This work underlines the important role of coupled atmospheric-oceanic processes in generating large phytoplankton biomass in the NAP region.
南极半岛北部(NAP)地区是一个高产生态系统,支持着以磷虾为基础的大型食物网。2006 年夏季,NAP 地区浮游植物生物量大幅增加,地表叶绿素-a 浓度达到 2001-2023 年期间的最高水平。利用美国南极海洋生物资源计划的长期现场数据、卫星观测数据和ERA5再分析产品,分析了2006年夏季叶绿素-a异常升高的机理。结果表明,阿蒙森海低点(ASL)的位置在那年夏天大幅西移,导致 NAP 以西出现强烈的正海平面气压异常,从而引起偏南风异常,减少了潮湿气流向 NAP 的平流。这反过来又减少了云层覆盖,增加了该地区的光合辐射,直接提高了浮游植物的光合作用。增强的辐射还提高了海洋温度,加强了分层,从而提高了浮游植物的生长率,并使浮游植物在上极光带聚集。这项研究强调了大气-海洋耦合过程在 NAP 区域产生大量浮游植物生物量方面的重要作用。
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