国家级人才计划青年学者,中国农业大学“人才培育发展支持计划”绿色农业生产方向-青年科学家创新团队负责人。美国农学会《Crop Science》杂志副主编,《Technology in Agronomy》杂志副主编。
致力于气候变化背景下玉米等作物高产与资源高效利用的研究工作,2012年获中国农业大学博士学位。攻读博士学位期间(2008-2012),参加中德IRTG博士生联合培养项目,多次赴德国Hohenheim大学学习。博士后期间(2012-2014),赴美国Stanford大学开展合作研究。
近年来,在作物栽培领域核心SCI期刊发表论文50多篇。
本科生课程:主讲《作物栽培学》、《植物田间技术》、《农作物概论》等学位课程。
研究生课程:主讲《作物栽培生理与耕作学研究进展》,参讲《现代植物生产理论与技术》等多门学位课程。
(1)作物产量-资源效率-籽粒品质协同提升的地上-地下匹配机理;
(2)应对气候变化(高温和干旱逆境)的作物栽培调控技术;
(3)基于大数据驱动的田间作物智慧管控技术;
(4)绿色可持续集约化作物生产体系综合应用。
主持国家重点研发计划课题、国家自然科学基金项目、中国农业大学青年科学家创新团队基金、引进人才基金等项目。
1.Meng, Q.F., Cui, Z.L., Yang, H.S., Zhang, F.S., Chen, X.P., 2018. Establishing high-yielding maize system for sustainable intensification in China. Advances in Agronomy, 148, 85-105.
2.Tian, B.J., Zhu, J.C., Nie, Y.S., Xu, C.L., Meng, Q.F*., Wang, P*., 2018. Mitigating heat and chilling stress by adjusting the sowing date of maize in the North China Plain, Journal of Agronomy and Crop Science, 00, 1-11.
3.Xu, C.L., Zhao, H.X., Zhang, P., Wang, Y.Y., Huang, S.B., Meng, Q.F*., Wang, P*., 2018. Delaying wheat seeding time and maize harvest improved water use efficiency in a warm temperature continental monsoon climate. Agronomy Journal, 110, 1-10.
4.Wang, L.J., Meng, Q.F*., Wang, P*., 2018. Increasing concurrent drought and heat during the summer maize season in Huang-Huai-Hai Plain, China. International Journal of Climatology, 38, 3177-3190.
5.Liu, B.H., Chen, X.P*., Meng, Q.F*., Yang, H.S., van Wart, Justin., 2017. Estimating maize yield potential and yield gap with agro-climatic zones in China—Distinguish irrigated and rainfed conditions. Agricultural and Forest Meteorology, 239, 108-117.
6.Xu, C.L., Huang, S.B., Tian, B.J., Ren, J.H., Meng, Q.F*., Wang, P*., 2017. Manipulating planting density and nitrogen fertilizer application to improve yield and reduce environmental impact in Chinese maize production. Frontiers in Plant Science, 8, 1234.
7.Meng, Q.F#., Wang, H.F#., Yan, P#., Pan, J.X., Lu, D.J., Cui, Z.L., Zhang, F.S., Chen, X.P*., 2017. Designing a new cropping system for high productivity and sustainable water usage under climate change. Scientific Reports, 7, 41587.
8.Liu, B.H., Wu, L., Chen, X.P., Meng, Q.F*., 2016. Quantifying the potential yield and yield gap of Chinese wheat production. Agronomy Journal, 108, 1-7.
9.Meng, Q.F., Yue, S.C., Hou, P., Cui, Z.L*., Chen, X.P., 2016. Improving yield and nitrogen use efficiency simultaneously for maize and wheat in china: a review. Pedosphere, 26, 137-147.
10.Meng, Q.F., Chen, X.P*., Lobell, D.B., Cui, Z.L., Zhang, Y., Yang, H.S., Zhang, F.S., 2016. Growing sensitivity of maize to water scarcity under climate change. Scientific Reports, 6, 19605.
11.Meng, Q.F., Hou, P., Lobell, D.B., Wang, H.F., Cui, Z.L., Zhang, F.S., Chen, X.P., 2014. The benefits of recent warming for maize production in high latitude China. Climatic Change 122, 341-349.
12.Meng, Q.F., Sun, Q.P., Chen, X.P., Cui, Z.L., Yue, S.C., Zhang, F.S., Römheld, V., 2012. Alternative cropping systems for sustainable water and nitrogen use in the North China Plain. Agriculture, Ecosystems and Environment 146, 93-102.
13.Meng, Q.F., Hou, P., Wu, L., Chen, X.P., Cui, Z.L., Zhang, F.S. 2013. Understanding production potentials and yield gaps in intensive maize production in China. Field Crops Research 143, 91-97.
14.Meng, Q.F., Yue, S.C., Chen, X.P., Cui, Z.L., Ye, Y.L., Ma, W.Q., Tong, Y.A., Zhang, F.S., 2013. Understanding dry matter and nitrogen accumulation with time-course for high-yielding wheat production in China. PLoS One 8: e68783.
15.Meng, Q.F., Chen, X.P., Zhang, F.S., Cao, M.H., Cui, Z.L., Bai, J.S., Yue, S.C., Chen, S.Y., Müller, T., 2012. In-season root-zone nitrogen management strategies for improving nitrogen use efficiency in high-yielding maize production in China. Pedosphere 22, 294-303.
16.Xu, J., Li, C.F., Liu, H.T, Zhou, P.L., Wang, P., Meng, Q.F*., Zhao, M*. 2015. The effects of plastic film mulching on maize growth and water use in dry and rainy years in Northeast China. PLoS One, 10, e0125781.
17.Chen, X.P., Cui, Z.L., Vitousek, P.M., Cassman, K.G., Matson, P.A., Bai, J.S., Meng, Q.F., Hou, P., Yue, S.C., Römheld, V., Zhang, F.S., 2011. Integrated soil-crop system management for food security. Proceedings of the National Academy of Sciences of the United States of America 108, 6399-6404.
18.Cui, Z., Yue, S., Wang, G., Meng, Q., Wu, L., Yang, Z., Zhang, Q., Li, S., Zhang, F., Chen, X., 2013. Closing the yield gap could reduce projected greenhouse gas emissions: a case study of maize production in China. Global Change Biology 19, 2467-2477.