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.第五届海南大学教师教学创新大赛新农科正高组一等奖，校级，2025年。

2.海南省优秀研究生指导教师，省级，2023年；

3.“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；

4.“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；

5.“机收再生稻丰产高效栽培技术集成与应用”湖北省科技进步奖，一等奖，省级，2018年.

三、科研概况

科研项目:

1. 有色稻米花色苷合成对"全球暗化"背景下太阳辐射强度降低的响应机制研究，国家自然科学基金，32360526，33万元，2024.01-2027.12，主持；

2. 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；

3. 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；

4. 海南省水稻产业技术体系岗位科学家项目（高效栽培岗），2024-2026；

5. 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，主持；

6. 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；

7. 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；

8. 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. Jin Z, ......Nie L*. 2023. Integrated assessment of water footprint and energy production efficiency in different rice-rape rotation systems. Energy, 266:126535.（IF:9.0, 中科院一区）

2. Jin Z, ......Nie L*. 2024. Effect of water and nitrogen coupling on energy balance and production efficiency in rice production. Energy, 299:129739.（IF:9.0, 中科院一区）

3. Jin Z, ......Nie L*. 2023. Active compounds: A new direction for rice value addition. Food Chemistry-X, 19:100781.（IF:9.0, 中科院一区）

4. Mu Y, ......Nie L*. 2024. A comparative study on the role of conventional, chemical, and nanopriming for better salt tolerance during seed germination of direct seeding rice.
Journal of Integrative Agriculture, 23 (12) : 3998-4017.（IF:4.6, 中科院一区）

5. Jin Z, ......Nie L*. 2024. Trade-off between grain yield and bioactive substance content of colored rice under coupled water and nitrogen conditions. Field Crops Research, 309: 109312.（IF:6.145,中科院一区）

6. Li L, ......Nie L*. 2024. Alternate wetting and drying maintains rice yield and reduces global warming potential: A global meta-analysis. Field Crops Research, 318: 109603.（IF:6.145,中科院一区）

7. Zhao T, ......Nie L*. 2024. Coupling of reduced inorganic fertilizer with plant-based organic fertilizer as a promising fertilizer management strategy for colored rice in tropical regions. Journal of Integrative Agriculture, 23 (1): 93-107.（IF:4.6,中科院一区）

8. Abbas, HMM,......Nie L*. 2024. Microbial-inoculated biochar for remediation of salt and heavy metal contaminated soils. Science of the Total Environment, 954:176104.（IF:8.2,中科院一区）

9. Jin Z, ......Nie L*. 2024. Dry direct-seeded rice-wheat rotation system: Lower water and carbon footprint and higher carbon production efficiency and net ecosystem economic benefits. Field Crops Research, 309: 109323.（IF:6.145,中科院一区）

10. Meng Y, Nie L*. 2023. Natural variation of OsML1, a mitochondrial transcription termination factor, contributes to mesocotyl length variation in rice. Plant Journal, 115: 910-925.（IF:7.2, 中科院一区）

11. 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）

12. 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）

13. 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）

14. 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）

15. 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）

16. 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）

17. 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）

18. 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）

19. 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）

20. 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）

21. 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）

22. 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）

23. 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）

24. 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）

25. 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）

专著

1. 《Rice Production Worldwide》（第二章主编），（Springer International Publishing AG，2017）;

2. CEREAL CROPS：Genetic Resources and Breeding Techniques，Edited by Tariq Shah，Lixiao Nie, Marcelo Teixeira Filho, and Rabia Amir. 2023;

3. Climate Change and Ecosystems: Challenges to Sustainable Development, Edited by

Shah Fahad, Muhammad Adnan, Shah Saud, and Lixiao Nie. 2022.

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;

6. 何爱斌，聂立孝.一种快速获取不同萌发程度再生芽的方法, ZL 202211186309.5, 2023年11月;

7. 聂立孝，宋少坤. 一种调温调湿双层食用菌栽培拱棚，ZL202320117531.3，2023年10月；

8. 聂立孝，宋少坤，穆逸雪，A Sustainable Cultivation Method for Promoting Anthocyanin Synthesis in Colored Rice，南非专利，2024.

9. 聂立孝，廖万杰，邹瑞龙. 一种橡胶林下竹荪轻简化栽培的方法，尼日利亚专利，CRP:014335，2023年；

10. 聂立孝，穆逸雪. 一种提高水稻种子耐盐发芽的纳米氧化锌引发技术，尼日利亚专利，CRP:013261，2023年；