Interannual to decadal sea level variability in the subpolar North Atlantic: the role of propagating signals

IF 4.1 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Ocean Science Pub Date : 2022-12-15 DOI:10.5194/os-18-1741-2022
D. Volkov, C. Schmid, Leah N. Chomiak, C. Germineaud, Shenfu Dong, Marlos Goes
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引用次数: 4

Abstract

Abstract. The gyre-scale, dynamic sea surface height (SSH) variability signifies the spatial redistribution of heat and freshwater in the ocean, influencing the ocean circulation, weather, climate, sea level, and ecosystems. It is known that the first empirical orthogonal function (EOF) mode of the interannual SSH variability in the North Atlantic exhibits a tripole gyre pattern, with the subtropical gyre varying out of phase with both the subpolar gyre and the tropics, influenced by the low-frequency North Atlantic Oscillation. Here, we show that the first EOF mode explains the majority (60 %–90 %) of the interannual SSH variance in the Labrador and Irminger Sea, whereas the second EOF mode is more influential in the northeastern part of the subpolar North Atlantic (SPNA), explaining up to 60 %–80 % of the regional interannual SSH variability. We find that the two leading modes do not represent physically independent phenomena. On the contrary, they evolve as a quadrature pair associated with a propagation of SSH anomalies from the eastern to the western SPNA. This is confirmed by the complex EOF analysis, which can detect propagating (as opposed to stationary) signals. The analysis shows that it takes about 2 years for sea level signals to propagate from the Iceland Basin to the Labrador Sea, and it takes 7–10 years for the entire cycle of the North Atlantic SSH tripole to complete. The observed westward propagation of SSH anomalies is linked to shifting wind forcing patterns and to the cyclonic pattern of the mean ocean circulation in the SPNA. The analysis of regional surface buoyancy fluxes in combination with the upper-ocean temperature and salinity changes suggests a time-dependent dominance of either air–sea heat fluxes or advection in driving the observed SSH tendencies, while the contribution of surface freshwater fluxes (precipitation and evaporation) is negligible. We demonstrate that the most recent cooling and freshening observed in the SPNA since about 2010 were mostly driven by advection associated with the North Atlantic Current. The results of this study indicate that signal propagation is an important component of the North Atlantic SSH tripole, as it applies to the SPNA.
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北大西洋次极海平面年际至年代际变化:传播信号的作用
摘要环流尺度的动态海面高度(SSH)变化标志着海洋中热量和淡水的空间再分配,影响着海洋环流、天气、气候、海平面和生态系统。已知北大西洋海温年际变化的第一经验正交函数(EOF)模态表现为磁极环流型,受低频北大西洋涛动的影响,副热带环流与亚极环流和热带都发生非相位变化。在这里,我们发现第一种EOF模式解释了拉布拉多海和明格尔海大部分(60% - 90%)的年际海平面变化,而第二种EOF模式在北大西洋亚极地东北部(SPNA)的影响更大,解释了高达60% - 80%的区域年际海平面变化。我们发现这两个主导模式并不代表物理上独立的现象。相反,它们演变成一个正交对,与从东到西的超短波异常传播有关。复杂的EOF分析证实了这一点,它可以检测到传播(相对于平稳)信号。分析表明,海平面信号从冰岛海盆传播到拉布拉多海需要2年左右的时间,整个北大西洋海温三极环流周期需要7-10年。观测到的海面高度异常向西传播与风强迫型的移动和太平洋地区平均海洋环流的气旋型有关。对区域表面浮力通量结合上层海洋温度和盐度变化的分析表明,海气热通量或平流在驱动观测到的海平面上升趋势方面具有时间依赖性,而地表淡水通量(降水和蒸发)的贡献可以忽略不计。我们证明,自2010年以来,在大西洋观测到的最近一次降温和降温主要是由与北大西洋流相关的平流驱动的。研究结果表明,信号传播是北大西洋SSH三极子的重要组成部分,它适用于SPNA。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Ocean Science
Ocean Science 地学-海洋学
CiteScore
5.90
自引率
6.20%
发文量
78
审稿时长
6-12 weeks
期刊介绍: Ocean Science (OS) is a not-for-profit international open-access scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on all aspects of ocean science: experimental, theoretical, and laboratory. The primary objective is to publish a very high-quality scientific journal with free Internet-based access for researchers and other interested people throughout the world. Electronic submission of articles is used to keep publication costs to a minimum. The costs will be covered by a moderate per-page charge paid by the authors. The peer-review process also makes use of the Internet. It includes an 8-week online discussion period with the original submitted manuscript and all comments. If accepted, the final revised paper will be published online. Ocean Science covers the following fields: ocean physics (i.e. ocean structure, circulation, tides, and internal waves); ocean chemistry; biological oceanography; air–sea interactions; ocean models – physical, chemical, biological, and biochemical; coastal and shelf edge processes; paleooceanography.
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