刘正

刘正

职　　称

助理研究员

电　　话

18953791790

电子邮件

liuzheng05@caas.cn

创新团队

作物栽培与生理

研究组

玉米高产高效栽培

研究中心

作物栽培与耕作中心

教育经历

2011年09月~2015年06月山东农业大学，农学院，农学专业，本科
2015年09月~2018年06月山东农业大学，农学院，作物栽培学与耕作学专业，硕士研究生
2019年09月~2023年06月中国农业大学，资源与环境学院，植物营养学专业，博士研究生

工作经历

2023年08月至今中国农业科学院作物科学研究所

研究方向

玉米氮素高效利用机制与丰产增效技术

学术兼职

Plants、Agronomy等客座编辑
Modern Agriculture副编委
Field Crops Research、Agronomy for Sustainable Development和Frontiers in Plant Science等期刊审稿专家

荣誉称号

梨树县人民政府-率先实现农业现代化“优秀个人”

承担项目

国家自然科学基金青年项目“铵硝供氮比例调控玉米雌穗小花分化及结实的生理机制”（32401957），2025.01-2027.12，30.0万元，主持
农业水资源高效利用全国重点实验室开放研究基金项目“水氮协同调控玉米产量和水分利用效率的”（SKLAWR-2025-01），2025.01-2026.12，10.0万元，主持

主要论文

Sun, X., Zhao, Q., Gao, J., & Liu, Z.* (2025). The Physiological Mechanisms and Hurdles of Efficient Water–Nitrogen Utilization in Maize Production: A Review. Plants, 14(13), 1899下载
Gao, J., Fa, K., Huang, S., Wang, P., & Liu, Z.* (2025). Dual Benefits in Yield Enhancement and Grain Desiccation: Irrigation Coupled with Husk Removal Modulates Grain Moisture Dynamics in Maize. Water, 17(13), 1974下载
Liu Z., Gao, J., Sha, Y., Hao, Z., Ke, L., Huang, Y., ... & Mi, G.* (2023). High responsiveness to nitrogen supply in modern maize cultivars is contributed to gibberellin-dependent leaf elongation. Environmental and Experimental Botany, 210, 105339.下载

