刘军伟，河南林州人，中共党员，博士/教授/博士研究生导师。国家现代桃产业技术体系岗位科学家、果蔬园艺作物种质资源创新与利用全国重点实验室研究人员、果树学系主任。主要从事桃树逆境生理生态及抗性调控，主持国家现代农业产业技术体系岗位、国家自然科学基金（3项）、国家重点研发子课题（2项）等项目；以第一作者或通讯作者在Plant Cell、Plant Physiol、Plant Cell Environ、J Exp Bot、Hortic Res、Hortic Plant J、Tree Physiol、园艺学报等发表学术论文40余篇；授权国家发明专利5项，已转化1项；担任国家和省部级自然科学基金评审专家、Hortic Plant J首届青年编委，参与Plant Physiol、Plant J、Plant Cell Envrion、J Exp Bot、Hortic Plant J、中国农业科学等主流期刊审稿。

教育及工作经历

       2024.12–至     今，华中农业大学，教授

2016.06–2024.11，华中农业大学，副研究员

2014.12–2015.12，荷兰瓦赫宁根大学，博士后

2013.08–2014.08，美国能源部-密歇根州立大学，博士后

2012.12–2013.05，荷兰瓦赫宁根大学，交流博士

2009.01–2012.12，意大利都灵大学，博士（2011.07–2012.08于荷兰瓦赫宁根大学交流）

2006.09–2008.07，天津大学，硕士

2002.09–2006.07，西北农林科技大学，学士

教育教学工作

长期致力于园艺作物及果树栽培生理生态领域的教育教学工作，主持教研教改项目（3项）以及指导大学生科技创新国创省创训练项目（5项）。系统讲授园艺植物栽培学总论及果树各论、园艺学总论及果树各论实验等本科生专业核心课程，同时参与主讲果树嫁接与修剪、田间综合管理等教学实践实习环节；参与《现代植物生产理论与技术》《设施园艺作物生理生态》《园艺植物栽培研究进展》等研究生课程。现主持校级教改教研3项，发表教研论文1篇。

1.2022年校级教学研究与改革项目：新农科背景下果树教学实习课程体系建设研究。【刘军伟，黄雪，何寿鹏，朱凯杰，李国怀，周继荣.“新农科”背景下果树践教学课程体系的改革探究—以华中农业大学果树实践教学课程为例。高等农业教育，2025，12（6）：78–85】

2.2023年校级研究生培养条件建设：专业学位研究生教学案例“植物-土壤-微生物”下的连作障碍与防控。

3.2025年湖北省高等学校教育省级教改项目：新农科背景下园艺专硕‘产教研创’四维实践能力培养模式创新研究。

承担科研项目

受聘国家现代桃产业技术体系“连作障碍与果园生态”岗位科学家（2024–），主持国家自然科学基金青年基金（2018–2020）和面上项目（2025–2029，2023–2026）、国家重点研发计划子课题（2018/2019–2022）、中央高校自主科研创新基金（2016–2018）等科研项目。

研究方向

桃树连作障碍（Peach Replant Problem）是限制我国桃产业可持续发展的核心瓶颈。老桃园更新后，普遍面临新栽桃树“种不活、长不好、流胶病高发”的严峻挑战。课题组聚焦这一产业痛点，致力于系统揭示桃树连作障碍的致灾机理并研发绿色高效消减技术，旨在为桃产业可持续发展提供科学方案与技术支撑。立足于“植物-土壤-微生物”互作，将多组学技术（微生物组、互作组、转录组、代谢组等）与分子生物学、土壤生态学等前沿技术手段，从两个维度开展创新性研究：

1.根际微生态与抗性机制：解析特征代谢物与根际微生物组互作网络，阐明微生物介导的根系发育、免疫与代谢（分泌物与养分吸收）及连作抗性/敏感性的形成机制；

2.连作障碍消减技术创新：研发功能微生物菌剂（拮抗菌与合成菌群）、根系调控栽培模式及土壤生态修复技术，构建“生物-农艺”协同的绿色轻简防控技术体系。

热忱欢迎对植物-微生物互作、分子生态和生物信息等有浓厚兴趣的同学与学者加入，共赴一场“跳起来摘桃”的科研旅程。

发表学术论文（since 2016）

1.Jian Meng, Dongmei Zhang, Siwei An, Yulin Du, Xue Huang, Kaijie Zhu *, Guohuai Li, Francesca Cardinale, Kenichi Tsuda, Junwei Liu *. An apoplastic Lasiodiplodia theobromae effector triggers plant immunity through a lectin receptor-like kinase in peach. Plant Cell, 2026, koag011.

