张国平
近期热点
资料介绍
个人简历
1978.03---1982.01 浙江农业大学农学系,本科1982.01---1985.01 浙江农业大学农学系,硕士1985.01---1987.06 浙江农业大学农学系,助教1987.06---1992.10 浙江农业大学农学系,讲师1992.10---1996.12 浙江农业大学农学系,副教授1995.02---1998.09 浙江农业大学在职攻读博士学位1996.10---1998.09 浙江农业大学农学系任教,教授1998.09---今 浙江大学农业与生物技术学院,教授、博士生导师获奖成果(1)作物镉积累与耐性基因型差异机理研究,2007年教育部自然科学奖二等奖,第一完成人(2)啤用大麦麦芽品质的基因型与环境效应研究,2008年教育部自然科学奖二等奖,第一完成人(3)作物重金属耐性和积累的基因型差异机理和调控,2009年浙江省科技进步奖二等奖,第一完成人(4)提升稻田综合生产能力的关键农艺技术集成与应用,2010年浙江省科技进步奖二等奖,第一完成人(5)主要麦芽品质的遗传差异和环境调控研究,2011年浙江省科技进步奖一等奖,第一完成人研究领域
作物种质创新与利用作物逆境分子生理作物品质形成机理近期论文
Shah JM, Asad S, Bukhari H, Zeng JB, Quan XY, Ali E, Muhammad N, ZHang GP. 2017. Nitrogen (N) metabolism related enzyme activities, cell ultrastructure and nutrient contents as affected by N level and barley genotype. Journal of Integrative Agriculture, 16: 190–198; 1.042Quan XY, Zeng JB, Han ZG, Zhang GP. 2017. Ionomic and physiological responses to low nitrogen stress in Tibetan wild and cultivated barley. Plant Physiology and Biochemistry. 111, 257–265 2.724Shen QF, Fu LB, Qiu L, Xue F, Zhang GP, Wu DZ. 2017. Time-course of ionic responses and proteomic analysis of a Tibetan wild barley at early stage under salt stress, Plant Growth Regulation. 81, 11-21 2.646Han ZG, Cai SG, Zhang XL, Qian QF, Huang YQ, Dai F, Zhang GP. 2017. Development of predictive models for total phenolics and free p-coumaric acid contents in barley grain by Near-Infrared Spectroscopy. Food Chem. 227, 342–348 4.529Wu XJ, Zeng FR, Zhang GP. 2017. PEG-simulated drought stress and spike in vitro culture are used to study the impact of water stress on barley malt quality. Plant Growth Regulation. 81:243–252 2.646Huang YQ, Cai SG, Zeng JB, Wu DZ, Zhang GP. 2017. Isobaric tags for relative and absolute quantitation proteomic analysis of germinating barley under gibberellin and abscisic acid treatments. J. Agric. Food Chem. 65: 2248–2257 4.529Lwalaba JW, Zvobgo G, Fu LB, Zhang XL, Mwamba TM, Muhammad N, Prince R, Mundende M, Zhang GP. 2017. Alleviating effects of calcium on cobalt toxicity in two barley genotypes differing in cobalt tolerance. Ecotoxicology and Environmental Safety. 139:488-495 3.743Lwalaba JW, Zvobgo G, Mundende M, Ahmed IM, Prince R, Mundende M, Zhang GP. 2017. Subcellular distribution and chemical forms of Co2+ in three barley genotypes under different Co2+ levels. Acta Physiol Plant. 39:102 1.364Shah JM, Asgher Z, Zeng JB, Quan XY, Ali E, Shamsi IH, Zhang GP. 2017. Growth and physiological characterization of low nitrogen responses in Tibetan wild barley (Hordeum spontaneum) and cultivated barley (Hordeum vulgare). Journal of Plant Nutrition. 40(6): 861-868 0.618Chen ZH, Chen G, Dai F, Wang YZ, Hills A, Ruan YL, Zhang GP, Franks PJ, Nevo E, Blatt MR. 2017. Molecular evolution of grass stomata. Trends in Plant Science. 22(2) 124-139Mascher M, Gundlach H, et al. Zhang GP, Braumann I, Spannagl M, Li CD, Waugh R, Stein N. 2017. A chromosome conformation capture ordered sequence of the barley genome. Nature, 544(7651): 426-451Cao FB, Fu MM, Wang RF, Cheng WD, Zhang GP, Wu FB. 2017. Genotypic-dependent effects of N fertilizer, glutathione, silicon, zinc, and selenium on proteomic profiles, amino acid contents, and quality of rice genotypes with contrasting grain Cd accumulation Functional and Integrative Genomics. 17(4): 387-397Gill MB, Cai KF, Zhang GP, Zeng FR. 2017. Brassinolide alleviates the drought-induced adverse effects in barley by modulation of enzymatic antioxidants and ultrastructure. Plant Growth Regulation. 82(3): 447-455Wang RF, Dai HX, Shi M, Ahmed IM, Liu WX, Chen ZH, Zhang GP, Wu FB. 2017. Genotype-dependent effects of phosphorus supply on physiological and biochemical responses to Al-stress in cultivated and Tibetan wild barley. Plant Growth Regulation. 82(2): 259-270Beier S, Himmelbach A, Colmsee C et al. 2017. Construction of a map-based reference genome sequence for barley, Hordeum vulgare L. Scientific Data. 4, DOI: 10.1038/sdata.2017.44LwalabaWaLwalaba J, Zvogbo G, Mulembo M, Mundende M, Han Y, Zhang GP, 2017. The Effect of Co Stress on Growth and Physiological Traits and its Association with Co Accumulation in Barley Genotypes Differing in Co Tolerance;Journal of Plant Nutrition, 40(15): 2192–2199Ye ZL, Zeng JB, Li X, Zeng FR, Zhang GP. 2017. Physiological characterizations of three barley genotypes in response to low potassium stress. Acta Physiologiae Plantarum. 39(10): 232.Gill MB, Zeng FR, Shabala L, Zhang GP, Fan Y, Shabala S, Zhou MX. 2017. Cell-Based phenotyping reveals QTL for membrane potential maintenance associated with hypoxia and salinity stress tolerance in barley. Frontier in Plant Science. 8:1941Wu XJ, Cai KF, Zhang GP, Zeng FR. 2017. Metabolite profiling of barley grains subjected to water stress: to explain the genotypic difference in drought-induced impacts on malting quality. Frontier in Plant Science. 8:1547Zvobgo G, Lwalabawal Walaba J, Sagonda T, Mapodzeke J, Muhammad N, Shamsi I, Zhang G. 2018. Phosphate alleviates arsenate toxicity by altering expression of phosphate transporters in the tolerant barley genotypes. Ecotoxicology and Environmental Safety 147: 832–839第12届(2012-2016)国际大麦遗传学理事会秘书长国家学位委员会农业推广专业硕士学位教育指导委员会委员中国农学会理事中国作物学会栽培研究委员会委员中国作物学会大麦专业委员会副主任委员浙江省农学会副理事长 相关热点
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