一、基本情况
职称:教授、研究生导师、博士生导师
邮箱:lxnie@hainanu.edu.cn
研究领域:热带作物高产高效与绿色栽培
招生专业:博士:作物栽培学与耕作学
硕士:作物栽培学与耕作学
教育背景:
2003-09--2008-07华中农业大学 博士
2005-01--2007-07国际水稻研究所 博士论文研究
1995-09--1999-09河南科技学院 学士
学历:研究生
学位:博士
工作简历:
2019-04--今 海南大学热带作物学院 教授
2017-01--2019-03华中农业大学 教授
2011-01--2016-12华中农业大学 副教授
2010-10--2011-04日本东北大学JSPS博士后
2008-07--2010-12华中农业大学 讲师
二、获奖情况
1. 湖北省科技进步奖,一等奖,省级,2018年;
2.“海南大学热带作物品质育种及绿色生产团队”获得第六届全国专业技术人才先进集体(排第5),中共中央组织部,2021年;
3.“海南大学:智力支撑米更香”获得全国第四届省属高校精准帮扶典型项目,中华人民共和国教育部,2021年。
三、科研概况
科研项目:
1. 渍水胁迫下直播水稻萌发出苗对种子引发处理的响应机制研究,国家自然科学基金,32060430,35万元,2021.01-2024.12,主持
2. 提高直播再生稻再生力的源库调节机制研究,国家自然科学基金,31971840,58万元,2020.01-2023.12,主持
3. 海南省冬季胶园大球盖菇和竹荪高效种植模式研究与示范,海南省重点研发计划ZDYF2022XDNY175,50万元,2022.03-2024.3,课题主持
4. 热带耐盐水稻新品种培育及配套关键技术研究与示范,海南省重大专项ZDKJ202001,380万元,2020.12-2023.12,课题主持
5. 鄂东南双季稻周年规模机械化栽培技术集成与示范,国家重点研发计划子课题,2018YFD0301303, 68万元, 2018.09-2020.08,主持
6. 海南大学引进人才启动基金,300万元,2019.05-2024.04,主持
代表性成果:
论文
1. He A,......Nie L*. 2022. A preliminary study of ‘Tidy Field Technology’ to assess growth,development and weed control in direct-seeded rice. Field Crops Research, 277: 108408.(IF:6.145中科院一区)
2. Song S,......Nie L*. 2022. Effects of shading at different growth stages with various shading intensities on the grain yield and anthocyanin content of colored rice (Oryza sativa L.). Field Crops Research, 283, 108555.(IF:6.145,中科院一区)
3. Nie L,......Wang W*. 2022. Enhancement in Seed Priming-Induced Starch Degradation of Rice Seed Under Chilling Stress via GA-Mediated α-Amylase Expression. Rice, 15:19.(IF:5.638,中科院一区)
4. Jin Z,……Nie L*. 2021. Energy assessment of different rice–wheat rotation systems. Food and Energy Security, 00:e284.(IF:4.667, 中科院一区)
5. He A#, Yuan B#......Nie L*. 2021. Comparative study on annual yield, water consumption, irrigation water use efficiency and economic benefits of different rice-oilseed rape rotation systems in Central China. Agricultural Water Management, 247:106741.(IF:6.611, 中科院一区)
6. Wang W,……Nie L*. 2020. Ratoon Rice Technology: A Green and Resource-Efficient Way for Rice Production. Advances in Agronomy, 159:135-167.(IF:9.265, 中科院一区)
7. Tariq S,……Nie L*. 2020. Lead toxicity induced phytotoxic impacts on rapeseed and clover can be lowered by biofilm forming lead tolerant bacteria. Chemosphere, 246: 125766.(IF:8.943, 中科院二区)
8. Jin Z,……Nie L*. 2020. Effect of straw returning on soil organic carbon in rice–wheat rotation system: A review. Food and Energy Security, 9(2):e200. (IF:4.667, 中科院一区)
9. Nie L, ……Wang W*. 2020. Enhancement in rice seed germination via improved respiratory metabolism under chilling stress. Food and Energy Security, 9(4):e234.(IF:4.667, 中科院一区)
10. Liu H,……Nie L*. 2020. Faster leaf senescence after flowering in wet direct-seeded rice was mainly regulated by decrease in cytokinin content as compared with transplanted-flooded rice. Food and Energy Security, 9(4):e232.(IF:4.667, 中科院一区)
11. He A,……Nie L*. 2019. Source-sink regulation and its effects on the regeneration ability of ratoon rice. Field Crops Research, 236: 155-164.(IF:6.145, 中科院一区)
12. Chen Q,……Nie L*. 2018. Comparisons of regeneration rate and yields performance between inbred and hybrid rice cultivars in a direct seeding rice-ratoon rice system in central China. Field Crops Research, 223: 164-170.(IF:6.145, 中科院一区)
