李州,男,1986年出生,学硕导师
工作单位 草业科技学院
电子邮箱 lizhou**@163.com
招生专业 【学硕】:090900草学，【专硕】:095131农艺与种业
◆个人简历
现为四川农业大学草学系副教授，主讲《草坪学》、《运动场草坪》及《高尔夫球场草坪》。博士留学于美国罗哥斯大学。对广泛应用草种白三叶、狗牙根、及匍匐剪股颖进行抗性生理及分子机制研究，从信号转导、矿质营养、光合作用、渗透调节、差异基因表达、逆境胁迫蛋白质表达和次级代谢上探索多胺（PAs）和伽马氨基丁酸（GABA）等植物生长调节剂对提高白三叶、狗牙根和匍匐剪股颖的非生物抗逆机制。田间试验进行草坪质量评价、草品种抗性筛选、高尔夫球道维护和运动场草坪抗热耐旱评价。目前已获国家发明专利4件，实用新型专利20多件；以第一或通讯作者共计发表科研论文50多篇，其中SCI收录论文40多篇。
◆工作经历
2016/8-至今，四川农业大学，动物科技学院草学系，副教授
◆教育经历
1.2014/9–2016/7， 罗格斯大学， 草坪科学， 联合培养博士
2.2012/9–2014/8， 四川农业大学， 草学， 博士
3.2010/9–2012/8， 四川农业大学， 草学， 硕士
4.2006/9–2010/6， 西南大学， 草业科学， 学士
◆获奖荣誉
2010, 西南大学优秀大学毕业生
2012, “智特奇”一等奖学金
2013, “普爱”奖学金
2014, “普爱”奖学金
2014, 中国草学会“王栋奖学金”
2015，“研究生国家奖学金”
2015，领跑者5000“中国精品科技期刊顶尖学术论文”
2016，四川农业大学“优秀博士论文”
2017，2017年中国百篇最具影响国内学术论文
2020，四川省科技进步二等奖（5/8）
◆研究领域
牧草及草坪草抗逆生理及分子机制研究
◆科研项目
1.自然科学基金，**，活性氧激活热激转录因子信号途径参与伽马氨基丁酸调节匍匐匐翦股颖耐热机制研究，2018/01-2020/12，主持
2.四川省国际合作项目，2017HH0060，伽马氨基丁酸（GABA）调控匍匐匐翦股颖抗旱耐热生理及分子机制研究，2017/01-2019/12，主持
3.教育部春晖计划，Z**，干旱预处理提高匍匐剪股颖耐热机制研究，2017/01-2019/12，主持
4.中国博士后科学基金，2018M630086，Ca2+信使系统参与GABA调节匍匐翦股颖抗旱性机制研究，2018/01-2019/12，主持
5.国家自然科学基金面上项目，**，Ca2+、H2O2信号转导参与亚精胺调控白三叶抗旱机制研究，2012/01-2016/01，已结题，参加
6.四川省科技支撑项目，2013NZ0013，高效、抗旱白三叶根瘤菌筛选及示范应用研究，2012/01-2014/01，已结题，参加
7.四川省国际合作项目，2011HH0019，干旱预处理诱导草地早熟禾耐热性的生理生化效应，2011/01-2012/02，已结题，参加
8.教育部“春晖计划”，Z**，干旱及外源钙离子预处理诱导白三叶耐热性的生理生化效应， 2011/01-2013/12，已结题，参加
◆发表论文
代表性论文:
1.Geng W, Li Z*, Muhammad JH, Peng Y (2020) Chitosan regulates metabolic balance, polyamine accumulation, and Na+ transport contributing to salt tolerance in creeping bentgrass. BMC Plant Biology 20: 506. (SCI收录IF=3.497，JCR Q1)
2.Li Z*, Cheng BZ, Peng Y, Zhang Y (2020) Adaptability to abiotic stress regulated by γ-aminobutyric acid in relation to alterations of endogenous polyamines and organic metabolites in creeping bentgrass. Plant Physiology and Biochemistry 157: 185-194. (SCI收录IF=3.720，JCR Q1)
3.Tang MY, Li Z*, Luo L, Cheng BZ, Zhang YZ, Zeng WH, Peng Y (2020) Nitric oxide signal, nitrogen metabolism, and water balance affected by γ-aminobutyric acid (GABA) in relation to enhanced tolerance to water stress in creeping bentgrass. International Journal of Molecular Science 21: 7460. (SCI收录IF=4.556，JCR Q1)
4.Li Z, Hou JR, Zhang Y, Zeng WH, Cheng BZ, Hassan MJ, Zhang YZ, Pu Q, Peng Y* (2020) Spermine regulates water balance associated with Ca2+-dependent aquaporin (TrTIP2-1, TrTIP2-2 and TRPIP2-7) expression in plants under water stress. Plant and Cell Physiology 61: 1576-1589. (SCI收录IF=4.062，JCR Q1)
5.Li Z*, Fu JY, Shi DW, Peng Y (2020) Myo-inositol enhances drought tolerance in creeping bentgrass through alteration of osmotic adjustment, photosynthesis, and antioxidant defense. Crop Science 60: 2149-2158. (SCI收录IF=1.878，JCR Q1)
