刘江-凯发国际娱乐官

 刘江-凯发国际娱乐官

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教授

刘江

时间:2014-03-02  来源:四川农业大学 农学院     点击数:


刘江

职称/职务:教授 生态农业研究所办公室主任

学历/学位:博士(ph.d)

硕导/博导:博士研究生(留学生)导师

研究方向:复合种植大豆品质调控与化学生态

e-mail:jiangliu@sicau.edu.cn


刘江,男,博士(后),教授、博士生导师,四川省学术和技术带头人后备人选、四川省海外高层次留学人才。2010-2013年在日本京都药科大学前沿医药科学研究中心从事天然药物化学研究工作,2013年9月获该校药学博士学位(ph.d)。2013年10月,以海外引进人才受聘于四川农业大学,在“西南作物基因资源发掘与利用国家重点实验室(筹)”、“农业部西南作物生理生态与耕作重点实验室”及“四川省作物带状复合种植工程技术研究中心”开展植物次生代谢与化学生态学研究。2014年6月获聘硕士研究生导师,2015年2月破格晋升副教授;2019年10月晋升教授(三级岗),2020年6月获聘博士研究生导师;现任生态农业研究所作物栽培与分子生理研究室主任。

近年来,主持国家自然科学基金项目2项、四川省杰出青年科技人才项目1项、中国博士后科学基金3项(面上一等资助、特别资助、优秀学术专著出版资助)、教育部留学回国人员科研启动基金1项;以第一作者或通讯作者发表学术论文60余篇(含sci论文30余篇,esi热点论文/高被引论文2篇、封面论文1篇),出版学术专著1部,授权发明专利6项。主研完成国家级科技成果转化项目“玉米-大豆带状复合种植技术”入选2020年中央一号文件;荣获2017年度中国作物学会作物科技奖、2019年度四川省科技进步一等奖。

education

ph.d. october, 2013 kyoto pharmaceutical university (kpu, japan)药学博士

m.s. june, 2010 sichuan agricultural university (sau, china)农学硕士

b.s. june, 2007 sichuan agricultural university (sau, china)医学学士

professional experience

octo. 2019–at present, professor, sau教授

feb. 2015–oct. 2019, associate professor, sau副教授

apr. 2014–oct. 2018, postdoctor in crop science, sau博士后(作物学)

oct. 2013–feb. 2015, lecturer, sau讲师

feb. 2011–oct. 2013, teaching assistant, kpu教学助理

research summary

复合种植作物化学生态学

chemecology of intercropping crops

植物次生代谢产物的形成往往伴随着机体内外诸多重要抗性机制的发挥,如:防御病、虫、杂草侵害,抵御不良环境胁迫。复合种植(间套作)系统中,异质性荫蔽、干旱等非生物胁迫与病、虫、杂草等生物胁迫并存,对大豆产生了诸多不利影响;大豆以异黄酮、抗毒素、木质素、脂肪酸、角质蜡质、类胡萝卜素、内源激素等代谢产物为媒介响应上述不良环境,并通过自身的代谢调控或与伴生作物、微生物的相互作用,实现防御、预警、胁迫记忆及信号转导等诸多功能。与此同时,受复合种植特殊环境影响,大豆籽粒形成了特异性的化学品质。大豆次生代谢产物在复合种植系统中发挥着怎样的作用?其抗逆功能的发挥受到哪些关键基因的调控?复合种植作物种间、种内以化学物质为媒介的相互关系如何?有怎样的生态学意义?即是复合种植作物化学生态学研究的重点。

biosynthesis and accumulation of secondary metabolitesin plants is often accompanied with various important resistance mechanisms, such as resistance to disease, insect, weed, and other abiotic stresses. under maize and soybeanintercroppingsystems, abiotic stresses such as heterogeneous shading and imbalance water deficit coexist with other biotic stresses. these stresses induce adverse effects on soybean plant. in response, the secondary metabolism in soybean plant, including isoflavone, glyceollin, lignin, fatty acid, cutin wax, carotenoid, and endogenous phytohormone, play crucial roles of plant defense, early warning, stress memory and serve as chemical modulators of signal transduction with intra-/inter-species or microorganisms. meanwhile,affected by the special intercropping environment, the specific chemical qualities of soybean seeds were formed.

what is the stress resistance function of the above-mentioned chemicals in the intercropping system? what are the important steps and key genes involved in their metabolismregulation? how about the mutual relationships and ecological implications? those above are the research emphasis of intercropping crops chemecology.

research contents

1.间套作提升大豆抗逆性的代谢调控机理

metabolic mechanism of potential resistance improvement of soybean plant growing under maize-soybean strip intercropping system

