北冰洋的内波和混合

Deep-sea research. Part A, Oceanographic research papers Pub Date : 1992-09-01 DOI:10.1016/S0198-0149(06)80016-6

Eric A. D'Asaro , James H. Morison

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引用次数: 112

摘要

利用速度剖面仪和来自Fram海峡和Nansen盆地的CTD资料，探讨了北冰洋东部内波切变水平的变化。深海平原上的剪切水平始终较低，而在崎岖地形上则较高。将GREGG (1989, Journal Geophysical Research, 94, 9686-9698)的参数化方法应用到这些数据中，可以得到大约10-6到10-4 m s-2以上的典型扩散系数。将这些扩散系数外推到整个北极盆地表明，内波混合可能在将热量从温暖的中间水输送到地表方面发挥重要作用。正压潮在粗糙地形上产生的内波可以解释那里较高的切变水平。

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Internal waves and mixing in the Arctic Ocean

The variability of internal wave shear levels in the eastern Arctic Ocean is explored using velocity profiler and CTD data from Fram Strait and the Nansen Basin. Shear levels are consistently low over the abyssal plains and higher over rougher topography. Applying the parameterization of GREGG (1989, Journal of Geophysical Research, 94, 9686-9698) to these data gives diapycnal diffusivities that vary from about 10^-6 to above 10^-4 m s^-2. Extrapolating these diffusivities to the entire Arctic Basin suggests that internal wave mixing could play a major role in transporting heat from the warm intermediate water to the surface. Internal wave generation by the barotropic tide on rough topography may explain the higher shear levels found there.

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Deep-sea research. Part A, Oceanographic research papers

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