期刊论文

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A study was carried out to parameterize the METRIC (Mapping EvapoTranspiration at high Resolution with Internalized Calibration) model for estimating instantaneous values of albedo (shortwave albedo) (α_i), net radiation (R_ni) and soil heat flux (G_i), sensible (H_i) and latent heat (LE_i) over a drip-irrigated Merlot vineyard (location: 35°25′ LS; 71°32′ LW; 125 m.a.s. (l). The experiment was carried out in a plot of 4.25 ha, processing 15 Landsat images, which were acquired from 2006 to 2009. An automatic weather station was placed inside the experimental plot to measure α_i, R_ni and G_i. In the same tower an Eddy Covariance (EC) system was mounted to measure H_i and LE_i. Specific sub-models to estimate G_i, leaf area index (LAI) and aerodynamic roughness length for momentum transfer (z_om) were calibrated for the Merlot vineyard as an improvement to the original METRIC model. Results indicated that LAI, z_om and G_i were estimated using the calibrated functions with errors of 4%, 2% and 17%, while those were computed using the original functions with errors of 58%, 81%, and 5%, respectively. At the time of satellite overpass, comparisons between measured and estimated values indicated that METRIC overestimated α_i in 21% and R_ni in 11%. Also, METRIC using the calibrated functions overestimated H_i and LE_i with errors of 16% and 17%, respectively while it using the original functions overestimated H_i and LE_i with errors of 13% and 15%, respectively. Finally, LE_i was estimated with root mean square error (RMSE) between 43 and 60 W∙m⁻² and mean absolute error (MAE) between 35 and 48 W∙m⁻² for both calibrated and original functions, respectively. These results suggested that biases observed for instantaneous pixel-by-pixel values of R_ni, G_i and other intermediate components of the algorithm were presumably absorbed into the computation of sensible heat flux as a result of the internal self-calibration of METRIC.

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Remote Sensing
Parameterization of the Satellite-Based Model (METRIC) for the Estimation of Instantaneous Surface Energy Balance Components over a Drip-Irrigated Vineyard

Marcos Carrasco-Benavides⁴ Samuel Ortega-Far໚s¹ Luis Octavio Lagos³ Jan Kleissl² Luis Morales-Salinas⁶ Ayse Kilic⁵ Alfredo R. Huete⁷
[1] Centro de Investigación y Transferencia en Riego y Agroclimatología (CITRA), Universidad de Talca, Talca 3460000, Chile;Department of Mechanical & Aerospace Engineering, University of California, San Diego, CA 92093, USA; E-Mail:;Centro de Recursos Hídricos para la Agricultura y la Minería, Universidad de Concepción, Chillán 3812120, Chile; E-Mail:;Departamento de Ciencias Agrarias, Universidad Católica del Maule, Curicó 3341695, Chile; E-Mail:;School of Natural Resources and Civil Engineering, University of Nebraska-Lincoln, Lincoln, NE 68583, USA; E-Mail:;Laboratory for Research in Environmental Sciences (LARES), Faculty of Agricultural Sciences, University of Chile, Santiago 8820808, Chile; E-Mail:;Departamento de Ciencias Agrarias, Universidad Católica del Maule, Curicó 3341695, Chile; E-Mail
关键词: evapotranspiration; soil heat flux; irrigation strategies; Merlot; albedo; leaf area index;
DOI : 10.3390/rs61111342
来源: mdpi
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