Global-scale estimation of land surface heat fluxes from space: product assessment and intercomparison
Global-scale estimation of land surface heat fluxes from space: product assessment and intercomparison
Improved representation of the spatial distribution and temporal development of surface latent (λE), sensible (H), and ground heat (G) fluxes is required not only to advance our understanding of important water and energy cycle processes but also to better describe the complex feedback mechanisms and interactions that occur between the land surface and the atmosphere. The latent heat flux provides the critical link between the water and energy cycles within the Earth system. Apart from enabling a description of water vapor exchanges for global water budget estimation, the accurate estimation of latent heat flux across a range of space-and timescales is needed in order to provide independent.
249-282
McCabe, Matthew
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Miralles, Diego
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Jimenez, Carlos
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Ershadi, Ali
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Fisher, Joshua
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Mu, Qiaozhen
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Liang, Miaoling
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Mueller, Brigitte
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Sheffield, Justin
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Seneviratne, Sonia
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Wood, Eric
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1 January 2013
McCabe, Matthew
2756fe3d-e073-45a2-889f-ef34e9cd629c
Miralles, Diego
ce0c5485-e556-4c5b-a8c6-5241b090f307
Jimenez, Carlos
184f0175-f4fc-4eee-adda-b16ad34b254b
Ershadi, Ali
b511247c-c527-4aae-96f9-46e0d0188b76
Fisher, Joshua
38af3111-c41c-49d8-bc1a-190ce2054a6e
Mu, Qiaozhen
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Liang, Miaoling
797ae7aa-b8dd-4eef-9039-83c7fb64f756
Mueller, Brigitte
536eee3f-bbe4-41e5-989b-50886bcb7091
Sheffield, Justin
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Seneviratne, Sonia
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Wood, Eric
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McCabe, Matthew, Miralles, Diego, Jimenez, Carlos, Ershadi, Ali, Fisher, Joshua, Mu, Qiaozhen, Liang, Miaoling, Mueller, Brigitte, Sheffield, Justin, Seneviratne, Sonia and Wood, Eric
(2013)
Global-scale estimation of land surface heat fluxes from space: product assessment and intercomparison.
In,
Remote Sensing of Energy Fluxes and Soil Moisture Content.
1st ed.
CRC Press, .
(doi:10.1201/b15610-15).
Record type:
Book Section
Abstract
Improved representation of the spatial distribution and temporal development of surface latent (λE), sensible (H), and ground heat (G) fluxes is required not only to advance our understanding of important water and energy cycle processes but also to better describe the complex feedback mechanisms and interactions that occur between the land surface and the atmosphere. The latent heat flux provides the critical link between the water and energy cycles within the Earth system. Apart from enabling a description of water vapor exchanges for global water budget estimation, the accurate estimation of latent heat flux across a range of space-and timescales is needed in order to provide independent.
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Published date: 1 January 2013
Additional Information:
Publisher Copyright:
© 2014 by Taylor and Francis Group, LLC.
Identifiers
Local EPrints ID: 480763
URI: http://eprints.soton.ac.uk/id/eprint/480763
PURE UUID: dd4a87cb-c1f4-406c-a9aa-bd63baa404f6
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Date deposited: 09 Aug 2023 17:10
Last modified: 17 Mar 2024 03:40
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Contributors
Author:
Matthew McCabe
Author:
Diego Miralles
Author:
Carlos Jimenez
Author:
Ali Ershadi
Author:
Joshua Fisher
Author:
Qiaozhen Mu
Author:
Miaoling Liang
Author:
Brigitte Mueller
Author:
Sonia Seneviratne
Author:
Eric Wood
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