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Zhilong Bie

Supervisor of Doctorate Candidates
Supervisor of Master's Candidates
Name (Simplified Chinese):Zhilong Bie
Name (English):Zhilong Bie
Name (Pinyin):BIE ZHILONG
E-Mail:
Education Level:With Certificate of Graduation for Doctorate Study
Degree:博士
Professional Title:Professor
Status:Employed
Alma Mater:西南农业大学
Discipline:Other specialties in Horticulture    Olericulture    
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别之龙,中共党员,1970年3月出生,博士,教授,博士生导师。第六届全国优秀科技工作者,享受国务院政府特殊津贴专家,国家西甜瓜产业技术体系设施栽培岗位科学家兼栽培与土肥功能研究室主任,果蔬园艺作物种质创新与利用全国重点实验室和湖北洪山实验室固定研究人员,农业农村部蔬菜专家指导组成员。1996年博士毕业于西南农业大学,1999年10月-2001年9月在日本千叶大学园艺学部从事博士后研究。先后获得湖北省自然科学基金青年杰出人才计划(2008年)、武汉市学科带头人(2009年)、武汉市黄鹤英才(农业)(2014年)、湖北省自然科学基金创新群体(2019年)等人才项目的支持。主持完成的成果先后荣获中国农业工程学会第五届青年科技奖(2008年),湖北省科技进步二等奖(2010年,2015年),湖北省科技进步三等奖(2014年),中国园艺学会华耐园艺科技奖(2018年),获批发明专利15件,制定省地方标准6项。2014年担任第1届国际园艺学会蔬菜嫁接研讨会召集人。主持建设的“设施园艺学”课程2008年被评为国家精品课程,2012年被列为国家精品资源共享课程。主讲的“工厂化育苗原理与技术”2023年被评为国家一流课程。主持完成的湖北省教学改革项目“园艺专业实践教学的改革与创新”2009年获得湖北省教学成果二等奖,主编的“工厂化育苗原理与技术”2020年荣获全国农业教育优秀教材奖。

主要从事设施蔬菜逆境生理与分子生物学、蔬菜工厂化育苗、设施蔬菜品质形成与调控等方面的研究,先后主持和参加国家自然科学基金、国家现代农业产业技术体系、中以国际科技合作项目、国家重点研发计划、国家973、863、国家科技支撑计划、国家公益性行业(农业)科研专项、教育部科学技术重点项目、湖北省自然科学基金创新群体和青年杰出人才基金、武汉市学科带头人计划等40余项纵向科研课题。在国内外刊物发表论文280余篇,其中在 Plant Physiology, Plant Journal, Journal of Experimental Botany,Food Chemistry, Horticulture Research等刊物上发表SCI论文90余篇。担任Scientia Horticulturae咨询编委、园艺学报编委、中国蔬菜编委、中国瓜菜编委,长江蔬菜副主编,兼任中国园艺学会常务理事兼副秘书长、中国农村专业技术协会常务理事、中国农业工程学会理事、中国农业工程学会设施园艺工程专委会副主任委员、湖北省农村专业技术协会副理事长、武汉市农学会副会长等职务。

近年来发表的代表性论文如下:

1.  Ma MR, Yang L*, Hu ZZ, Mo CJ, Geng SY, Zhao X, He QY, Xiao L, Lu LR, Wang D, Li SG, Kong QS, Li DW, Bie ZL*. Systemic analysis of cucumber MLO family by multiplex gene editing for engineering powdery mildew resistance. Plant Physiology, 2024accepted.

2. Wang LH, Chen H, Chen GY, Luo GB, Shen XY, Ouyang B*,  Bie ZL*. Transcription factor SlWRKY50 enhances cold tolerance in tomato by activating the jasmonic acid signaling. Plant Physiology, 2023: kiad578.

3. Wei LX, Liu L, Chen Z, Huang Y, Yang L, Wang PW, Xue SW*, Bie ZL*.CmCNIH1 improves salt tolerance by influencing the trafficking of CmHKT1;1 in pumpkin. The Plant Journal, 2023, 114:1353-1368.

4. Peng YQ, Cao HS, Cui LJ, Wang Y, Wei LX, Geng SY, Yang L, Huang Y*, Bie ZL*. CmoNAC1 in pumpkin rootstocks improves salt tolerance of grafted cucumbers by binding to the promoters of CmoRBOHD1/CmoNCED6 and CmoAKT1;2/CmoHKT1;1 to regulate H2O2/ABA signaling and K+ /Na+ homeostasis. Horticulture Research, 2023, uhad157.

5. Wang LH, Wu B, Chen GY, Chen H, Peng YQ, Sohail H, Geng SY, Luo GB, Xu DD, Ouyang B*, Bie ZL*. The essential role of jasmonate signaling in Solanum habrochaites rootstock-mediated cold tolerance in tomato grafts. Horticulture Research, 2023, 10: uhac227.

6.Chen HW, Cheng JT*, Huang Y, Kong QS, Bie ZL*. Comparative analysis of sugar, acid, and volatile compounds in CPPU-treated and honeybee-pollinated melon fruits during different developmental stages. Food Chemistry, 2023, 401: 134072.

7. Kaleem MM, Nawaz MA, Alam SM, Ding XC, Cheng JT*, Bie ZL*. Rootstock–scion interaction mediated impact on fruit quality attributes of thick-skinned melon during storage under different temperature regimes. Scientia Horticulturae, 2023,312:11182.

