On The Vertical Structure Of Deep Ocean Subinertial Variability

IF 2.8 2区 地球科学 Q1 OCEANOGRAPHY
John M. Toole, Ruth C. Musgrave, Elizabeth C. Fine, Jacob M. Steinberg, Richard A. Krishfield
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Abstract

Abstract The vertical structure of subinertial variability is examined using full-depth horizontal velocity and vertical isopycnal displacement observations derived from the Ocean Observatory Initiative (OOI). Vertical profiles on time scales between 100 hours and 1 year or longer are characterized through Empirical Orthogonal Function decomposition and qualitatively compared to theoretical modal predictions for the cases of flat, sloping and rough bathymetry. OOI observations were obtained from mooring clusters at four deep-ocean sites: Argentine Basin, Southern Ocean, Station Papa, and Irminger Sea. As no single OOI mooring in these arrays provides temperature, salinity and horizontal velocity information over the full water column, sensor observations from two or more moorings are combined. Depths greater than ~150-300 m were sampled by McLane Moored Profilers; in three of the four cases, two Profilers were utilized on the moorings. Owing to instrument failures on the deployments examined here, only about two years of full-ocean-depth observations are available from three of the four sites and some three+ years from the other. Results from the OOI Global sites are contrasted with a parallel analysis of three and one half years of observations about the axis of the Gulf Stream where much of the subinertial variability is associated with Stream meandering past the moorings. Looking across the observations, no universal vertical structure is found that characterizes the subinertial variability at the five sites examined; regional bathymetry, stratification, baroclinicity, nonlinearity and the forcing (both local and remote) likely all play a role in shaping the vertical structure of the subinertial variability in individual ocean regions.
深海亚惯性变率的垂直结构研究
摘要利用海洋观测计划(OOI)的全深度水平速度和垂直等位位移观测资料,研究了亚惯性变率的垂直结构。通过经验正交函数分解表征了100小时至1年或更长时间尺度上的垂直剖面,并对平坦、倾斜和粗糙水深测量的理论模态预测进行了定性比较。OOI观测数据来自四个深海站点的系泊群:阿根廷盆地、南大洋、帕帕站和伊尔明格海。由于这些阵列中没有单个OOI系泊可以提供整个水柱的温度、盐度和水平速度信息,因此需要将两个或多个系泊的传感器观测结果结合起来。McLane系泊剖面仪对深度大于150-300米的区域进行采样;在四个案例中的三个案例中,在系泊处使用了两台profiler。由于在这里检查的部署中仪器出现故障,四个地点中的三个地点只能进行大约两年的全海洋深度观测,另一个地点则可以进行大约三年以上的观测。OOI全球站点的结果与对墨西哥湾流轴三年半观测的平行分析进行了对比,其中大部分亚惯性变率与墨西哥湾流蜿蜒经过系泊处有关。纵观观测,没有发现普遍的垂直结构,表征亚惯性变化在五个地点检查;区域测深、分层、斜压性、非线性和强迫(局地和远地)都可能在形成单个海洋区域亚惯性变率的垂直结构中发挥作用。
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来源期刊
CiteScore
2.40
自引率
20.00%
发文量
200
审稿时长
4.5 months
期刊介绍: The Journal of Physical Oceanography (JPO) (ISSN: 0022-3670; eISSN: 1520-0485) publishes research related to the physics of the ocean and to processes operating at its boundaries. Observational, theoretical, and modeling studies are all welcome, especially those that focus on elucidating specific physical processes. Papers that investigate interactions with other components of the Earth system (e.g., ocean–atmosphere, physical–biological, and physical–chemical interactions) as well as studies of other fluid systems (e.g., lakes and laboratory tanks) are also invited, as long as their focus is on understanding the ocean or its role in the Earth system.
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