A comparison of SSM/I-derived global marine surface specific humidity datasets
A comparison of SSM/I-derived global marine surface specific humidity datasets
Satellite-based microwave sensors have, since the 1980s, provided a means to retrieve near-surface marine specific humidity (qa), accurate estimation of which is necessary for climate and air–sea interaction applications. Seven satellite measurement-derived monthly mean humidity datasets are compared with one another and with a dataset constructed from in situ measurements. The means, spatial and temporal structures of the datasets are shown to be markedly different, with a range of yearly, global mean qa of ?1?g?kg–1. Comparison of the datasets derived using the same satellite measurements of brightness temperature reveals differences in qa that depend on the source of satellite data; the processing and quality control applied to the data; and the algorithm used to derive qa from the satellite measurements of brightness temperature. Regional differences between satellite-derived qa due to the choice of input data, quality control and retrieval algorithm can all exceed the accuracy requirements for surface flux calculation of ?0.3?g?kg–1 and in some cases can be several g kg–1 in monthly means for some periods and regions.
marine climatology, satellite observations, surface humidity, air–sea interaction, specific humidity, SSM/I
2359-2381
Prytherch, John
4789a761-e6b1-4b87-8032-cb0ee8a0ea73
Kent, Elizabeth C.
ea23f6f0-ccf6-4702-a5c9-184e9c5d4427
Fangohr, Susanne
19f2a5e8-f9e6-4cb2-a107-dcb021094cb1
Berry, David I.
55ffc590-f459-49c8-aecf-842d65aeb0fb
July 2015
Prytherch, John
4789a761-e6b1-4b87-8032-cb0ee8a0ea73
Kent, Elizabeth C.
ea23f6f0-ccf6-4702-a5c9-184e9c5d4427
Fangohr, Susanne
19f2a5e8-f9e6-4cb2-a107-dcb021094cb1
Berry, David I.
55ffc590-f459-49c8-aecf-842d65aeb0fb
Prytherch, John, Kent, Elizabeth C., Fangohr, Susanne and Berry, David I.
(2015)
A comparison of SSM/I-derived global marine surface specific humidity datasets.
International Journal of Climatology, 35 (9), .
(doi:10.1002/joc.4150).
Abstract
Satellite-based microwave sensors have, since the 1980s, provided a means to retrieve near-surface marine specific humidity (qa), accurate estimation of which is necessary for climate and air–sea interaction applications. Seven satellite measurement-derived monthly mean humidity datasets are compared with one another and with a dataset constructed from in situ measurements. The means, spatial and temporal structures of the datasets are shown to be markedly different, with a range of yearly, global mean qa of ?1?g?kg–1. Comparison of the datasets derived using the same satellite measurements of brightness temperature reveals differences in qa that depend on the source of satellite data; the processing and quality control applied to the data; and the algorithm used to derive qa from the satellite measurements of brightness temperature. Regional differences between satellite-derived qa due to the choice of input data, quality control and retrieval algorithm can all exceed the accuracy requirements for surface flux calculation of ?0.3?g?kg–1 and in some cases can be several g kg–1 in monthly means for some periods and regions.
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joc4150.pdf
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More information
Accepted/In Press date: August 2014
e-pub ahead of print date: September 2014
Published date: July 2015
Keywords:
marine climatology, satellite observations, surface humidity, air–sea interaction, specific humidity, SSM/I
Organisations:
Physical Oceanography, Marine Physics and Ocean Climate
Identifiers
Local EPrints ID: 368259
URI: http://eprints.soton.ac.uk/id/eprint/368259
PURE UUID: f7bc8a80-a205-4dfb-9ecd-6b09154f89f3
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Date deposited: 22 Aug 2014 09:17
Last modified: 14 Mar 2024 17:44
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Contributors
Author:
John Prytherch
Author:
Elizabeth C. Kent
Author:
Susanne Fangohr
Author:
David I. Berry
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