6.Li Z, Cheng BZ, Zeng WH, Zhang XQ, Peng Y* (2020) Proteomic and metabolomic profilings reveal crucial function of γ-aminobutytic acid in regulating ionic, water, and metabolic homeostasis in creeping bentgrass under salt stress. Journal of Proteome Research 19: 769-780. (SCI收录IF=4.074，JCR Q1)
7.Liu ZQ, Liu T, Liang LL, Li Z*, Hassan MJ, Peng Y, Wang D (2020) Enhanced photosynthesis, carbohydrates, and energy metabolism associated with chitosan-induced drought tolerance in creeping bentgrass. Crop Science 60: 1064-1076. (SCI收录IF=1.878，JCR Q1)
8.Liu T, Liu ZQ, Li Z*, Peng Y, Zhang XQ, Ma X, Huang LK, Liu W, Nie G, He LW (2019) Regulation of heat shock factor pathways by γ-aminobutyric acid (GABA) associated with thermotolerance of creeping bentgrass. International Journal of Molecular Science 20: 4713. (SCI收录IF=4.556)
9.Li Z, Huang T, Tang MY, Cheng BZ, Peng Y, Zhang XQ* (2019) iTRAQ-based proteomics reveals key role of γ-aminobutyric acid (GABA) in regulating drought tolerance in perennial creeping bentgrass (Agrostis stolonifera). Plant Physiology and Biochemistry 145: 216-226. (SCI收录IF=3.720)
10.Li Z, Cheng BZ, Yong B, Liu T, Peng Y*, Zhang XQ, Ma X, Huang LK, Liu W, Nie G (2019) Metabolomics and physiological analyses reveal β-sitosterol as an important plant growth regulator inducing tolerance to water stress in white clover. Planta 250: 2033-2046. (SCI收录IF=3.390)
11.Li Z, Yong B, Cheng BZ, Wu X, Zhang Y, Zhang XQ*, Peng Y* (2019) Nitric oxide, γ-aminobutyric acid, and mannose pretreatment influence metabolic profiles in white clover under water stress. Journal of Integrative Plant Biology 61: 1255-1273. (SCI收录IF=4.885)
12.Li Z, Zhu YQ, He XS, Yong B, Peng Y*, Zhang XQ, Ma X, Yan YH, Huang LK, Nie G (2019) The hydrogen sulfide, a downstream signaling molecule of hydrogen peroxide and nitric oxide, involves spermidine-regulated transcription factor and antioxidant defense in white clover in response to dehydration. Environmental and Experimental Botany 161: 255-264. (SCI收录IF=4.027)
13.Li Z, Cheng BZ, Zeng WH, Liu ZQ, Peng Y* (2019) The transcriptional and post-transcriptional regulation in perennial creeping bentgrass in response to γ-aminobutyric acid (GABA) and heat stress. Environmental and Experimental Botany 162: 515-524. (SCI收录IF=4.027)
14.Cao YQ, Liang LL, Cheng BZ, Dong Y, Wei JQ, Tian XL, Peng Y, Li Z* (2018) Pretreatment with NaCl promotes the seed germination of white clover by affecting endogenous phytohormones, metabolic regulation, and dehydrin-encoded genes expression under water stress. International Journal of Molecular Sciences 19: 3570. (SCI收录IF=4.183)
