A switch in thermal and haline contributions to stratification in the Greenland Sea during the last four decades

IF 3.8 3区 地球科学 Q1 OCEANOGRAPHY
Caroline V.B. Gjelstrup, Colin A. Stedmon
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Abstract

Stratification and its thermal and haline contributions are important ocean properties of fundamental climatic influence. Upper-ocean stratification shapes marine ecosystems by regulating nutrient availability and deep-ocean stratification is important for carbon sequestration and ventilating the ocean interior. Here, we first assess the applicability of an ocean reanalysis product in representing stratification in the Nordic Seas and East Greenland Shelf. While the reanalysis performs well in most interior basins, it exhibits significant shortcomings on the East Greenland shelf, raising concerns about the reanalysis product in these areas. We then examine the development in the thermal and haline contributions to summer upper- (100 m) and winter intermediate- (1000 m) ocean stratification in the Greenland Sea from 1980 to 2020. We find that there has been a transition in the controls of winter stratification in the upper 1000 m of the Greenland Sea. The transition was associated with a westward migration of the boundary between salinity- and temperature-stratified waters and eventual switch from haline to thermal control of winter stratification. With that follows a change in the type of forcing that can lead to convection: The Greenland Sea is now less dependent on eroding salinity gradients but rather depends on cooling to overcome stratification. There has been a similar switch in summer stratification in the upper-ocean of the Greenland Sea where surface waters shifted from variable stratification, alternating between salinity and temperature dominance, to a stable temperature-stratified regime. This switch coincided with declining sea-ice concentrations related to the disappearance of the Odden ice tongue after 1997. The high sea-ice conditions previously characteristic of the Greenland Sea are now rare suggesting the transition will persist with potential implications for marine ecology and local sea-ice formation. Our findings reveal differences in how thermal and haline stratification has developed over the last 40 years, which may help explain or predict plankton production and carbon uptake and export.

过去 40 年间热量和卤素对格陵兰海分层作用的变化
分层及其热效应和卤化效应是对气候具有根本影响的重要海洋特性。上层海洋分层通过调节营养物质的供应塑造海洋生态系统,而深层海洋分层则对碳封存和海洋内部通风非常重要。在这里,我们首先评估了海洋再分析产品在表示北欧海洋和东格陵兰大陆架分层方面的适用性。虽然再分析结果在大多数内陆盆地表现良好,但在东格陵兰陆架表现出明显的缺陷,引起了人们对这些地区再分析产品的关注。然后,我们研究了 1980 年至 2020 年格陵兰海夏季上层(100 米)和冬季中层(1000 米)海洋分层的热贡献和卤化贡献的发展情况。我们发现,格陵兰海上部 1000 米冬季分层的控制发生了转变。这种转变与盐度分层水域和温度分层水域之间的边界西移以及冬季分层最终从卤素控制转变为热控制有关。随之而来的是可导致对流的强迫类型发生变化:格陵兰海现在不再依赖于盐度梯度的侵蚀,而是依赖于冷却来克服分层。格陵兰海上层海洋的夏季分层也发生了类似的变化,表层水从盐度和温度交替主导的多变分层,转变为稳定的温度分层机制。这一转变与 1997 年后奥登冰舌消失导致的海冰浓度下降相吻合。格陵兰海以前特有的高海冰条件现在已经很少见了,这表明这种转变将持续下去,并对海洋生态学和当地海冰的形成产生潜在影响。我们的研究结果揭示了过去 40 年中热分层和卤分层发展的差异,这可能有助于解释或预测浮游生物的生产以及碳的吸收和输出。
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来源期刊
Progress in Oceanography
Progress in Oceanography 地学-海洋学
CiteScore
7.20
自引率
4.90%
发文量
138
审稿时长
3 months
期刊介绍: Progress in Oceanography publishes the longer, more comprehensive papers that most oceanographers feel are necessary, on occasion, to do justice to their work. Contributions are generally either a review of an aspect of oceanography or a treatise on an expanding oceanographic subject. The articles cover the entire spectrum of disciplines within the science of oceanography. Occasionally volumes are devoted to collections of papers and conference proceedings of exceptional interest. Essential reading for all oceanographers.
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