2.Muhammad Atiq Ashraf, Muhammad Ateeq, Kaijie Zhu, Muhammad Asim, Samim Mohibullah, Talha Riaz, Xue Huang, Huiqiao Pan, Guohuai Li, Sergey Shabala *, Junwei Liu *. Phytohormone networks orchestrating lateral organs adaptations to hypoxia and reoxygenation in fruit crops. Plant, Cell & Environment, 2026 49(1): 607–622.

3.Muhammad Asim#, Muhammad Ateeq#, Xingyi Shen, Siwei An, Mian Muhammad Ahmed, Muhammad Atiq Ashraf, Kaijie Zhu *, Junwei Liu *. Molecular mechanisms and adaptive strategies for hypoxia tolerance in horticultural crops: beyond model systems. Horticulture Advances, 2025, 3: 34.

4. Kaijie Zhu, Muhammad Ateeq, Xueke Wang, Xue Huang, Jinzhi Yang, Iqra Noor, Guohuai Li, Junwei Liu *. PpMATE49, a multidrug and toxic compound extrusion transporter, confers manganese toxicity tolerance in peach (Prunus persica). Journal of Hazardous Materials, 2025, 496, 139270.

5.Kaijie Zhu, Xueke Wang, Jingxian Sun, Iqra Noor, Zezheng Du, Mirza Hasanuzzaman, Chuang Wang, Guohuai Li, and Junwei Liu *. Insights into the mechanisms of Tonoplast Dicarboxylate Transporter-induced plant tolerance against manganese toxicity in peach. Plant, Cell & Environment, 2025, 48(6): 4703–4718.

6.Muhammad Ateeq, Dongmei Zhang, Jinping Xiao *, Huiqin Zhang, Xingyi Shen, Jian Meng, Jinzhi Yang, Shariq Mahmood Alam, Muhammad Mohsin Kaleem, Muhammad Abbas Khan, Junwei Liu *, Kaijie Zhu, Guohuai Li. Decoding submergence tolerance in Prunus persica: Integrated transcriptomic and metabolomic acclimations of antioxidant system, cell wall dynamics, and hormonal signaling. Horticulture Advances, 2025, 3, 5.

7.Dongmei Zhang, Shu Xiang, Mengmeng Chi, Xue Huang, Kaijie Zhu, Junwei Liu *, and Guohuai Li *. Peach cultivar ‘DaHongPao’: A promising resource for gummosis disease resistance from laboratory and field investigations. European Journal of Plant Pathology, 2025, 171: 547–560.

8.Iqra Noor, Hamza Sohail, Kaijie Zhu, Mirza Hasanuzzaman, Guohuai Li, and Junwei Liu *. Phosphorus-induced restructuring of the ascorbate-glutathione cycle and lignin biosynthesis alleviates manganese toxicity in peach roots. Tree Physiology, 2024, 44(9): tpae098.

9.Wanqi Shen, Chunfa Zeng, Jingxian Sun, Jian Meng, Ping Yuan, Fanwen Bu, Kaijie Zhu *, Junwei Liu *, Guohuai Li. PpHSP20-26, a small heat shock protein, confers enhanced autotoxicity stress tolerance in Prunus persica. Horticultural Plant Journal, 2024, 11(3):1012–1025.

10. Wanqi Shen, Hai Xu, Chunfa Zeng, Chen Li, Jingxian Sun, Ping Yuan, Ping Zhang, Kaijie Zhu, Fanwen Bu *, Junwei Liu *, Guohuai Li. Physiological and molecular mechanisms of melatonin in enhancing autotoxicity stress tolerance in Prunus persica. Environmental and Experimental Botany, 2024, 225: 105833.

11. He Zhang, Xingyi Shen, Wanqi Shen, Dongmei Zhang, Xue Huang, Kaijie Zhu, Junwei Liu *, Guohuai Li. Glutathione peroxidase LtGPX3 contributes to oxidative stress tolerance, virulence, and plant defense suppression in the peach gummosis fungus Lasiodiplodia theobromae. Phytopathology Research, 2024, 6: 6.

12. Kaijie Zhu #, Hongyan Chen #, Xuehan Mei, Suwen Lu, Heping Xie, Junwei Liu, Lijun Chai, Qiang Xu, Eleanore T Wurtzel, Junli Ye *, Xiuxin Deng *. Transcription factor CsMADS3 coordinately regulates chlorophyll and carotenoid pools in Citrus hesperidium. Plant Physiology, 2023, 193(1): 519–536.

