The effects on ocean models of relaxation toward observations at the surface
The effects on ocean models of relaxation toward observations at the surface
This paper discusses the errors in surface tracer and flux fields in ocean models induced by using approximate surface boundary conditions involving relaxation toward observed values rather than more physically realistic conditions that involve (often inaccurate) surface fluxes. The authors show theoretically and with a global model example that where there is a net annual surface flux of tracer (balanced by advection), (i) the annual mean surface tracer field is biased compared with the observations and (ii) the annual mean tracer flux is also biased if the surface tracer field has a feedback on the surface tracer advection or diffusion. As previously shown, the amplitude of the annual cycle of tracers is also decreased. The global model indicates that temperature offsets of 1°–2°C (or even greater) and heat flux errors of 30 W m?2 occur in regions of strong advection, such as the equatorial upwelling zone, western boundary currents, and the Antarctic Circumpolar Current. These are all areas crucial for the thermohaline circulation, so that the use of such boundary conditions is likely to yield incorrect estimates for climate simulation models. Zonally integrated meridional heat fluxes may be in error by up to 25%.
WOCE, OCEAN MODELS, TRACERS, OCEAN CIRCULATION, TEMPERATURE, SALINITY, BOUNDARY CONDITIONS
160-174
Killworth, P.D.
9fc0c4a0-e1fb-4073-8997-436b59c74bf2
Smeed, D.A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Nurser, A.J.G.
2493ef9a-21e9-4d8b-9c32-08677e7e145a
2000
Killworth, P.D.
9fc0c4a0-e1fb-4073-8997-436b59c74bf2
Smeed, D.A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Nurser, A.J.G.
2493ef9a-21e9-4d8b-9c32-08677e7e145a
Abstract
This paper discusses the errors in surface tracer and flux fields in ocean models induced by using approximate surface boundary conditions involving relaxation toward observed values rather than more physically realistic conditions that involve (often inaccurate) surface fluxes. The authors show theoretically and with a global model example that where there is a net annual surface flux of tracer (balanced by advection), (i) the annual mean surface tracer field is biased compared with the observations and (ii) the annual mean tracer flux is also biased if the surface tracer field has a feedback on the surface tracer advection or diffusion. As previously shown, the amplitude of the annual cycle of tracers is also decreased. The global model indicates that temperature offsets of 1°–2°C (or even greater) and heat flux errors of 30 W m?2 occur in regions of strong advection, such as the equatorial upwelling zone, western boundary currents, and the Antarctic Circumpolar Current. These are all areas crucial for the thermohaline circulation, so that the use of such boundary conditions is likely to yield incorrect estimates for climate simulation models. Zonally integrated meridional heat fluxes may be in error by up to 25%.
This record has no associated files available for download.
More information
Published date: 2000
Keywords:
WOCE, OCEAN MODELS, TRACERS, OCEAN CIRCULATION, TEMPERATURE, SALINITY, BOUNDARY CONDITIONS
Identifiers
Local EPrints ID: 8750
URI: http://eprints.soton.ac.uk/id/eprint/8750
ISSN: 0022-3670
PURE UUID: 3adbb05f-82ed-41e1-8343-516b78e8f4c7
Catalogue record
Date deposited: 25 Aug 2004
Last modified: 15 Mar 2024 04:52
Export record
Altmetrics
Contributors
Author:
P.D. Killworth
Author:
D.A. Smeed
Author:
A.J.G. Nurser
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics