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李云河,男,1977年出生,河南南阳人。现任中国农业科学院植物保护研究所研究员,博士生导师,中国农业科学院科技创新工程 “转基因作物安全评价与管理” 团队首席专家。入选科技部“创新人才推进计划”中青年科技创新领军人才和国家“WR”计划科技领军人才。
2002年获得河南农业大学植物保护专业学士学位,2005年获得农业昆虫与害虫防治硕士学位,2009年获得瑞士伯尔尼大学哲学博士学位。2009年4月至2010年4月,在美国康奈尔大学做博士后研究工作。2010年4月回国后一直在中国农业科学院植物保护研究所工作。目前任生物技术研究室副主任,兼任国家农业生物安全中心副主任及华东分中心主任、国家农业转基因生物安全委员会委员、全国农业转基因生物安全管理标准化技术委员会委员及中国植物保护学会生物安全专业委员会秘书长。
长期从事转基因抗虫作物生态安全评价及植物介导的昆虫种间关系与机制研究。先后主持瑞士科学基金青年基金、国家自然科学基金面上和国际合作重点项目及转基因重大专项重点项目等多项课题。近年,在转基因抗虫植物非靶标效应评价及水稻介导的二化螟、褐飞虱、稻纵卷叶螟及其寄生蜂多重种间关系及机制方面取得较大进展,建立了系统的转基因抗虫作物非靶标效应评价技术体系,揭示了二化螟和褐飞虱协作应对水稻防御反应,实现“互利共存”的生化和分子机理。至今,在国内外核心学术期刊发表论文90余篇,其中以第一或通讯作者在Nature Communications、Nature Plants、eLife、Plant BiotechnologyJournal、Plant Journal、Environmental Pollution、Annual Review of Entomology、Trends in Biotechnology等国际知名期刊发表SCI论文50余篇。参编中英文专著6部,授权国家发明或实用专利8项,制定国家标准4项。2017年获得第五届中国植物保护学会青年科技奖。
(1)国家自然科学基金委员会,重点国际合作项目,32120103009,二化螟和褐飞虱协作应对水稻抗虫防御的生态策略及分子机制,2022-01至2026-12,297万元,在研,主持
(2)国家自然科学基金委员会,面上项目,31972984, 褐飞虱利用二化螟诱导水稻挥发物规避寄生蜂的生态机制,2020-01至2023-12,72万元,在研,主持
(3)中共中央组织部,国家万人计划科技创新领军人才项目,抗虫水稻的生态效应及机制,2019-02至2022-02,80万元,在研,主持
(4)中华人民共和国农业农村部,转基因生物新品种培育重大专项重点课题,2014ZX08011-02B,符合欧美要求的转基因植物非靶标生物影响评价技术,2014-01至2016-12,267万元,已结题,主持
(5)国家自然科学基金委员会,面上项目,31272041, Bt水稻影响二化螟和螟蛉绒茧蜂间化学通讯的生化机制, 2013-01至2016-12,75万元,已结题,主持
(6)瑞士国家科学基金委博士后基金项目,PBBEP3-125563,Impact of Bt crops on natural enemies andconsequences for insect resistance management, 2009-01至2010-03,5.4万美元,已结题,主持
1. Liu Qingsong, Hu Xiaoyun, Su Shuangli, Ning Yuese, Peng Yufa, YeGongyin, Lou Yonggen, Turlings C.J. Ted, Li Yunhe* (2021) Cooperative herbivorybetween two important pests of rice. Nature Communications, 12:6772.https://doi.org/10.1038/s41467-021-27021-0 (IF=14.9)
2. Hu Xiaoyun, Su Shuangli, Liu Qingsong, Jiao Yaoyu, Peng Yufa, LiYunhe*, Turlings C. J. Ted (2020). Caterpillar-induced rice volatiles providecostless enemy-free space for the offspring of the brown planthopper. eLife,9:e55421. (IF=8.2)
3. Li Yunhe, Wang Zhenying, Romeis Jörg(2020) Controlling the invasive fall armyworm through biotech crops: a Chineseperspective. Trends in Biotechnology , 1963,https://doi.org/10.1016/j.tibtech.2020.07.001(IF = 19.5).
4. Li Yunhe*, Hallerman M. Eric*, Peng Yufa(2020). Excessive Chinese concern on genetically engineered food safety are unjustified.Nature Plants, 6, 590. https://doi.org/10.1038/s41477-020-0685-4(IF=15.8).
5. Liu Qingsong, Yang Xiaowei, Tzin Vered, Peng Yufa, Romeis Jörg,Li Yunhe* (2020) Plant breeding involving genetic engineering does notresult in unacceptable unintended effects in rice relative to conventionalcross-breeding Unintended effects. The Plant Journal, 103,2236-2249 (IF=6.4).