13. Kaijie Zhu #, Yimei Feng #, Yufeng Huang, Dongmei Zhang, Muhammad Ateeq, Xiongjie Zheng, Salim Al-Babili, Guohuai Li, Junwei Liu *. β-Cyclocitric acid enhances drought tolerance in peach (Prunus persica) seedlings. Tree Physiology, 2023, 43(11):1933–1949.

14. Dongmei Zhang, Kaijie Zhu, Xingyi Shen, Jian Meng, Xue Huang, Yuqi Tan, Francesca Cardinale, Jihong Liu, Guohuai Li, Junwei Liu *. Two interacting ethylene response factors negatively regulate peach resistance to Lasiodiplodia theobromae. Plant Physiology, 2023, 192(4): 3134–3151.

15. Iqra Noor, Hamza Sohail, Dongmei Zhang, Kaijie Zhu, Wanqi Shen, Jiajia Pan, Mirza Hasanuzzaman, Guohuai Li, Junwei Liu *. Silencing of PpNRAMP5 improves manganese toxicity tolerance in peach (Prunus persica) seedlings. Journal of Hazarders Materials, 2023, 131442.

16. Muhammad Ateeq, Hamid Aamir Khan, Dongmei Zhang, Shariq Mahmood Alam, Wanqi Shen, Minghua Wei, Jian Meng, Xingyi Shen, Jiajia Pan, Kaijie Zhu, Hanzi He, Guohuai Li, Junwei Liu *. Comprehensive physio-biochemical transcriptomic characterization to decipher the network of key genes under waterlogging stress and its recuperation in Prunus persica. Tree Physiology, 2023, 43(7): 1265–1283.

17. Jiajia Pan, Jian Meng, Dongmei Zhang, Chunfa Zeng, Xueke Wang, Fan Wang, Kaijie Zhu, Guohuai Li *, Junwei Liu *. Genome sequence resource of Botryosphaeria dothidea strain XNHG241, a causal agent of peach gummosis. Plant Disease, 2023, 107(7): 2205–2208.

18. Jian Meng, Dongmei Zhang, Jiajia Pan, Xueke Wang, Chunfa Zeng, Kaijie Zhu, Fan Wang, Junwei Liu *, Guohuai Li *. High-quality genome sequence resource of Lasiodiplodia theobromae strain JMB122, a fungal pathogen causing peach gummosis. Molecular Plant-Microbe Interactions, 2022, 35: 938–940.

19. Iqra Noor, Hamza Sohail, Jingxian Sun, Azher Muhammad Nawaz, Guohuai Li, Mirza Hasanuzzaman *, Junwei Liu *. Heavy metal and metalloid toxicity in horticultural plants: Tolerance mechanism and remediation strategies. Chemosphere, 2022, 303(3): 135196.

20. Dongmei Zhang, Xingyi Shen, He Zhang, Xue Huang, Hanzi He, Junli Ye, Francesca Cardinale, Jihong Liu, Junwei Liu *, Guohuai Li *. Integrated transcriptomic and metabolic analyses reveal that ethylene enhances peach susceptibility to Lasiodiplodia theobromae-induced gummosis. Horticulture Research, 2022, 9: uhab019.

21. Xia Wang #, Shengjun Liu #, Hao Zuo #, Weikang Zheng #, Shanshan Zhang, Yue Huang, Gesang Pingcuo, Hong Ying, Fan Zhao, Yuanrong Li, Junwei Liu, Shuang Yiting, Yanjun Zan, Robert M Larkin, Xiuxin Deng, Xiuli Zeng *, Qiang Xu. Genomic basis of high-altitude adaptation in Tibetan Prunus fruit trees. Current Biology, 2021, 31(17): 3848–3860.

22. Wanqi Shen, Chunfa Zeng, Yanping Gan, Hao He, Wei Zhu, Hanzi He, Guohuai Li *, Junwei Liu *. Integrative physiological, transcriptional, and metabolic analyses provide insights into response mechanisms of Prunus persica to autotoxicity stress. Frontiers in Plant Science, 2021, 12: 794881.

23. Noor Iqra, Hamza Sohail, Mirza Hasanuzzaman, Sajjad Hussain, Guohuai Li *, Junwei Liu *. Phosphorus confers tolerance against Mn toxicity in peach (Prunus persica) plants by concerted modulation of antioxidant defense systems and photosynthesis capacity. Chemosphere, 2022: 291(3): 132999.