  • 时空荫蔽spatiotemporal shade stress:变光环境提高大豆耐荫性changing light environment elevate shade tolerance

  • 田间霉变field mould复合胁迫诱导豆荚交叉抗性environment and biotic stress combinations induce cross resistance

  • 半根干旱胁迫split-root drought stress异质性水环境平衡大豆抗旱与生长heterogeneous water environment balanced drought resistance and growth

2.间套作大豆化学品质的形成与调控

chemical quality formation and regulation of soybean seed harvested from maize-soybean strip intercropping system

  • 营养成分:蛋白质、油脂(脂肪酸)nutrients:protein, oil (fatty acids)

  • 功能成分:异黄酮、花色苷、类胡萝卜素functional components:isoflavones, anthocyanin, carotenoid

research tools

当代化学生态学与系统生物学研究交叉融合的特征愈加突显,化学生态学已然进入了大数据时代。因此,化学生态学即可定义为:应用多维分析化学手段,揭示生物种间、种内及其与生存环境间以化学物质为媒介的相互作用关系,进而阐释生态学原理的交叉学科;其运用微观手段(分析化学:色谱/质谱)解决宏观(生态学:生物/非生物)科学问题;采用宏观研究策略(系统生物学:组学思维)阐释微观作用机理(代谢调控:酶、基因功能)。

integration of chemecology and system biology become more prominent in the present world context, chemecology research has entered the era of big data. hence, the subject of chemecology can be defined as: applying multidimensional methods of analytical chemistry to demystify the chemical-mediated interactions among interspecies, intraspecies and their living environments; and then to explain their deepgoing ecological principles. it uses micro-tools (analytical chemistry: chromatography/mass spectrometry) to solve complex macro scientific problems (ecology: biological/abiological) and enforces macro-strategies (systems biology: omics tactics) to elucidate micro mechanisms (metabolic regulation: enzyme, gene function).

  • 植物化学phytochemistry:色谱-质谱联用(lc-/gc-ms)、核磁共振(nmr)...

  • 分子生理molecular physiology:代谢组学(metabolomics)、代谢通量分析(fluxomics)、基因表达(genetic expression)、遗传转化(genetic transformation)...

research projects

  1. 国家自然科学基金面上项目《套作变光环境促进大豆异黄酮合成的调控机理》(2020.01-2023.12,主持)national natural science foundation of china, regulation mechnism of changing light in intercropping system on promoting isoflavone biosynthesis in soybean

  2. 四川省杰出青年科技人才项目《大豆种荚抗田间霉变异黄酮的代谢调控机理》(2020.1.1-2022.12.31,主持)science fund for distinguished young scholars of sichuan,metabolic regulation mechanism of isoflavone in soybean pod response to field mildew

  3. 国家自然科学基金青年科学基金项目《大豆种皮抗田间霉变生物活性成分的筛选及其构效关系研究》(2015.01-2017.12,主持)national natural science foundation of china, bioactivity-guided isolation of anti-field moldy constituents from soybean seed coat and their structure-activity relationships

  4. 中国博士后科学基金(特别资助)项目《遮荫对大豆异黄酮时空积累的代谢调控机理研究》(2017.06-2019.06,主持)china postdoctoral science foundation, effect of shading on spatiotemporal accumulation of soybean isoflavonoid and its metabolic regulation mechanism

  5. 中国博士后科学基金面上项目(一等资助)《光照对大豆呈味性糖苷代谢的调控机理研究》(2014.06-2016.06,主持)china postdoctoral science foundation, metabolomics integrated with transcriptomic analyses reveal mechanisms of metabolic regulation for the taste chemistry of soybean glycosides under different light environments

  6. 教育部留学回国人员科研启动基金项目《基于化学-生物综合指纹图谱的川产忍冬质量评价研究》(2014.06-2016.06,主持)returned overseas chinese scholars, state education ministry, quality evaluation research oflonicera macranthoidesfrom sichuan based on the comprehensive chemical-biological fingerprinting

  7. 药食同源植物资源开发四川省高校重点实验室开放基金项目《基于醛糖还原酶抑制活性的川产黑豆资源评价研究》(2015.07-2016.10,主持)open fund project of key laboratory of medicinal and edible plant resources development of sichuan education department, evaluation of black soybean germplasms from sichuan basin based on the inhibitory activity of aldose reductase

  8. 国家自然科学基金面上项目《荫蔽对大豆茎秆木质素代谢的作用机理》(2017.01-2020.12,主研)national natural science foundation of china, mechanism of shading effect on the lignin metabolism in the soybean stem

  9. 国家自然科学基金面上项目《玉米植保素kauralexin二萜合酶基因相关转录因子鉴定及调控机制解析》(2017.01-2020.12,主研)national natural science foundation of china, identification of transcription factors involved in diterpene synthase gene regulation of maize phytoalexin kauralexin and regulatory mechanism elucidation

