Global Oceanic Mixed Layer Properties

In this dissertation, the global oceanic mixed layer properties are explored in three aspects: variability of the oceanic mixed layer, subseasonal variability of the barrier layer/ compensated layer and comparison of bulk sea surface and mixed layer temperatures. (1) The analysis of variability of t...

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Bibliographic Details
Main Author: Liu, Hailong
Other Authors: Carton, James, Grodsky, Semyon, Digital Repository at the University of Maryland, University of Maryland (College Park, Md.), Marine-Estuarine-Environmental Sciences
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: 2008
Subjects:
Online Access:http://hdl.handle.net/1903/9138
Description
Summary:In this dissertation, the global oceanic mixed layer properties are explored in three aspects: variability of the oceanic mixed layer, subseasonal variability of the barrier layer/ compensated layer and comparison of bulk sea surface and mixed layer temperatures. (1) The analysis of variability of the oceanic mixed layer from 1960-2007 reveals substantial variability in the winter-spring depth of the mixed layer in the subtropics and midlatitudes. In the North Pacific an Empirical Orthogonal Eigenfunction analysis shows a pattern of mixed layer depth variability peaking in the central subtropics. This pattern occurs coincident with intensification of local surface winds and may be responsible for the SST changes associated with the Pacific Decadal Oscillation. In the North Atlantic a pattern of winter-spring mixed layer depth variability occurs that is not so obviously connected to local changes in winds or SST, suggesting that other processes such as advection are more important. Over the 48-year period the winter-spring mixed layers of both basins show deepening trends by 10-100m. (2) The strongest variability of barrier layer/ compensated layer from monthly climatology is found over 100m in the subpolar latitudes of the North Atlantic in winter. Compensated layers in the eastern North Atlantic vary interannually associated with a North Atlantic Oscillation-like pattern of anomalous sea level pressure. In the winter a barrier layer exists in the subpolar North Pacific, while further south along the Kuroshio extension a compensated layer exists, both of which have variability of up to 60m and a significant long-term trend (shrinkage of the barrier layer in the subpolar gyre and growth of the compensated layer to the south) . These changes are also associated with meteorological shifts. (3) Mixed layer temperature (MLTT) and sea surface temperature (SST) are frequently used interchangeably or assumed to be proportional in climate studies. Historical analyses of bulk SST and MLTT from contemporaneous ocean ...