Y. Ma, S. Wang, and L. Zhang, Study on improvement of WOFOST against overwinter of wheat in North China, Chinese Journal of Agrometeorology, vol.26, issue.3, pp.145-149, 2005.

I. Supit, A. A. Hooijper, and C. A. Van-diepen, System Description of WOFOST6.0 Crop Simulation Model Implemented in CGMS[M], Theory and algorithms. Wagenningen, Netherlands: The Winand Starting Center for Intergrated Land, Soil and Water Research(SC-DLO), pp.1-144, 1994.

D. Wu and Y. Ou, Xiaomin Zhao et al.The applicability research of WOFOST model in North China plain, Acta Phytoecologica Sinica, issue.5, pp.594-602, 200327.

X. Wenxia, Y. Lijiao, and W. Guanghuo, Simuation and validation of rice potential growth process in Zhejiang by utilizing WOFOST model, Chinese Journal of Rice Science, vol.20, issue.3, pp.319-323, 2006.

Z. Chen, J. Zhang, and C. Wang, Application of WOFOST model in simulation of integrated impacts of low temperature and drought on maize yield, Chinese Journal of Agrometeorology, vol.28, issue.4, pp.440-442, 2007.

Y. Ma, S. Wang, and L. Zhang, A preliminary study on a regional growth simulation model of winter wheat in North China based on scaling-up approach ? potential production level, Acta Agronomica Sinica, issue.6, pp.31697-705, 2005.

X. Li and S. Ma, Lijuan Gong et al. Evaluation of meteorological suitability degree during maize growth period based on WOFOST in Northeast China, J]. Chinese Journal of Agrometeorology, issue.1, pp.2013-2047

X. Li, Y. Wang, and S. Ji, Validation of crop growth monitoring system(CGMS) in Heilongjiang province, Chinese Journal of Agrometeorology, issue.3, pp.26155-157, 2005.

Y. Gao, J. Na, and H. Gu, Characteristics and compartment of potential climatic productivity of potato(Solanum tuberosum L.) in Heilongjiang province, Chinese Journal of Agrometeorology, issue.3, pp.28275-280, 2007.

Y. Gao, R. Nan, and H. Gu, Simulation of beta vulgaris climatic productivity and its planting climatic zoning in Heilongjiang Province, Chinese Journal of Ecology, issue.1, pp.27-31, 200928.

C. Du, J. Li, and C. Wang, Study on dynamic yield forecasting of rice based on WOFOST model in Heilongjiang province, Journal of Anhui Agri Sci, pp.2011-2050

J. Huang, S. Wu, and X. Liu, Regional winter wheat yield forecasting based on assimilation of remote sensing data and crop growth model with Ensemble Kalman method, Transactions of the Chinese Society of Agricultural Engineering?Transactions of the CASE?, pp.142-148

W. Zhang, Y. Wu, and Y. Yang, Analysis of interactive relationship among yield combinational factors of winter wheat, Journal of Henan Vocation-Technical Teachers College, pp.20-23, 1992.

X. Zhu, K. Xie, and X. Xu, The structure analysis of winter wheat yield and the principal of remote sensing estimation of winter wheat yield[J].Remote Sensing of Environment China, pp.116-127, 1989.

H. L. Boogaard, D. Wit, A. Te-roller, and J. A. , User's Guide for the WOFOST Control Center 1.8 and WOFOST 7.1.3 Crop Growth Simulation Model, wofost.wur.nl 16. China Meteorological Data Sharing Service System, 2011.

L. Luo, X. Wang, and P. Yu, The compare and research of the calculate formula of the saturation water steam pressure, Hydrological and Marine Instruments, pp.2003-2007

F. Cao and S. Shen, Estimation daily solar radiation in China, Journal of Nanjing Institute of Meteorology, issue.4, pp.31587-591, 2008.

F. Cao, Study on Earth Surface Total Solar Radiation in China in Recent 40 Years and Daily Solar Radiation Model, Nanjing: Nanjing Institute of Meteorology, 2008.

H. Wei, Z. Zhang, and J. Yang, Establishing method for soil database of SWAT model, pp.15-18, 2008.

H. Zhao, Z. Pei, and S. Ma, Retrieving LAI by assimilating time series HJ CCD with WOFOST[J].Transactions of the Chinese Society of Agricultural of Engineering (Transaction of CASE), pp.28158-163

S. Wu, Study on Winter Wheat Yield Prediction Based on Assimilating Remote Sensing Data and Crop Growth Model, 2012.