24. He Zhang, Wanqi Shen, Dongmei Zhang, Xingyi Shen, Fan Wang, Tom Hsiang, Junwei Liu *, Guohuai Li *. The bZIP transcription factor LtAP1 modulates oxidative stress tolerance and virulence in the peach gummosis fungus Lasiodiplodia theobromae. Frontiers in Microbiology, 2021, 12: 741842.

25. Hao He, Songyang Zhang, Wanqi Shen, Wei Zhu, Iqra Noor, Junwei Liu *, Guohuai Li *. Benzoic acid plays a part in rhizosphere microbial composition of peach seedlings grown in replanted soil. Rhizosphere, 2021, 19: 100364.

26. Wanqi Shen, Dan Liu, He Zhang, Wei Zhu, Hanzi He, Guohuai Li *, Junwei Liu *. Overexpression of β-cyanoalanine synthase of Prunus persica increases salt tolerance by modulating ROS metabolism and ion homeostasis. Environmental and Experimental Botany, 2021, 186: 104431.

27. He Zhang, Dongmei Zhang, Fan Wang, Tom Hsiang, Junwei Liu *, Guohuai Li *. Lasiodiplodia theobromae-induced alteration in ROS metabolism and its relation to gummosis development in Prunus persica. Plant Physiology and Biochemistry, 2020, 154: 43–53.

28. Li Zhang, Xiyi Kou, Xue Huang, Guohuai Li, Junwei Liu *, Junli Ye *. Peach-gum: A promising alternative for retarding the ripening and senescence in postharvest peach fruit. Postharvest Biology and Technology, 2020, 161: 111088.

29. Hao He, Wei Zhu, Iqra Noor, Junwei Liu *, Guohuai Li *. Pseudomonas putida WH-B3 degrades benzoic acid and alleviates its autotoxicity to peach (Prunus persica L. Batsch) seedlings grown in replanted soil. Scientia Horticulturae, 2019, 255: 183–192.

30. Lei Gao, He Zhang, Yufang Cheng, Jingyu Li, Junwei Liu, Guohuai Li *. First report of Neofusicoccum parvum causing gummosis of peach trees in Hubei province, central China. Plant Disease, 2019, 103(10): 2673.

31. Wei Zhu, Junwei Liu, Junli Ye, Guohuai Li *. Effects of phytotoxic extracts from peach root bark and benzoic acid on peach seedlings growth, photosynthesis, antioxidance and ultrastructure properties. Scientia Horticulturae, 2017, 215: 49–58.

32. 杜昊炜，廖炜，黄雪，杨金枝，沈婉琪，张东梅，刘军伟*，李国怀. 混栽葱属、芥菜和苜蓿对连作桃苗植株生长及土壤环境的影响. 园艺学报，2025，52 (1)：185–199.

33. 潘佳佳，张东梅，孟建，高苏南，朱凯杰，刘军伟*，李国怀. 李坏死环斑病毒诱导的桃PpPDS基因沉默体系的优化及验证. 园艺学报，2023，50 (7)：1587–1600.

34. 黄雪，王成龙，陈蒙，张东梅，刘军伟，李国怀*. 不同中间砧对桃‘霞晖5号’流胶病发生和生长势及果实品质的影响.中国南方果树，2023，52(5): 196–203.

35. 李曼，张东梅，黄雪，刘军伟，朱凯杰*，李国怀*. 纳米钾肥对桃幼苗生长和桃树叶片生理特性的影响. 南方农业学报，2023，54(8): 2360-2368.

36. 沈婉琪，朱炜，曾春发，何昊，李国怀*，刘军伟*. 外源氰化物对毛桃幼苗根系生理及代谢的影响. 果树学报，2022，39(5)：845–855.

37. 李梦洁，何昊，朱炜，李玺来，刘军伟*，李国怀*. 桃树根皮腐解物成分鉴定及其高效降解菌的鉴定和应用研究. 园艺学报，2019，46 (S1)：2504.

38. 杨艳敏，张松洋，何昊，张贺，黄雪，刘军伟*，李国怀*. 桃流胶病拮抗细菌HAR3 的鉴定及其生防效果研究. 园艺学报，2019，46 (S1)：2505.

2016年之前（before 2016）：

1.Junwei Liu, Hanzi He #, Marco Vitali #, Ivan Visentin, Imran Haider, Tatsiana Charnikhova, Andrea Schubert, Carolien Ruyter-Spira, Claudio Lovisolo, Harro J Bouwmeester, Francesca Cardinale *. Osmotic stress represses Strigolactone biosynthesis in Lotus japonicus roots: exploring the interaction between Strigolactones and ABA under abiotic stress. Planta, 2015, 241(6): 1435–1451 (^*equally contributed).