6. Li Yunhe*, Hallerman M. Eric, WuKongming, Peng Yufa (2020) Insect-resistant genetically engineered crops inChina: development, application, and prospects for use. Annual Review of Entomology 65:13.1-13.20(IF=19.7)
7. Wang Xingyun, Liu Qingsong, Meissle Michael, Peng Yufa, WuKongming, Romeis Jörg, and Li Yunhe*(2018) Bt rice could provide ecological resistance againstnon-target planthoppers. Plant Biotechnology Journal16, 1748-1755. (IF=9.8).
8. Li Yunhe*, Hallerman Eric, Peng Yufa (2018) How can China prepare for the domesticcultivation of Bt maize?Trendsin Food Science & Technology 73, 87-88. (IF=12.6).
9. Jiao Yaoyu, Hu Xiaoyun, Peng Yufa, Wu Kongming, Romeis Jörg, Li Yunhe* (2018) Bt riceplants may protect neighboring non-Bt rice plants against the striped stemborer Chilo suppressalis. Proceedings of the Royal Soceity B:Biological Sciences 285, 20181283. (IF=5.3)。
10. Li Yunhe*, Liu Qingsong, Zhang Qingling, Meissle Michael,Wang Yanan, Hua Hongxia, Peng Yufa*, Romeis Joerg. (2017) Btrice in China – focusingthe non-target risk assessment. PlantBiotechnology Journal 15(10):1340-1345. (IF=9.8)
11. ZhangBing, Yang Yan, Romeis Jörg, Peng Yufa, Zhou Xiang, and Li Yunhe* (2017) A laboratory assessment of the potential effect ofCry1Ab/Cry2Aj-containing Bt maize pollen on Folsomiacandida by toxicological and biochemical analyses. Environmental Pollution 222,94-100. (IF=6.9)
12. Li Yunhe, Gao Yulin, Wu Kongming* (2017) Functionand effectiveness of natural refuge in IRM strategies for Bt crops. Current Opinion in Insect Science 21: 1-6 (IF=8.0)
13. WangYuanyuan, Dai Pingli, Chen Xiuping, Jörg Romeis, Shi Jianrong, Peng Yufa and Li Yunhe* (2017) Ingestionof Bt rice pollen does not reduce the survival or hypopharyngeal glanddevelopment of Apis mellifera adults.EnvironmentalToxicology and Chemistry 36(5): 1243-1248 (IF=3.7)
14. Li Yunhe*, Hallerman Eric, Liu Qingsong, Wu Kongming,Peng Yufa* (2016) The development and status of Bt rice in China. PlantBiotechnology Journal 14, 839-848 (IF=9.8).
15. LiuQingsong, Wang Xingyun, Tzin Vered, Romeis Jörg, Peng Yufa and Li Yunhe (2016) Combinedtranscriptome and metabolome analyses reveal the dynamic responses of rice plantsto attack by the rice stem borer Chilosuppressalis (Lepidoptera: Crambidae). BMC Plant Biology 16, 259;doi:10.1186/s12870-016-0946-6 (IF=3.67)
16. LiuQingsong, Hallerman Eric, Peng Yufa, andLi Yunhe* (2016) Development of Bt rice and Bt maize in China and theirefficacy in target pest control. International Journal of Molecular Sciences 17,1561;doi:10.3390/ijms17101561(IF=4.2)
17. JiaoYaoyu, Yang Yan, Meissle Michael, Peng Yufa, Li Yunhe* (2016) Comparison of susceptibility of Chilo suppressalis and Bombyx mori to five Bacillus thuringiensis proteins. Journal of Invertebrate Pathology136, 95-99. (IF=2.8).
18. WangYuanyuan, Li Yunhe*, Huang Zachary,Chen XiuPing, Romeis Jörg, Dai Pingli, and Peng Yufa* (2015) Toxicological, biochemical, and histopathologicalanalyses demonstrating that Cry1Cand Cry2A are not toxic tolarvae of the honeybee, Apis mellifera. Journal of Agricultural and FoodChemistry 63:6126-6132 (IF=5.2).
19. Li Yunhe, Chen Xiuping, Hu Long, Romeis Jörg, Peng Yufa*(2014) Bt rice producing Cry1C protein does not have direct detrimentaleffects on the green lacewing Chrysoperlasinica (Tjeder). Environmental Toxicology and Chemistry 33(6): 1391-1397 (IF=3.7).
20. Li Yunhe,Meissle Michael, Romeis Jörg* (2010) Use of maize pollen by adult Chrysoperla carnea (Neuroptera:Chrysopidae) and fate of Cry proteins in Bt-transgenicvarieties. Journal of InsectPhysiology 56, 157-164 (IF=2.4)
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