Surface eddy kinetic energy variability of the Western North Atlantic slope sea 1993–2016

IF 2.1 3区 地球科学 Q2 OCEANOGRAPHY Continental Shelf Research Pub Date : 2024-03-15 DOI:10.1016/j.csr.2024.105200
James J. Bisagni , Dujuan Kang , Andrew C. Thomas , Andre Schmidt
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Abstract

The Slope Sea is the dynamic ocean region located between the United States and Canadian northeast continental shelves and the northeastward flowing Gulf Stream (GS) located farther offshore. Here we define it as located between the 200-m isobath and the monthly GS sea surface temperature (SST) front from −75° to −55° E. Monthly mean near-surface eddy kinetic energy (EKE) was computed for the Slope Sea using surface geostrophic current anomalies derived from gridded 1993–2016 Copernicus Marine Environment Monitoring Service (CMEMS) sea height anomalies. Long-term, monthly mean Slope Sea EKE anomalies show a robust seasonal cycle with a winter (February) minimum and summer (June) maximum. This agrees with both seasonally-varying density stratification and dissipation and also the seasonal variation in the formation of GS WCRs within the Slope Sea. The RMS of the Slope Sea EKE seasonal cycle generally increased after 2002 by a factor of up to ∼2 relative to prior years. The seasonal cycle of Slope Sea EKE displayed higher EKE in the vicinity of the New England Seamount Chain (NESC) that extends towards the shelf break front from approximately −67° E to −63° E. Interannual variability of annual mean near-surface EKE from individual digitized GS warm core ring (WCR) observations from a Bedford Institute of Oceanography (BIO) WCR database is highly correlated with Slope Sea EKE. However, interannual variability of annual mean near-surface EKE computed from a census of all newly formed WCRs displayed only a weak correlation. Many of the WCRs from both the BIO and WCR census displayed anomalously low EKE values and were observed within the northern Slope Sea away from the GS. Some were located inshore of the position of the climatological mean shelf break front. WCRs with higher EKE were located throughout the Slope Sea, with higher numbers in the vicinity of the NESC. The many observations of the less energetic features located close to or inshore of the mean shelf break front suggest they are important to cross-shelf fluxes of heat, salt, nutrients, shelf biota. They therefore likely impact the shelf ecosystem, similar to the more energetic and typical WCRs impacting the outer shelf as discussed by earlier workers.

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1993-2016年北大西洋西部斜坡海域表层涡动能变异性
斜坡海是位于美国和加拿大东北大陆架与离岸更远的东北流湾流(GS)之间的动态海洋区域。在这里,我们将其定义为位于 200 米等深线和每月东经-75°至-55°的湾流海面温度(SST)前沿之间。利用 1993-2016 年哥白尼海洋环境监测服务(CMEMS)网格化海高异常得出的表层地转海流异常,计算了斜坡海的月平均近表层涡旋动能(EKE)。长期、月平均斜坡海 EKE 异常值显示出强劲的季节周期,冬季(2 月)最小,夏季(6 月)最大。这与季节性变化的密度分层和消散以及斜坡海内 GS WCR 形成的季节性变化相吻合。2002 年以后,斜坡海 EKE 季节周期的有效值比前几年普遍增大了 2 倍。在新英格兰海山链(NESC)附近,坡海 EKE 的季节周期显示出较高的 EKE,该海山链向东经-67°至东经-63°的大陆架断裂前沿延伸。然而,根据对所有新形成的 WCR 的普查计算出的年平均近表面 EKE 的年际变化仅显示出微弱的相关性。BIO 和 WCR 普查中的许多 WCR 都显示出异常低的 EKE 值,而且是在远离海参崴的北坡海域观测到的。有些位于气候学平均陆架断裂前沿的近岸。EKE 值较高的 WCR 位于整个斜坡海,在 NESC 附近数量较多。在平均陆架断裂前沿附近或近岸观测到的许多能量较低的特征表明,它们对热量、盐分、营养物质和陆架生物群的跨陆架通量非常重要。因此,它们很可能会影响陆架生态系统,类似于早期工作者讨论的影响外陆架的能量较高的典型 WCR。
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来源期刊
Continental Shelf Research
Continental Shelf Research 地学-海洋学
CiteScore
4.30
自引率
4.30%
发文量
136
审稿时长
6.1 months
期刊介绍: Continental Shelf Research publishes articles dealing with the biological, chemical, geological and physical oceanography of the shallow marine environment, from coastal and estuarine waters out to the shelf break. The continental shelf is a critical environment within the land-ocean continuum, and many processes, functions and problems in the continental shelf are driven by terrestrial inputs transported through the rivers and estuaries to the coastal and continental shelf areas. Manuscripts that deal with these topics must make a clear link to the continental shelf. Examples of research areas include: Physical sedimentology and geomorphology Geochemistry of the coastal ocean (inorganic and organic) Marine environment and anthropogenic effects Interaction of physical dynamics with natural and manmade shoreline features Benthic, phytoplankton and zooplankton ecology Coastal water and sediment quality, and ecosystem health Benthic-pelagic coupling (physical and biogeochemical) Interactions between physical dynamics (waves, currents, mixing, etc.) and biogeochemical cycles Estuarine, coastal and shelf sea modelling and process studies.
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