Liu Z., Gao, J., Zhao, S., Sha, Y., Huang, Y., Hao, Z., ... & Mi, G.* (2023). Nitrogen responsiveness of leaf growth, radiation use efficiency and grain yield of maize (Zea mays L.) in Northeast China. Field Crops Research, 291, 108806.下载
Liu Z., Hao, Z., Sha, Y., Huang, Y., Guo, W., Ke, L., ... & Mi, G.* (2022). High responsiveness of maize grain yield to nitrogen supply is explained by high ear growth rate and efficient ear nitrogen allocation. Field Crops Research, 286, 108610.下载
Liu Z., Sha, Y., Huang, Y., Hao, Z., Guo, W., Ke, L., ... & Mi, G.* (2022). Efficient nitrogen allocation and reallocation into the ear in relation to the superior vascular system in low-nitrogen tolerant maize hybrid. Field Crops Research, 284, 108580.下载
Liu Z., Hu, C., Wang, Y., Sha, Y., Hao, Z., Chen, F., ... & Mi, G.* (2021). Nitrogen allocation and remobilization contributing to low-nitrogen tolerance in stay-green maize. Field Crops Research, 263, 108078.下载
刘正, 高佳, 高飞, 杨今胜, 任佰朝, & 张吉旺*. (2019). 综合农艺管理提高夏玉米产量和养分利用效率的潜力. 植物营养与肥料学报, 25(11), 1847-1855.下载
Liu Z., Yu, N., Camberato, J. J., Gao, J., Liu, P., Zhao, B., & Zhang, J.* (2019). Crop production kept stable and sustainable with the decrease of nitrogen rate in North China Plain: An economic and environmental assessment over 8 years. Scientific Reports, 9(1), 19335.下载
Liu Z., Gao, J., Gao, F., Liu, P., Zhao, B., & Zhang, J.* (2019). Late harvest improves yield and nitrogen utilization efficiency of summer maize. Field Crops Research, 232, 88-94.下载
Liu Z., Gao, J., Gao, F., Dong, S., Liu, P., Zhao, B., & Zhang, J.* (2018). Integrated agronomic practices management improve yield and nitrogen balance in double cropping of winter wheat-summer maize. Field Crops Research, 221, 196-206.下载
Liu Z., Gao, J., Gao, F., Liu, P., Zhao, B., & Zhang, J.* (2018). Photosynthetic characteristics and chloroplast ultrastructure of summer maize response to different nitrogen supplies. Frontiers in Plant Science, 9, 576.下载
Liu Z., Zhu, K., Dong, S., Liu, P., Zhao, B., & Zhang, J.* (2017). Effects of integrated agronomic practices management on root growth and development of summer maize. European Journal of Agronomy, 84, 140-151.下载
Shi, W., Tan, T., Fang, Y., Liu, X., Chang, Y., Liu Z., ... & Xu, Y.* (2025). Quantifying reasonable straw removal rate to achieve food security, bioenergy transition and climate mitigation in China. Resources, Conservation and Recycling, 215, 108114.下载
Sha, Y., Zhao, S., Hao, Z., Liu Z., Hu, W., Feng, G., ... & Mi, G.* (2025). Root Lodging Resistance in Maize (Zea mays L.) Under Conservative Strip‐Till Cultivation System. Journal of Agronomy and Crop Science, 211(1), e70008.下载
Gao, Z., Liang, L., Wang, X., Zhen, W., Ding, Z., Li, C., Liu Z., Zhao, M., Wang, Z., & Zhou, B.* (2025). Soil compaction reduces the yield potential of densely planted maize (Zea mays L.) by disrupting root and shoot growth coordination. Plant and Soil, 1-14.下载
Sha, Y., Huang, Y., Hao, Z., Gao, M., Jiang, J., Hu, W., Zhang, J., Liu Z., Sui, X., & Mi, G.* (2025). Maize yield in a strip-till system can be increased by increasing nitrogen accumulation, plant growth, and ear development around silking stage in Northeast China. The Crop Journal, 13(1), 257-268.下载
Gao, J., Liu, Z., Wang, P., & Huang, S.* (2024). Drip irrigation coupled with appropriate N input increased maize (Zea mays L.) yield and lodging resistance via optimizing root and stem trait. European Journal of Agronomy, 160, 127298.下载
Ren, H., Liu Z., Wang, X., Zhou, W., Zhou, B., Zhao, M., & Li, C.* (2024). Long-term excessive nitrogen application decreases spring maize nitrogen use efficiency via suppressing root physiological characteristics. Journal of Integrative Agriculture.下载
Sha, Y., Liu Z., Hao, Z., Huang, Y., Shao, H., Feng, G., ... & Mi, G.* (2024). Root growth, root senescence and root system architecture in maize under conservative strip tillage system. Plant and Soil, 495(1), 253-269.下载
Sha, Y., Hao, Z., Liu Z., Huang, Y., Feng, G., Chen, F., & Mi, G.* (2023). Regulation of maize growth, nutrient accumulation and remobilization in relation to yield formation under strip-till system. Archives of Agronomy and Soil Science, 69(13), 2615-2630.下载
Gao, J., Liu Z., Zhao, B., Liu, P., & Zhang, J.* (2020). Physiological and comparative proteomic analysis provides new insights into the effects of shade stress in maize (Zea mays L.). BMC plant biology, 20, 1-13.下载
Gao, J., Liu Z., Zhao, B., Dong, S., Liu, P., & Zhang, J.* (2020). Shade stress decreased maize grain yield, dry matter, and nitrogen accumulation. Agronomy Journal, 112(4), 2768-2776.下载

主要著作

基于作物生长动态的氮肥智能管理系统V1.0，软著登字第13878376号

授权专利

15N 同位素田间原位标记计算植物体内氮素转运的方法，202411551721.1，发明专利
一种基于极坐标的作物养分效率评估方法，202411484944.0，发明专利