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Hou, P., Liu, Y., Liu, W., Li, S. et al., 2020. How to increase maize production without extra nitrogen input.Resources, Conservation & Recycling. Accepted
Liu, G, Yang Y, Liu W, Guo X, Xue J, Xie R, Ming B, Wang K, Hou P*, Li S. 2020. Leaf Removal Affects Maize Morphology and Grain Yield[J]. Agronomy, 10(2): 269.
Liu, G., Hou, P.*, Xie, R., Ming, B., Wang, K., Liu, W., Yang, Y., Xu, W., Chen, J., Li, S.*, 2019. Nitrogen Uptake and Response to Radiation Distribution in the Canopy of High-Yield Maize. Crop Science, 59, 1236-1247
Yang, Y., Xu, W., Hou, P.*, Liu, G., Liu, W., Wang, Y., Zhao, R., Ming, B., Xie, R., Wang, K., Li, S.*, 2019. Improving maize grain yield by matching maize growth and solar radiation. SCI REP-UK, 9, 3635.
Liu, G., Hou, P.*, Xie, R., ,Ming, B., Wang, K., Xu, W., Liu, W., Yang, Y., Li, S.* 2017. Canopy characteristics of high-yield maize with yield potential of 22.5 Mg ha −1. Field Crops Research, 213, 221-230.
Xu, W., Liu, C., Wang, K., Xie, R., Ming, B., Wang, Y., Zhang, G., Liu, G., Zhao, R., Fan, P., Li, S.*, Hou, P.* 2017. Adjusting maize plant density to different climatic conditions across a large longitudinal distance in China. Field Crops Research, 212,126-134.
Liu, Y.#, Hou, P.#, Xie, R., Hao, W., Li, S., Mei, X. 2015. Spatial variation and improving measures of the utilization efficiency of accumulated temperature. Crop Science, 55:1806–1817.
Hou, P., Liu, Y., Xie, R., Ming, B., Ma, D., Li, S. ., Mei, X. 2014. Temporal and spatial variation in accumulated temperature requirements of maize. Field Crops Research, 158: 55-64.
Hou, P., Cui, Z., Bu, L. Yang, H. Zhang, F. Li, S. 2014. Evaluation of a modified hybrid-maize model incorporating a newly developed module of plastic film mulching. Crop Science, 54: 2796-2804.
Liu, Y.#;Hou, P.#, Xie, R., Li, S., Zhang, H., Ming, B., Ma, D., Liang, S. 2013. Spatial adaptabilities of spring maize to variation of climatic conditions.Crop Science, 53: 1693-1703.
Hou, P., Gao, Q., Xie, R., Li, S., Meng, Q., Kirkby, E.A., Römheld, V., Müller, T., Zhang, F., Cui, Z., Chen, X. 2012. Grain Yields in Relation to N Requirement : Optimizing Nitrogen Management for Spring Maize Grown in China. Field Crops Research, 129:1-6.
侯鹏,陈新平,崔振岭,王伟,王立娜,唐锦福,张福锁. 2013. 基于Hybrid-Maize 模型的黑龙江春玉米灌溉增产潜力评估. 农业工程学报,29:103-112.
Meng, Q., Hou, P., Wu, L., Chen, X., Cui, Z., Zhang, F. 2013. Understanding production potentials and yield gaps in intensive maize production in China.Field Crops Research, 143: 91-97.
Meng, Q., Hou, P., Lobell, D., Wang, H., Cui, Z., Zhang, F., Chen, X. 2014. The benefits of recent warming for maize production in high latitude China. Climatic Change, 122: 341-349.
Chen, X., Cui, Z., Vitousek, P.M., Cassman, K.G., Matson, P.A., Bai, J., Meng, Q., Hou, P., Yue, S., Römheld, V., Zhang F. 2011. Integrated soil–crop system management for food security. P.oc. Natl. Acad. Sci. 2011.108: 6399-6404.