张运波,博士,教授,博士生/硕士生导师,yl34511线路中心作物学领军人才,主要从事作物高产优质栽培与资源高效利用的研究。
工作经历:
2020.12-至今 yl34511线路中心,教授
2015.07-2020.11 yl34511线路中心,副教授
2012.03-2015.06 yl34511线路中心,讲师
2008.09-2011.12 湖南农业大学,博士研究生
2009.06-2011.06 国际水稻研究所(IRRI),博士研究生
主讲课程:
主讲本科生《作物栽培学概论》,研究生《现代植物生产理论与技术》等课程,荣获2016年yl34511线路中心“学生最喜爱的老师”称号,2020年第七届“温暖长大”年度人物。
主持项目:
1.十四五国家重点研发计划子任务,再生稻优质与丰产协同调控关键技术研究与应用(2022YFD2301004),科技部,50万,2022.12-2026.12,主持
2.国家自然科学基金面上项目,超高产水稻育种进程中的辐射利用率演变规律及对产量调控机理解析(32172108),国家自然科学基金委,58万,2022.01-2025.12,主持
3.十三五国家重点研发计划课题,水稻机械化抗灾减损丰产增效技术集成与示范(2018YFD0301306),科技部,461万,2018.07-2021.06,主持
4.十三五国家重点研发计划子任务,南方水稻产量及效率形成机制与丰产增效途径(2016YFD030010803),科技部,190万,2016.01-2021.06,主持
5.超级杂交稻全国联合攻关,超级杂交稻产量潜力与氮肥利用率,国家杂交水稻工程技术研究中心,30万,2015.01-2018.12,主持
6.公益性(农业)行业专项子任务,主要作物涝渍灾害防控关键技术研究与示范,农业部,12万,2014.01-2016.12,主持
7.教育部博士点专项科研基金,超级杂交稻光合特性及其适应性研究,教育部,4万,2013.01-2015.12,主持
近5年发表论文:
1. Silver lining to a climate crisis in multiple prospects for alleviating crop waterlogging under future climates,Nature Communications,2023,14(765)
doi:10.1038/s41467-023-36129-4.
2. Greater propensity to photosynthesize enables superior grain quality of Indica–japonica hybrid rice under shading, Agronomy,2023,13(2):535,doi:10.3390/ agronomy13020535.
3. Sustainable intensification with irrigation raises farm profit despite climate emergency,Plants, People, Planet,2023, doi:10.1002/ppp3.10354.
4. Optimized management practices synergistically improved grain yield and nitrogen use efficiency by enhancing post-heading carbon and nitrogen metabolism in super hybrid rice,Agronomy,2023,13(13), doi:10.3390/agronomy13010013.
5. Whole farm planning raises profit despite burgeoning climate crisis,Scientific Reports,2023,12(1), doi:10.1038/s41598-022-20896-z.
6. dep1 improves rice grain yield and nitrogen use efficiency simultaneously by enhancing nitrogen and dry matter translocation,Journal of Integrative Agriculture, 2022,21(11), doi:10.1016/j.jia.2022.07.057.
7. Dense planting with reduced nitrogen input improves grain yield, protein quality, and resource use efficiency in hybrid rice,Journal of Plant Growth Regulation,2022, 42(2):1-13. doi:10.1007/s00344-022-10606-4.
8. Integrated crop management practices improve grain yield and resource use efficiency of super hybrid rice,Frontiers in Plant Science,2022,doi:10.3389/ fpls. 2022.851562
9. Designing high yielding wheat crops under late sowing: a case study in southern China,Agronomy for Sustainable Development,2022, doi:10.1007/s13593- 022- 00764-w.
10. Over-optimistic projected future wheat yield potential in the North China Plain: the role of future climate extremes,Agronomy,2022, doi:10.3390/agronomy 12010145.
11. Higher radiation use efficiency and photosynthetic characteristics after flowering could alleviate the yield loss of Indica-Japonica hybrid rice under shading stress, International Journal of Plant Production,2021, doi:10.1007/s42106- 021-00180-2.
12. Crop traits enabling yield gains under more frequent extreme climatic events,
Science of The Total Environment,2021,doi:10.1016/j.scitotenv. 2021.152170.
13. Climate change shifts forward flowering and reduces crop waterlogging stress,Environmental Research Letters,2021,doi:10.1088/1748-9326/ac1b5a.
14. Night temperature determines the interannual yield variation in hybrid and inbred rice widely used in central China through different effects on reproductive growth, Frontiers in Plant Science,2021,12:646168, doi:10.3389/ fpls.2021.646168
15. Whether optimizing seeding rate and planting density can alleviate the yield loss of double‐season rice caused by prolonged seedling age?Crop Science,2021, 61(11)doi:10.1002/csc2.20541.
16. Evaluating the effect of population density and the contribution of early canopy closure to grain yield of hybrid rice, Journal of Plant Growth Regulation, 2021, doi: 10.1007/s00344-021-10342-1.
17. The state of the art in modeling waterlogging impacts on plants: what do we know and what do we need to know,Earth's Future,2020, doi:10.1029/ 2020EF 001801.
18. Root morphological traits and distribution in direct-seeded rice under dense, planting with reduced nitrogen,PLoS One,2021,15(9):e0238362, doi:10.1371/ journal. pone.0238362.
19. Inbred varieties outperformed hybrid rice varieties under dense planting with reducing nitrogen,Scientific Reports,2020,10(8769),doi:10.1038/ s41598-020- 65574-0.
20. High radiation use efficiency improves yield in the recently developed elite hybrid rice Y-liangyou 900,Field Crops Research,2020,253,doi:10.1016/j.fcr.2020.107804
21. Radiation use efficiency and source-sink changes of super hybrid rice under shade stress during grain-filling stage,Agronomy Journal,2019, doi:10.2134/ agronj2018. 10.0662.
22. High nitrogen levels alleviate yield loss of super hybrid rice caused by high temperatures during the flowering stage,Frontiers in Plant Science,2019,10:357,
doi:10.3389/fpls.2019.00357.
科研奖励:
1.关于打造湖北省糯稻百亿级产业群的建议,湖北省发展研究奖二等奖,中共湖北省委、湖北省人民政府,2022年
2. 超级杂交稻抗逆稳产高产高效栽培技术研究与示范,湖北省科技进步二等奖,湖北省人民政府,2014年
3.超级杂交稻抗均衡高产综合配套技术研究与示范,中华农业科技奖三等奖,农业部,2015年
4.作物涝渍灾害精细预警与预报关键技术研究与示范,湖北省科技进步三等奖,湖北省人民政府,2016年
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