A new formula for determining the atmospheric longwave flux at the ocean surface at mid-high latitudes
A new formula for determining the atmospheric longwave flux at the ocean surface at mid-high latitudes
[1] The accuracy of two empirical formulae used in recent climatological studies to estimate the atmospheric longwave flux at the ocean surface from ship meteorological reports has been evaluated using research cruise measurements from the northeast Atlantic. The measurements were obtained with a pyrgeometer and corrected for differential heating of the pyrgeometer dome and shortwave transmission through the dome. The formulae tested were from Clark et al. [1974] and Bignami et al. [1995]; neither was capable of providing consistently reliable estimates of the longwave flux. Clark overestimated the mean measured longwave of 341.1 Wm(-2) by 11.7 Wm(-2), while Bignami underestimated by 12.1 Wm(-2). A new formula is developed that expresses the effects of cloud cover and other parameters on the longwave through an adjustment to the measured air temperature. The air temperature is adjusted by the amount necessary to obtain the effective temperature of a blackbody with a radiative flux equivalent to that from the atmosphere. A simple parameterization of the adjustment in terms of the total cloud amount gives longwave estimates that have an improved mean bias error with respect to the measurements of -1.3 Wm(-2). The new formula is still biased under overcast, low cloud base conditions. However, by including a dependence on dew point depression in the formula, this bias is resolved, and the mean error reduced to 0.2 Wm(- 2). The new formula has been tested using measurements made on two subsequent cruises and found to agree to within 2 Wm(-2) in the mean at middle-high latitudes
03108-[16pp]
Josey, S.A.
2252ab7f-5cd2-49fd-a951-aece44553d93
Pascal, R.W.
3b2e2a38-334f-430f-b110-253a0a835a07
Taylor, P.K.
3ef27388-c14e-4f4b-85fc-97bb17d089d2
April 2003
Josey, S.A.
2252ab7f-5cd2-49fd-a951-aece44553d93
Pascal, R.W.
3b2e2a38-334f-430f-b110-253a0a835a07
Taylor, P.K.
3ef27388-c14e-4f4b-85fc-97bb17d089d2
Josey, S.A., Pascal, R.W. and Taylor, P.K.
(2003)
A new formula for determining the atmospheric longwave flux at the ocean surface at mid-high latitudes.
Journal of Geophysical Research, 108 (C4), .
(doi:10.1029/2002JC001418).
Abstract
[1] The accuracy of two empirical formulae used in recent climatological studies to estimate the atmospheric longwave flux at the ocean surface from ship meteorological reports has been evaluated using research cruise measurements from the northeast Atlantic. The measurements were obtained with a pyrgeometer and corrected for differential heating of the pyrgeometer dome and shortwave transmission through the dome. The formulae tested were from Clark et al. [1974] and Bignami et al. [1995]; neither was capable of providing consistently reliable estimates of the longwave flux. Clark overestimated the mean measured longwave of 341.1 Wm(-2) by 11.7 Wm(-2), while Bignami underestimated by 12.1 Wm(-2). A new formula is developed that expresses the effects of cloud cover and other parameters on the longwave through an adjustment to the measured air temperature. The air temperature is adjusted by the amount necessary to obtain the effective temperature of a blackbody with a radiative flux equivalent to that from the atmosphere. A simple parameterization of the adjustment in terms of the total cloud amount gives longwave estimates that have an improved mean bias error with respect to the measurements of -1.3 Wm(-2). The new formula is still biased under overcast, low cloud base conditions. However, by including a dependence on dew point depression in the formula, this bias is resolved, and the mean error reduced to 0.2 Wm(- 2). The new formula has been tested using measurements made on two subsequent cruises and found to agree to within 2 Wm(-2) in the mean at middle-high latitudes
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Published date: April 2003
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Local EPrints ID: 1335
URI: http://eprints.soton.ac.uk/id/eprint/1335
ISSN: 0148-0227
PURE UUID: 9e06806c-f3f2-4f2b-835e-8d9fb7fafb98
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Date deposited: 16 Apr 2004
Last modified: 15 Mar 2024 04:43
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Author:
S.A. Josey
Author:
R.W. Pascal
Author:
P.K. Taylor
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