Title :
Objective determination of global ocean surface mixed layer depth
Author :
Chu, Peter C. ; Chenwu Fan
Abstract :
Upper oceans are characterized by the existence of vertically quasi-uniform layer of temperature (T, isothermal layer) and density (ρ, mixed layer). The thickness of the mixed layer determines the heat content and mechanical inertia of the layer that directly interacts with the atmosphere. Objective and accurate determination of the mixed layer depth is crucial in ocean dynamics and climate change. This paper describes recently developed optimal linear fitting, maximum angle, and relative gradient methods to determine mixed layer depth from profile data. Profiles from the Global Temperature and Salinity Profile Program (GTSPP) during 1990-2010 are used to demonstrate the capability of these objective methods and to build up global mixed (isothermal) layer depth datasets. Application of the data in climate study is also discussed.
Keywords :
gradient methods; ocean temperature; oceanographic regions; oceanographic techniques; AD 1990 to 2010; Global Temperature and Salinity Profile Program; barrier layer; compensated layer; curvature criterion; global ocean surface mixed layer depth; heat content; isothermal depth; maximum angle method; ocean density; ocean temperature; optimal linear fitting method; relative gradient method; upper oceans; Fitting; High definition video; Indexes; Isothermal processes; Ocean temperature; Smoothing methods; GTSPP; Mixed layer depth; barrier layer; compensated layer; curvature criterion; difference criterion; global isothermal layer depth; global mixed layer depth; gradient criterion; isothermal depth; maximum angle method; optimal linear fitting method; relative gradient method;
Conference_Titel :
OCEANS 2010
Conference_Location :
Seattle, WA
Print_ISBN :
978-1-4244-4332-1
DOI :
10.1109/OCEANS.2010.5663915
