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    • Location: HOME» Scientists» Professors» Center of Crop Management and Farming System

    Peng Hou

    Date:2025-09-30Author:Source:

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    Peng Hou

     

    Center for Crop Cultivation and Farming

    Institute of Crop Sciences

    No.12 Zhongguancun South Street

    Beijing, 100081, China

     

    Tel:86-10-82108595

    Fax:86-10-82108595

    Email: houpeng@caas.cn

     

    Educations

    l  2001/09-2005/06, B.S. College of Agriculture, Shandong Agricultural University

    l  2005/09-2008/06, M.S. College of Agriculture, Shandong Agricultural University

    l  2008/09-2012/06, Ph.D. College of Resources and Environment, China Agricultural University

    Working Experience

    l  2023/01-now, Professor, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences

    l  2017/01-2022/12, Associate Professor, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences

    l  2012/07-2017/01, Assistant Professor, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences

    Research Interests

    l  High yield cultivation theory and technology of maize

    l  Agriculture green development

    l  Crop production and food security

    Academic Qualifications

    l  Ph.D.

    Selected Publications (*corresponding authors)

    1.     Hou, P., Liu, Y., Liu, W., Liu, G., Xie, R., Wang, K., Ming, B., Wang, Y., Zhao, R., Zhang, W., Wang, Y., Bian, S., Ren, H., Zhao, X., Liu, P., Chang, J., Zhang, G., Liu, J., Yuan, L., Zhao, H., Shi, L., Zhang, L., Yu, L., Gao, J., Yu, X., Shen, L., Yang, S., Zhang, Z., Xue, J., Ma, X., Wang, X., Lu, T., Dong, B., Li, G., Ma, B., Li, J., Deng, X., Liu, Y., Yang, Q., Fu, H., Liu, X., Chen, X., Huang, C., Li, S., 2020. How to increase maize production without extra nitrogen input. Resources, Conservation and Recycling, 160, 104913. (First author)

    2.     Hou, P., Liu, Y., Liu, W., Yang, H., Xie, R., Wang, K., Ming, B., Liu, G., Xue, J., Wang, Y., Zhao, R., Zhang, W., Wang, Y., Bian, S., Ren, H., Zhao, X., Liu, P., Chang, J., Zhang, G., Liu, J., Yuan, L., Zhao, H., Shi, L., Zhang, L., Yu, L., Gao, J., Yu, X., Wang, Z., Shen, L., Ji, P., Yang, S., Zhang, Z., Xue, J., Ma, X., Wang, X., Lu, T., Dong, B., Li, G., Ma, B., Li, J., Deng, X., Liu, Y., Yang, Q., Jia, C., Chen, X., Fu, H., Li, S., 2021. Quantifying maize grain yield losses caused by climate change based on extensive field data across China. Resources, Conservation and Recycling, 174, 105811. https://doi.org/10.1016/j.resconrec.2021.105811 (First author)

    3.     Liu, G., Yang, Y., Guo, X., Liu, W., Xie, R., Ming, B., Xue, J., Wang, K., Li, S., Hou, P.* 2023. A global analysis of dry matter accumulation and allocation for maize yield breakthrough from 1.0 to 25.0 Mg ha -1. Resources, Conservation and Recycling, 188 (2023), 106656. (Corresponding author)

    4.     Yang, Y., Guo, X., Hou, P.*, Xue, J., Liu, G., Liu, W., Wang, Y., Zhao, R., Ming, B., Xie, R., Wang, K., Li, S. 2020. Quantitative effects of solar radiation on maize lodging resistance mechanical properties. Field Crops Research, 2020, 255, 107906 (Corresponding author).

    5.     Liu, W., Liu, G., Yang, Y., Guo, X., Ming, B., Xie, R., Liu, Y., Wang, K., Hou, P.*, Li, S., 2021. Spatial variation of maize height morphological traits for the same cultivars at a large agroecological scale. European Journal of Agronomy. https://doi.org/10.1016/j.eja.2021.126349 (Corresponding author)

    6.       Liu, G., Yang, H., Xie, R., Yang, Y., Liu, W., Guo, X., Xue, J., Ming, B., Wang, K., Hou, P.*, Li, S., 2021. Genetic gains in maize yield and related traits for high-yielding cultivars released during 1980s to 2010s in China. Field Crops Research, 2021, 270:108223 https://doi.org/10.1016/j.fcr.2021.108223 (Corresponding author)

    7.     Liu, W., Liu, Y., Liu, G., Xie, R., Ming, B., Yang, Y., Guo, X., Wang, K., Xue, J., Wang, Y., Zhao, R., Zhang, W., Wang, Y., Bian, S., Ren, H., Zhao, X., Liu, P., Chang, J., Zhang, G., Liu, J., Yuan, L., Zhao, H., Shi, L., Zhang, L., Yu, L., Gao, J., Yu, X., Wang, Z., Shen, L., Ji, P., Yang, S., Zhang, Z., Xue, J., Ma, X., Wang, X., Lu, T., Dong, B., Li, G., Ma, B., Li, J., Deng, X., Liu, Y., Yang, Q., Jia, C., Chen, X., Fu, H., Li, S., Hou, P.*, 2022. Estimation of maize straw production and appropriate straw return rate in China. Agriculture, Ecosystems & Environment 328. (Corresponding author)

    8.       Liu, G., Yang, Y., Guo, X., Liu, W., Xie, R., Ming, B., Xue, J., Wang, K., Li, S., Hou, P.*, 2022. Coordinating maize source and sink relationship to achieve yield potential of 22.5 Mg ha-1. Field Crops Research, 283, 108544. (Corresponding author)

    9.     Liu, G., Liu, W., Hou, P.*, Ming, B., Yang, Y., Guo, X., Xie, R., Wang, K., Li, S. 2021. Reducing maize yield gap by matching plant density and solar radiation. Journal of Integrative Agriculture, 20(2), 363-370 (Corresponding author)

    10.   Guo, X., Liu, W., Yang, Y., Liu, G., Ming, B., Xie, R., Wang, K., Li, S., Hou, P.*, 2025. Optimal nitrogen distribution in maize canopy can synergistically improve maize yield and nitrogen utilization efficiency while reduce environmental risks. Agriculture, Ecosystems & Environment 383, 109540. (Corresponding author)

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