  10. 国家重点研发计划“粮食丰产增效科技创新”重点专项《旱地多熟复合种植系统光温水时空动态及作物响应机制》(2016.01-2020.12,主研)the national key research and development program of china

recent publications

  1. 刘江*,《复合种植作物化学生态学》. 2020年1月,科学出版社(中国博士后科学基金优秀学术专著出版资助)jiang liu*. chemical ecology of intercropping crop [m]. science press. 2019, isbn: 978-7-03-060433-0. (china postdoctoral science foundation)

  2. jiang liu, cai-qiong yang, qing zhang, ying lou, hai-jun wu, jun-cai deng, feng yang, wen-yu yang*.partial improvements in the flavour quality of soybean seeds using intercropping systems with appropriate shading[j].food chemistry, 2016, 207: 107-114.(esi热点论文

  3. nasir iqbal, sajad hussain, zeeshan ahmed, feng yang, xiaochun wang, weiguo liu, taiwen yong, junbo du, kai shu, jing zhang, wenyu yang*,jiang liu*.comparative analysis of maize-soybean strip intercropping systems. a review[j].plant production science, 2019, 22(2): 131-142.(esi高被引论文

  4. cai-qiong yang,nasir iqbal,bao-yu hu,qi-hui zhang,hai-jun wu,xin liu,jing zhang,wei-guo liu,wen-yu yang*,jiang liu*.targeted metabonomics analysis of fatty acid in soybean seed by gc-ms reveal the metabolic manipulation of shading in intercropping system[j].analytical methods, 2017, 9(14): 2144-2152.(英国化学会封面论文

  5. 杨才琼,邓俊才,秦雯婷,刘江*,杨文钰.大豆种荚响应田间霉变的代谢组学分析[c].中国作物学会大豆专业委员会.第十届全国大豆学术研讨会论文集(北京,2017.8.1-4).(全国优秀青年论文

  6. jiang liu, wen-ting qin, hai-jun wua, cai-qiong yang, jun-cai deng, nasir iqbal, wei-guo liu, jun-bo du, kai shu, feng yang, xiao-chun wang, tai-wen yong, wen-yu yang*.metabolism variation and better storability of dark-versus light-coloured soybean (glycine maxl. merr.) seeds[j].food chemistry, 2017,223:104-113.

  7. jiang liu, juncai deng, ke zhang, haijun wu, caiqiong yang, xiaowen zhang, junbo du, kai shu, wenyu yang*.pod mildew on soybeans can mitigate the damage to the seed arising from field mould at harvest time[j].journal of agricultural and food chemistry,2016, 64, 9135-9142.

  8. weitao li*, kang wang, mawsheng chern, yuchen liu, ziwei zhu,jiang liu, xiaobo zhu, junjie yin, li ran, jun xiong, kaiwei he, liting xu, min he, jing wang, jiali liu, yu bi, hai qing, mingwu li, kun hu, li song, long wang, tuo qi, qingqing hou, weilan chen, yan li, wenming wang, xuewei chen*sclerenchyma cell thickening through enhanced lignification induced by osmyb30 prevents fungal penetration of rice leaves.new phytologist, 2020, 226(6): 1850-1863.

  9. jin liang,jiang liu#, reid brown, meirong jia, ke zhou, reuben j. peters*, qiang wang*.direct production of dihydroxylated sesquiterpenoids by a maize terpene synthase[j].the plant journal, 2018, 94: 847-856.

  10. ping chen, chun song, xiao-ming liu, li zhou, huan yang, xiaona zhang, ying zhou, qing du, ting pang, zhi-dan fu, xiao-chun wang, wei-guo liu, feng yang, kai shu, junbo du,jiang liu, wenyu yang, taiwen yong.yield advantage and nitrogen fate in an additive maize-soybean relay intercropping system[j].science of the total environment, 2019, 657: 987-999.

  11. wenguan zhou, feng chen, sihua zhao, caiqiong yang, yongjie meng, haiwei shuai, xiaofeng luo, yujia dai, han yin, junbo du,jiang liu, gaoqiong fan, weiguo liu, wenyu yang*, kai shu*.da-6 promotes germination and seedling establishment from aged soybean seeds by mediating fatty acid metabolism and glycometabolism[j].journal of experimental botany, 2019, 70(1): 101-114.(esi高被引论文