15.Li Z, Li YP, Zhang Y, Cheng BZ, Peng Y*, Zhang XQ, Ma X, Huang LK, Yan YH (2018) Indole-3-acetic acid modulates phytohormones and polyamines metabolism associated with the tolerance to water stress in white clover. Plant Physiology and Biochemistry 129: 251-263. (SCI收录IF=3.404)
16.Li Z, Peng Y, Huang BR* (2018) Alteration of transcripts of stress-protective genes and transcriptional factors by γ-aminobutyric acid (GABA) associated with improved heat and drought tolerance in creeping bentgrass (Agrostis stolonifera). International Journal of Molecular Science 19: 1623. (SCI收录IF=4.183)
17.Li Z, Zhang Y, Zhang XQ, Merewitz E*, Peng Y*, Ma X, Huang LK, Yan YH (2017) Metabolic pathways regulated by chitosan contributing to drought resistance in white clover. Journal of Proteome Research 16: 3039-3052. (SCI收录IF=4.268)
18.Li Z, Peng DD, Zhang XQ, Peng Y*, Chen M, Ma X, Huang LK, Yan YH (2017) Na+ induces the tolerance to water stress in white clover associated with osmotic adjustment and aquaporins-mediated water transport and balance in root and leaf. Environmental and Experimental Botany 144: 11-24. (SCI收录IF=4.369)
19.Li Z, Yu JJ, Peng Y, Huang BR* (2017) Metabolic pathways regulated by abscisic acid, salicylic acid, and γ-aminobutyric acid in association with improved drought tolerance in creeping bentgrass (Agrostis stolonifera). Physiologia Plantarum 159: 42-58. (SCI收录IF=3.330)
20.Li Z, Zhang Y, Zhang XQ, Peng Y*, Ma X, Huang LK, Yan YH (2016) Physiological and iTRAQ-based proteomic analyses reveal the function of spermidine on improving drought tolerance in white clover. Journal of Proteome Research 15: 1563-1579. (SCI收录IF=4.268)
21.Li Z, Zhang Y, Zhang XQ, Peng Y*, Emily Merewitz*, Ma X, Huang LK, Yan YH (2016) The alterations of endogenous polyamines and phytohormones induced by exogenous application of spermidine regulate antioxidant metabolism, metallothionein and relevant genes conferring drought tolerance in white clover. Environmental and Experimental Botany 124: 22-38. (SCI收录IF=4.369)
22.Li Z, Zhang Y, Peng DD, Wang XJ, Peng Y*, He XS, Zhang XQ, Ma X, Huang LK, Yan YH (2015) Polyamine regulates tolerance to water stress in leaves of white clover associated with antioxidant defense and dehydrin genes via involvement in calcium messenger system and hydrogen peroxide signaling. Frontiers in Physiology 6: 280. (SCI收录IF=4.031)
23.Li Z, Zhou H, Peng Y*, Zhang XQ, Ma X, Huang LK, Yan YH (2015) Exogenously applied spermidine improves drought tolerance in creeping bentgrass associated with changes in antioxidant defense, endogenous polyamines and phytohormones. Plant Growth Regulation 76: 71-82. (SCI收录IF=2.333)
◆专著教材
参编《牧草及草坪草育种学》
◆教学活动
主讲《草坪学》、《运动场草坪》及《高尔夫球场草坪》
◆指导学生
目前指导博士1名，硕士10名。