墨西哥下加利福尼亚州西北部加利福尼亚潜流形成的地下反气旋涡旋

IF 2.7 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
David Rivas , Andrea Mitre-Apaez , Ernesto García-Mendoza
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引用次数: 0

摘要

2017年3月,下加利福尼亚州西北部的水文观测显示,在∼32°N的跨大陆架样带中存在地下反气旋涡旋。这个涡流的宽度约为30公里,位于距冰架约15公里处,深度在100米至400米之间。涡旋核心的水文特征与加利福尼亚潜流(CUC)的特征一致,表明涡旋起源于加利福尼亚潜流(CUC)。数值模拟分析了观测到的涡旋的起源和演变。这些模拟还显示了一个地下涡旋,它穿过跨大陆架样带的位置,其大小、深度和水文特征与观测到的涡旋相似(但形成于2007年11月,在2004-2011年期间的模拟中)。因此,这个数值涡被认为与观测到的涡类似,因此在这两种情况下的生命周期被假设是相同的。涡旋的形成发生在横贯大陆架样带东南约40公里处,在一个以海底点为特征的区域,在那里等深线突然改变方向,涡流能量产生增强,这表明不规则的底部地形是触发这种涡旋形成的一个因素。涡旋形成于沿大陆架速度较弱的时期,在一年中速度最强烈的事件发生后4-10天,与研究区南部偏远地区产生的风力驱动的海岸困波通过有关。这种波浪所造成的水流扰动可能是另一个使水柱易失稳的物理因素。然而,至少在本文分析的情况下,涡旋分离需要邻近的中尺度气旋环流提供额外的动量/涡度输入。数值和室内实验结果的比较支持斜压不稳定过程参与涡旋产生的观点。本文所描述的地下涡旋所遵循的路径显示了下加利福尼亚西北部和南加州湾之间的水文特征的联系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Formation of a subsurface anticyclonic eddy from the California Undercurrent off northwestern Baja California, Mexico

Hydrographic observations off northwestern Baja California in March 2017 revealed the presence of a subsurface anticyclonic eddy in a cross-shelf transect at 32°N. This eddy’s width was roughly 30 km and it was located about 15 km from the shelf, at depths between 100 m and 400 m. The eddy’s core had hydrographic characteristics consistent with those found in the California Undercurrent (CUC), which suggests that the eddy was originated in the CUC. Numerical-modeling simulations were used to elucidate the origin and evolution of the observed eddy. These simulations also showed a subsurface eddy which crossed the cross-shelf transect’s location with size, depth, and hydrographic characteristics similar to those of the observed eddy (but formed in November 2007, in a simulation for the 2004–2011 period). Thus, this numerical eddy is considered as analogous to the observed one, hence the life cycle is assumed to be the same in both cases. The eddy formation occurred roughly 40 km southeast of the cross-shelf transect, in a zone characterized by a submarine point, where the isobaths change their orientation abruptly and where an enhanced eddy-energy production occurs, which shows that the irregular bottom-topography is a factor that triggered such an eddy formation. The eddy formed in a period of weak along-shelf velocities, 4-10 days after an event of the most intense velocities of the year, associated with the passage of a wind-driven coastal trapped wave generated in remote locations south of the study area. The flow disturbances forced by this wave could be an additional physical factor which predisposes the water column to instability. However, at least in the cases herein analyzed, the eddy separation required an additional momentum/vorticity input by an adjacent mesoscale cyclonic gyre. Comparison with numerical and laboratory–experimental results support the notion that a baroclinic instability process is involved in the eddy generation. The path followed by the subsurface eddy described herein shows a link of the hydrographic characteristics between northwestern Baja California and the Southern California Bight.

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来源期刊
Journal of Marine Systems
Journal of Marine Systems 地学-地球科学综合
CiteScore
6.20
自引率
3.60%
发文量
81
审稿时长
6 months
期刊介绍: The Journal of Marine Systems provides a medium for interdisciplinary exchange between physical, chemical and biological oceanographers and marine geologists. The journal welcomes original research papers and review articles. Preference will be given to interdisciplinary approaches to marine systems.
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