  12. 刘江*,杨才琼,邓俊才,胡宝予,杨文钰.基于代谢组学策略的作物化学生态学研究.四川省分析测试学会光谱分析专委会.第十八届四川省光谱分析学术年会暨2018年西南地区分析化学学术会议(成都,2018.10.12-14).(大会报告

patent for invention

  1. 刘江,陈建华,周诚,谢丛薇,肖新力,杨才琼,李晓曼,肖媛,黄祥庆,杜俊波,张静,王小春,杨峰,武晓玲,杨文钰.一种异黄酮o-甲基转移酶gmiomt3及编码基因及应用(发明专利号:zl 201910798929.6,国家知识产权局,2020.11.6授权)

  2. 刘江,秦雯婷,吴海军,蔡亚丽,张静,刘卫国,杨峰,舒凯,杜俊波,王小春,雍太文,杨文钰.一种玉米须黑豆茶及其制作方法(发明专利号:zl 201610172980.2,国家知识产权局,2019.09.24授权)

  3. 刘江,秦雯婷,杨才琼,胡宝予,邓俊才,张潇文,张静,杨文钰.一种基于核磁共振技术判别大豆种子活力的方法(发明专利号:zl 201611023723.9,国家知识产权局,2018.10.09授权)

  4. 刘江,刘卫国,张静,邓俊才,吴海军,杨峰,舒凯,杜俊波,王小春,雍太文,杨文钰.一种基于代谢组学手段判别不同耐逆潜力大豆的方法(发明专利号:zl 201610301679.7,国家知识产权局,2017.10.27授权)

  5. 刘江,吴海军,张静,杨峰,刘卫国,舒凯,杜俊波,王小春,雍太文,邓俊才,杨文钰.适用于小型设施农艺研究的可变光谱罩及其光谱调节方法(发明专利号:zl 201510349306.2,国家知识产权局,2017.05.17授权)

  6. 刘江,陈兴福.川麦冬hplc指纹图谱的建立方法及其标准指纹图谱(发明专利号:zl 201010106585.7,国家知识产权局,2012.8.22日授权)

members and alumni

·graduate研究生

2015级博士邓俊才:比利时根特大学ghent university

2014级硕士吴海军(优秀毕业论文):四川旅游学院sichuan tourism university

2015级硕士秦雯婷(优秀毕业论文):西班牙巴塞罗那自治大学universitat autònoma de barcelona

nasir iqbal:澳大利亚阿德莱德大学university of adelaide

2016级硕士杨才琼(优秀毕业生):德国马普化学生态研究所max planck institute for chemical ecology

2017级硕士胡宝予(优秀毕业生):德国亥姆霍兹慕尼黑环境与健康研究中心helmholtz zentrum münchen - german research center for environmental health

张启辉:德国波恩大学university of bonn

肖新力:安捷伦科技有限公司agilent technologies, inc.

张潇文:成都市动物疫病预防控制中心

龙希洋:宜宾市引进高层次人才

dennis takpah:加纳fairtrade africa

2018级硕士李晓曼、陈建华、haymarn soe myint

2019级硕士谢丛薇、肖媛、周诚、黄祥庆

2020级硕士贺元元、李相蓓、贾琳钰、杨雨、nishbah mughal

·undergraduate本科生

2011级:黄妮(优秀毕业论文

2012级:郑璐(优秀毕业论文,川农大)、张可(中南大学)、李延芳(山西大学)、胡尧、罗涵(朝天职中)、孙广泽(恒大)、朱婷玉(四川大学)、杨才琼(川农大)

2013级:胡宝予(优秀毕业论文,川农大)、张潇文(优秀毕业论文,川农大)、丰雨瑞(武汉大学)、陈敏、王晴、何赛娇、伍福海、刘芳芳、赵乙、张启辉(川农大)

2014级:潘巧(优秀毕业论文)、雷震(中科院上海植生所)、严培(四川大学)、范东梅(中科院昆植所)、徐千一(四川大学)、龙希洋(川农大)

2015级:谢丛薇(优秀毕业论文,川农大)、董小华(南京农大)、黄祥庆(川农大)、杜霞(川农大)、杨雨(川农大)

2016级:赵思华(西湖大学)、尹晗(优秀毕业论文,哈工大)、孟祥睿、吕昊哲(川农大)

2017级:牛茂生、刘佳、许玮佳

2018级:贺雨虹、吴金娥、屈尚钰、李幸运

admissions information

090101作物栽培学与耕作学(全日制学术学位)

095131农艺与种业(全日制/非全日制专业学位)

program:crop cultivation and farming system

orientation:crop secondary metabolism and chemical ecology

warmly welcome students from all over the world to study at sicau !

  • enrollment information

  • sichuan government scholarship

    a)key laboratory of crop ecophysiology and farming system in southwest china, ministry of agriculture, p. r. china

    b)sichuan engineering research center for crop strip intercropping system

    c)institute of ecological agriculture, sichuan agricultural university

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