Evaluation and improvement of the MODIS land surface temperature/emissivity products using ground-based measurements at a semi-desert site on the western Tibetan Plateau
Evaluation and improvement of the MODIS land surface temperature/emissivity products using ground-based measurements at a semi-desert site on the western Tibetan Plateau
Current MODerate-resolution Imaging Spectroradiometer (MODIS) land surface temperature (LST, surface skin temperature)/emissivity products are evaluated and improvements are investigated. The ground-based measurements of LST at Gaize (32.30° N, 84.06° E, 4420 m) on the western Tibetan Plateau from January 2001 to December 2002 agree well (mean and standard deviation of differences of 0.27 K and 0.84 K) with the 1-km Version 004 (V4) Terra MODIS LST product (MOD11A1) generated by the split-window algorithm. Spectral emissivities measured from surface soil samples collected at and around the Gaize site are in close agreement with the landcover-based emissivities in bands 31 and 32 used by the split-window algorithm. The LSTs in the V4 MODIS LST/emissivity products (MYD11B1 for Aqua and MOD11B1 for Terra) from the day/night LST algorithm are higher by 1-1.7 K (standard deviation around 0.6 K) in comparisons to the 5-km grid aggregated values of the LSTs in the 1-km products, which is consistent with the results of a comparison of emissivities. On average, the emissivity in MYD11B1 (MOD11B1) is 0.0107 (0.0167) less than the ground-based measurements, which is equivalent to a 0.64 K (1.25 K) overestimation of LST around the average value of 285 K. Knowledge obtained from the evaluation of MODIS LST/emissivity retrievals provides useful information for the improvement of the MODIS LST day/night algorithm. Improved performance of the refined (V5) day/night algorithm was demonstrated with the Terra MODIS data in May-June 2004.
2549-2565
Wang, K.
2b399d1b-c3f1-4863-b78b-dd9135ef7532
Wan, Z.
6c4176a3-5484-4ad1-9e41-fb11164c1bfe
Wang, P.
df957848-e6e4-45f0-ba01-2d966a30aa67
Sparrow, M.
0a312725-a227-4199-8852-baf7a0869768
Liu, J.
516e902e-000e-4f9c-b9bc-bac18b1f5ade
Haginoya, S.
a17c56d8-7026-469c-8323-c9a683e70bf7
2007
Wang, K.
2b399d1b-c3f1-4863-b78b-dd9135ef7532
Wan, Z.
6c4176a3-5484-4ad1-9e41-fb11164c1bfe
Wang, P.
df957848-e6e4-45f0-ba01-2d966a30aa67
Sparrow, M.
0a312725-a227-4199-8852-baf7a0869768
Liu, J.
516e902e-000e-4f9c-b9bc-bac18b1f5ade
Haginoya, S.
a17c56d8-7026-469c-8323-c9a683e70bf7
Wang, K., Wan, Z., Wang, P., Sparrow, M., Liu, J. and Haginoya, S.
(2007)
Evaluation and improvement of the MODIS land surface temperature/emissivity products using ground-based measurements at a semi-desert site on the western Tibetan Plateau.
International Journal of Remote Sensing, 28 (11), .
(doi:10.1080/01431160600702665).
Abstract
Current MODerate-resolution Imaging Spectroradiometer (MODIS) land surface temperature (LST, surface skin temperature)/emissivity products are evaluated and improvements are investigated. The ground-based measurements of LST at Gaize (32.30° N, 84.06° E, 4420 m) on the western Tibetan Plateau from January 2001 to December 2002 agree well (mean and standard deviation of differences of 0.27 K and 0.84 K) with the 1-km Version 004 (V4) Terra MODIS LST product (MOD11A1) generated by the split-window algorithm. Spectral emissivities measured from surface soil samples collected at and around the Gaize site are in close agreement with the landcover-based emissivities in bands 31 and 32 used by the split-window algorithm. The LSTs in the V4 MODIS LST/emissivity products (MYD11B1 for Aqua and MOD11B1 for Terra) from the day/night LST algorithm are higher by 1-1.7 K (standard deviation around 0.6 K) in comparisons to the 5-km grid aggregated values of the LSTs in the 1-km products, which is consistent with the results of a comparison of emissivities. On average, the emissivity in MYD11B1 (MOD11B1) is 0.0107 (0.0167) less than the ground-based measurements, which is equivalent to a 0.64 K (1.25 K) overestimation of LST around the average value of 285 K. Knowledge obtained from the evaluation of MODIS LST/emissivity retrievals provides useful information for the improvement of the MODIS LST day/night algorithm. Improved performance of the refined (V5) day/night algorithm was demonstrated with the Terra MODIS data in May-June 2004.
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Published date: 2007
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Local EPrints ID: 49896
URI: http://eprints.soton.ac.uk/id/eprint/49896
ISSN: 0143-1161
PURE UUID: 8b02066e-4094-4dff-93b5-2ec3fd02fded
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Date deposited: 11 Dec 2007
Last modified: 15 Mar 2024 10:00
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Author:
K. Wang
Author:
Z. Wan
Author:
P. Wang
Author:
M. Sparrow
Author:
J. Liu
Author:
S. Haginoya
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