Prescriptions for Heat Flux and Entrainment Rates in the Upper Ocean during Convection Academic Article

abstract

• A detailed investigation of the upper ocean during convection reveals the vertical structure of potential temperature, , to be steady in time, and the current shear to vanish in the bulk of the mixed layer. These imply that a "slab'-type model may be an adequate representation of the convective ocean boundary layer (OBL). In contrast, when convection is not the dominant forcing mechanism, the OBL is stratified and can support a significant current shear. This indicates the inadequacy of "slab' models for the nonconvective OBL. Two independent estimates of the vertical heat flux profile in the convective OBL were made. The first estimate results from heat conservation and the steadiness of the vertical structure of potential temperature. The second estimate is based on the turbulent kinetic energy (TKE) balance and the vertical profiles of TKE dissipation rate. The estimates are consistent. An estimate of the entrainment rate, derived from observed quantities, is ~1 10-5 m s-1. -from Authors

authors

• Anis, Ayal

published proceedings

• Journal of Physical Oceanography

author list (cited authors)

• Anis, A., & Moum, J. N.

citation count

• 33

complete list of authors

• Anis, A||Moum, JN

publication date

• October 1994

publisher

• American Meteorological Society  Publisher

published in

• Journal of Physical Oceanography  Journal

keywords

• 37 Earth Sciences
• 3701 Atmospheric Sciences
• 3708 Oceanography

Digital Object Identifier (DOI)

• 10.1175/1520-0485(1994)024<2142:pfhfae>2.0.co;2

start page

• 2142

end page

• 2155

volume

• 24

issue

• 10

URL

• http://dx.doi.org/10.1175/1520-0485(1994)024%3C2142:pfhfae%3E2.0.co;2