%D 2019
%I ELSEVIER SCIENCE BV
%L discovery10066675
%T Evaluation of regional estimates of winter wheat yield by assimilating three remotely sensed reflectance datasets into the coupled WOFOST-PROSAIL model
%O This version is the author accepted manuscript. For information on re-use, please refer to the publisherâ€™s terms and conditions.
%P 1-13
%V 102
%A J Huang
%A H Ma
%A F Sedano
%A P Lewis
%A S Liang
%A Q Wu
%A W Su
%A X Zhang
%A D Zhu
%K WOFOST, PROSAIL, Canopy reflectance, Data assimilation, Winter wheat yield estimation
%X To estimate regional-scale winter wheat (Triticum aestivum) yield, we developed a data-assimilation scheme that assimilates remotely sensed reflectance into a coupled crop growthâ€“radiative transfer model. We generated a time series of 8-day, 30-m-resolution synthetic Kalman Smoothed reflectance by combining MODIS surface reflectance products with Landsat surface reflectance using a KS algorithm. We evaluated the assimilation performance using datasets with different spatial and temporal scales (e.g., three dates for the 30-m Landsat reflectance, 8-day and 1-km MODIS surface reflectance, and 8-day and 30-m synthetic KS reflectance) into the coupled WOFOSTâ€“PROSAIL model. Then we constructed a four-dimensional variational data assimilation (4DVar) cost function to account for differences between the observed and simulated reflectance. We used the shuffled complex evolutionâ€“University of Arizona (SCE-UA) algorithm to minimize the 4DVar cost function and optimize important input parameters of the coupled model. The optimized parameters were used to drive WOFOST and estimate county-level winter wheat yield in a region of China. By assimilating the synthetic KS reflectance data, we achieved the most accurate yield estimates (R2â€‰=â€‰0.44, 0.39, and 0.30; RMSEâ€‰=â€‰598, 1288, and 595â€‰kg/ha for 2009, 2013, and 2014, respectively), followed by Landsat reflectance (R2â€‰=â€‰0.21, 0.22, and 0.33; RMSEâ€‰=â€‰915, 1422, and 637â€‰kg/ha for 2009, 2013, and 2014, respectively) and MODIS reflectance (R2â€‰=â€‰0.49, 0.05, and 0.22; RMSEâ€‰=â€‰1136, 1468, and 700â€‰kg/ha for 2009, 2013, and 2014, respectively) at the county level. Thus, our method improves the reliability of regional-scale crop yield estimates.
%J European Journal of Agronomy