13. Wang WQ,……Nie L*. 2017. The possibility of replacing puddled transplanted flooded rice with dry seeded rice in central China: A review. Field Crops Research, 214: 310-320.(IF: 6.145, 中科院一区)
14. Dong HL,……Nie L*. 2017. The growth and yield of a wet-seeded rice-ratoon rice system in central China. Field Crops Research, 208:55-59.(IF: 6.145, 中科院一区)
15. Tao Y,……Nie L*. 2016. Lower global warming potential and higher yield of wet direct-seeded rice in Central China. Agronomy for Sustainable Development, 36:24.(IF:7.832, 中科院一区)
16. Wang W,……Nie L*. 2018. The Effect of Storage Condition and Duration on the Deterioration of Primed Rice Seeds. Frontiers in Plant Science, 9:172.(IF:6.627, 中科院二区)
17. Hussain S,……Nie L*. 2016. Physiological and biochemical mechanisms of seed priming-induced chilling tolerance in rice cultivars. Frontiers in Plant Science, 7:116.(IF: 6.627, 中科院二区)
18. Hussain S, Yin H,……Nie L*. 2016. Comparative Transcriptional Profiling of Primed and Non-Primed Rice Seedlings under Submergence Stress. Frontiers in Plant Science, 7:116.(IF: 6.627, 中科院二区)
19. Jiang Q,……Nie L*. 2016. Response of first flood irrigation timing after rice dry-direct-seeding: Productivity and greenhouse gas emissions in Central China. Agricultural Water Management, 177:241-247.(IF:6.611, 中科院一区)
20. Shah T,……Nie L*. 2019. Ascorbic Acid Priming Enhances Seed Germination and Seedling Growth of Winter Wheat under Low Temperature Due to Late Sowing in Pakistan. Agronomy-Basel, 9(11): 757.(IF:3.949, 中科院三区)
21. Liu H,……Nie L*. 2019. Grain yield and resource use efficiencies of upland and lowland rice cultivars under aerobic cultivation. Agronomy-Basel, 9(10): 591.(IF:3.949, 中科院三区)
22. Mei JH,……Nie L*. 2017. Seed pelleting with calcium peroxide improves crop establishment of direct-seeded rice under waterlogging conditions. Scientific Reports, 7:4878.(IF:4.996, 中科院三区)
23. Wang W,……Nie L*. 2016. Pre-sowing Seed Treatments in Direct-seeded Early Rice: Consequences for Emergence, Seedling Growth and Associated Metabolic Events under Chilling Stress. Scientific Reports, 6: 19637.(IF: 4.996, 中科院三区)
24. Wang W,……Nie L*. 2016. Effects of pre-sowing seed treatments on establishment of dry direct seeded early rice under chilling stress. AoB PLANTS, 8: plw074.(IF:3.138, 中科院三区)
25. Zheng M,……Nie L*. 2016. Seed Priming in Dry Direct-seeded Rice: Consequences for Emergence, Seedling Growth and Associated Metabolic Events under Drought Stress. Plant Growth Regulation, 78: 167-178.(IF:3.242, 中科院三区)
26. Liu H and Nie L*. 2018. Correlation of Leaf and Root Senescence during Ripening in Dry seeded and Transplanted Rice (Oryza sativa L.). Rice Science,25:279-285.(IF:4.412, 中科院二区)
27. 金朝强,聂立孝*. 2020. 栽培管理措施对稻麦轮作系统土壤有机碳和氮素积累及作物产量的影响. 湖北农业科学,59(14): 12-17.
28. 何爱斌,……聂立孝*. 2019. 甬优4949和超优1000在华中地区再生稻种植的氮肥运筹研究. 中国水稻科学, 33(1): 47-56.
专著
1. 《Rice Production Worldwide》(第二章主编),(Springer International Publishing AG,2017)
专利
1. 聂立孝,彭少兵,黄见良,崔克辉.水稻“一种两收”全程机械化高产高效栽培技术. ZL 201310521643.6
2. 聂立孝,王慰亲,刘宏岩,陶冶.一种提高旱直播水稻渍水胁迫下发芽率的种子处理方法. ZL 201510027475.4
3. 聂立孝,彭少兵,黄见良,崔克辉.一种旱直播水稻高产高效栽培技术. ZL 201310409890.7
4. 聂立孝,梅俊豪.一种促进湿直播水稻淹水条件下一播全苗的种子丸粒化方法. ZL 201610060639.8
5. 聂立孝,王慰亲.一种提高直播早稻低温胁迫下出苗率的种子处理方法. ZL 201610013766.2