2.Catarina Cardoso #, Yanxia Zhang #, Muhammad Jamil #, Jo Hepworth #, Tataiana Charnikhova, Stanley ON Dimkpa, Caroline Meharg, Mark H Wright, Junwei Liu, Xiangbin Meng, Yonghong Wang, Jiayang Li, Susan R McCouch, Ottoline Leyser, Adam H Price, Harro J Bouwmeester, Carolien Ruyter-Spira *. Natural variation of rice strigolactone biosynthesis is associated with the deletion of two MAX1 orthologs. Proceedings of the National Academy of Sciences USA, 2014, 111(6): 2379–2384.

3.Junwei Liu, Mara Novero, Tatsiana Charnikhova, Alessandra Ferrandino, Andrea Schubert, Carolien Ruyter-Spira, Paola Bonfante, Claudio Lovisolo, Harro J Bouwmeester, Francesca Cardinale *. CAROTENOID CLEAVAGE DIOXYGENASE 7 modulates plant growth, reproduction, senescence, and determinate nodulation in the model legume Lotus japonicas. Journal of Experimental Botany, 2013, 64(7): 1967–1981.

4.Junwei Liu, Claudio Lovisolo, Andrea Schubert, Francesca Cardinale *. Signaling role of strigolactones at the interface between plants, microorganisms and a changing environment. Journal of Plant Interactions, 2013, 8(1): 17–33.

5.刘莉*，刘翔，焦定量，张秦英，商纪鹏，刘军伟，郭敏. 西瓜强雌性状的遗传效应分析. 园艺学报，2009, 36：1299–1304.

6.张秦英，刘军伟，刘莉*，焦定量，郭富常，郭敏. 西瓜强雌性性状的遗传分析及分子标记研究. 华北农学报，2009，24：138–142.

授权/申请专利

1.刘军伟，李国怀，何昊，叶俊丽，朱炜。一种恶臭假单胞菌及其菌剂和应用，国家发明专利号ZL201910273403.6，授权时间2020年3月17日。已进行成果转化。

2.刘军伟，沈婉琪，李国怀，朱炜。桃氰丙氨酸合成酶基因在提高植物耐盐性方面的应用，国家发明专利号ZL202011023637.4，授权时间2022年6月10日。

3.刘军伟，李国怀，潘佳佳，张东梅，孟建。基于 VIGS 的高效桃叶片基因沉默方法，国家发明专利申请号ZL202110906417.4，授权时间2023年10月7日。

4.刘军伟，李国怀，谭钰琪，张东梅，孟建，沈兴仪。PpWRKY40a基因在调控桃流胶病抗性中的应用，国家发明专利号ZL202110946806.X，授权时间2023年10月13日。

5.刘军伟，曾春发，沈婉琪，王雪珂，黄雪，李国怀。桃小分子热休克基因在提高植物耐苯甲酸胁迫方面的应用，国家发明专利号ZL202211642566.5，授权时间2023年11月28日。

6.刘军伟，沈兴仪，张东梅，朱凯杰，黄雪，李国怀。PpCYP94A1基因在调控桃流胶病抗性中的应用，国家发明专利申请号202310998267.3，申请时间2023年11月30日。

7.张东梅，刘军伟，沈兴仪，黄雪，谭钰琪，李国怀。PpERF98基因在调控桃流胶病抗性中的应用，国家发明专利申请号202211154241.2，申请时间2022年9月22日。

8.朱凯杰，曹文涛，黄雪，刘军伟，李国怀。PpNAC2在调控桃流胶病抗性中的应用，国家发明专利申请号202311725987.9，申请时间2023年11月22日。

9.李国怀，付慧丽，黄雪，朱凯杰，刘军伟。PpSWEET2a在调控桃树对流胶病菌抗性中的应用，国家发明专利申请号202410065305.4，申请时间2024年1月17日。

10.刘军伟，孟建，安思微，黄雪，朱凯杰，李国怀。LtSCRE11 蛋白在调控桃树对流胶病的抗性中的应用，国家发明专利号202510859993.6，申请时间2025年6月25日。

11.朱凯杰，孟建，黄雪，安思微，刘军伟，李国怀。PpLecRK-IX.1基因在提高桃树对流胶病的抗性中的应用，国家发明专利号202510860556.6，申请时间2025年6月25日。

12.刘军伟、杨金枝、黄雪、陶帆、杜昊炜、朱凯杰、李国怀。降解扁桃苷的合成菌群及应用，国家发明专利号202511700827.8，申请时间2025年11月19日。