8. Peng YQ, Cao HS, Peng ZW, Zhou LJ, Sohail H, Cui LJ, Yang L, Huang Y*, Bie ZL*.Transcriptomic and functional characterization reveals CsHAK5;3 as a key player in K+ homeostasis in grafted cucumbers under saline conditions. Plant Science, 2023, 326:111509.

9. Peng YQ, Chen LL, Zhu L, Cui LJ, Yang L, Wu HH*, Bie ZL*.CsAKT1 is a key gene for CeO2 nanoparticles improved cucumber salt tolerance: a validation from CRISPR-Cas9 lines. Environmental Science: Nano, 2022, 9:4367.

10. Chen LL, Peng YQ, Zhu L, Huang Y, Bie ZL*, Wu HH*. CeO2 nanoparticles improved cucumber salt tolerance is associated with its induced early stimulation on antioxidant system. Chemosphere, 2022, 299: 134474.

11. Wen SY, Neuhaus HE, Cheng JT*, Bie ZL*. Contributions of sugar transporters to crop yield and fruit quality. Journal of Experimental Botany, 2022, 73(8): 2275-2289.

12. Geng SY, Sohail H, Cao HS, Sun JY, Chen Z, Zhou LJ, Wang WB, Ye RW, Yang L*, Bie ZL*. An efficient root transformation system for CRISPR/Cas9-based analyses of shoot-root communication in cucurbit crops. Horticulture Research, 2022, 9: uhab082.

13. Lu JY, Cheng F, Huang Y, Bie ZL*. Grafting watermelon onto pumpkin increases chilling tolerance by up regulating Arginine decarboxylase to increase putrescine biosynthesis. Frontiers in Plant Science, 2022, 12: 812396.

14. Sohail H, Noor I, Nawaz MA, Ma M, Shireen F, Huang Y, Yang L*, Bie ZL*. Genome-wide identification of plasma-membrane intrinsic proteins in pumpkin and functional characterization of CmoPIP1-4 under salinity stress. Environmental and Experimental Botany, 2022, 202: 104995.

15. Kaleem MM, Nawaz MA, Ding XC, Wen SY, Shireen F, Cheng JT*, Bie ZL*. Comparative analysis of pumpkin rootstocks mediated impact on melon sensory fruit quality through integration of non-targeted metabolomics and sensory evaluation. Plant Physiology and Biochemistry,2022, (192),320–330

16. Shireen F, Nawaz MA, Lu JY, Xiong M, Kaleem M, Huang Y, Bie ZL*. Application of boron reduces vanadium toxicity by altering the subcellular distribution of vanadium, enhancing boron uptake and enhancing the antioxidant defense system of watermelon. Ecotoxicology and Environmental Safety, 2021, 226: 112828.

17.  Cheng F, Gao M, Lu JY, Huang Y, Bie ZL*. Spatial–temporal response of reactive oxygen species and salicylic acid suggest their interaction in pumpkin rootstock-induced chilling tolerance in watermelon plants. Antioxidants, 2021, 10: 2024.

18.  Niu ML, Sun ST, Nawaz MA, Sun JY, Cao HS, Lu JY, Huang Y, Bie ZL*. Grafting cucumber onto pumpkin induced early stomatal closure by increasing ABA sensitivity under salinity conditions. Frontiers in Plant Science, 2019, 10: 1290.

19.  Huang Y, Cao H, Yang L, Chen C, Shabala L, Xiong M, Niu M, Liu J, Zheng Z, Zhou L, Peng Z, Bie Z*, Shabala S*. Tissue-specific respiratory burst oxidase homolog-dependent H2O2 signaling to the plasma membrane H+-ATPase confers potassium uptake and salinity tolerance in Cucurbitaceae. Journal of Experimental Botany, 2019, 70(20): 5879-5893.

20.  Cheng J, Wen S, Xiao S, Lu B, Ma M, Bie Z*. Overexpression of the tonoplast sugar transporter CmTST2 in melon fruit increases sugar accumulation. Journal of Experimental Botany, 2018, 69(3): 511-523.

21.  Niu M, Huang Y, Sun S, Sun J, Cao H, Shabala S, Bie Z*. Root respiratory burst oxidase homologue-dependent H2O2 production confers salt tolerance on a grafted cucumber by controlling Na+ exclusion and stomatal closure. Journal of Experimental Botany, 2018, 69(14): 3465-3476.

22.  Niu M, Xie J, Chen C, Cao H, Sun J, Kong Q, Shabala S, Shabala L, Huang Y*, Bie Z*. An early ABA-induced stomatal closure, Na+ sequestration in leaf vein and K+ retention in mesophyll confer salt tissue tolerance in Cucurbita species. Journal of Experimental Botany, 2018, 69(20): 4945-4960.


Educational Experience

[1] 1991.9——1996.12
西南农业大学 > Olericulture > Doctoral Degree in Agriculture > 博士
[2] 1987.9——1991.6
西南农业大学 > 学士 > 学士

Work Experience

[1] 2002.6-Now
华中农业大学
教学和科研 

[2] 1998.6-2002.5
西南农业大学
副教授 

[3] 1996.7-1998.6
西南农业大学
讲师 

[4] 1994.7-1996.6
西南农业大学
助教 

Social Affiliations

[1] 2021.11-Now
中国园艺学会常务理事兼副秘书长

[2] 

中国农业工程学会理事

[3] 

中国农业工程学会设施园艺工程专业委员会副主任委员

[4] 

湖北省农村专业技术协会副理事长

[5] 

全国农业专业学位农业工程与信息技术领域分委员会委员

[6] 

《Scientia Horticulturae》咨询编委

[7] 

《长江蔬菜》副主编

[8] 

《中国蔬菜》、《中国瓜菜》编委