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何俊瑜

   发布时间: 2017-11-26    访问次数: 5321

何俊瑜
博士 教授


院长助理
环境工程系主任
环境工程专业负责人

常州大学金沙,江苏常州 213164
Email: junyuhe0303@sina.com

教育背景:
2003.09-2006.09 浙江大学 植物学专业 理学博士
1999.09-2002.07 山西农业大学 蔬菜学专业 农学硕士
1995.09-1999.07 山西农业大学 蔬菜专业 农学学士


工作履历:
2017.09-至今  常州大学  教授
2011.01-2017.08  贵州大学 教授
2006.09-2010.12 贵州大学 副教授


学术兼职:
中国土壤学会、中国植物营养学会、中国植物生理与分子生物学会会员
国家自然科学基金委通讯评议专家、国内外多个学术期刊的审稿人


主授课程:
环境保护概论 环境影响评价


研究领域:
重金属污染治理与修复,污染物环境行为


教材与专著:
1、何俊瑜副主编,〈烤烟营养民施肥〉陆引罡主编,贵州科技出版社,2015.
2、何俊瑜参编,〈植物营养学〉黄云主编,中国农业出版社,2014.
3、何俊瑜副主编,〈蔬菜营养与施肥〉陆引罡主编,贵州科技出版社,2011.


主要学术论文(第一或责任作者):

    [1]Yu Ji, Yanfang*, Chuan Han, Wenjia Zhu, jinyu Gu, Junyu He*. Application of exogenous glycinebetaine alleviates lead toxicity in pakchoi (Brassica chinensis L.) by promoting antioxidant enzymes and suppressing Pb accumulation. Environmental Science and Pollution Research, 2022

    [2]Wenjia Zhu, Chunmei Hu, Yanfang Ren*, Ying Lu, Yaping Song, Yu Ji, Chuan Han, Junyu He* Green synthesis of zinc oxide nanoparticles using Cinnamomum camphora (L.) Presl leaf extracts and its antifungal activity. Journal of Environmental Chemical Engineering 9 (2021) 106659.

    [3]Chuan Han, Miaofei Wang, Yanfang Ren*, Liming Zhang, Yu Ji, Wenjia Zhu, Yaping Song, Junyu He*. Characterization of pruned tea branch biochar and the mechanisms underlying its adsorption for cadmium in aqueous solution. RSC Adv., 2021, 11, 26832.

    [4]Ren, Yanfang*; Xue, Yuhao; Tian, Dan; He, Junyu*; Zhang, Liming; Wu, Qing; Liu, Shu. Synergistic Effect of Salicylic Acid and Nitric Oxide Treatment on Quality and Antioxidant Activity in Postharvest Mango Fruit. Food Science, 2021, 151-159.

    [5]Yanfang Ren*, Yuhao Xue, Dan Tian, Liming Zhang, Guiyun Xiao, Junyu He*. Improvement of Postharvest Anthracnose Resistance in Mango Fruit by Nitric Oxide and the Possible Mechanisms Involved. J. Agric. Food Chem, 2020, 68: 15460-15467.

    [6]Wei Wang, Yanfang Ren*, Junyu He*, Luyun Zhang, Xiyue Wang, Zhiwen Cui. Impact of copper oxide nanoparticles on the germination, seedling growth, and physiological responses in Brassica pekinensis L. Environmental Science and Pollution Research, 2020, 27:31505-31515.

    [7]Wei Wang, Jiaqi Liu, Yanfang Ren*, Liming Zhang, Yuhao Xue, Luyun Zhang, Junyu He*. Phytotoxicity Assessment of Copper Oxide Nanoparticles on the Germination, Early Seedling Growth, and Physiological Responses in Oryza sativa L. Bulletin of Environmental Contamination and Toxicology, 2020, 104: 770-777.

    [8]Yanfang Ren, Wei Wang, Junyu He*, Luyun Zhang, Yuanjuan Wei, Min Yang. Nitric oxide alleviates salt stress in seed germination and early seedling growth of pakchoi (Brassica chinensis L.) by enhancing physiological and biochemical parameters. Ecotoxicology and Environmental Safety, 2020, 187:109785.

    [9]Liming Zhang, Yanfang Ren*, Yuhao Xue, Zhiwen Cui, Qihang Wei, Chuan Han, Junyu He*. Preparation of biochar by mango peel and its adsorption characteristics of Cd(II) in solution. RSC Advances, 2020, 10: 35878.

    [10]Lu Yingang, Ma Jun, Teng Ying, He Junyu, Peter Christie, Zhu Lingjia, Ren Wenjie, Zhang Manyun, Deng Shiping. Effect of silicon on growth, physiology, and cadmium translocation of tobacco (Nicotiana tabacum L.) in cadmium-contaminated soil. Pedosphere, 2018, 28(4): 680–689

    [11]Yanfang Ren, Junyu He, Houyu Liu, Guoqing Liu, and Xiaoling Ren. Nitric oxide alleviates deterioration and preserves antioxidant properties in ‘Tainong’ mango fruit during ripening. Hortic. Environ. Biotechnol. 2017, 58(1):27-37.

    [12]Junyu He Yanfang Ren*, Chen Chen, Jinping Liu, Houyu Liu, Yun Pei. Defense Responses of Salicylic Acid in Mango Fruit Against Postharvest Anthracnose, Caused by Colletotrichum gloeosporioides and its Possible Mechanism. Journal of Food Safety, 2017, 37, e12294.

    [13]He JY, Ren YF, Chen XL, Chen H. Protective roles of nitric oxide on seed germination and seedling growth of rice under cadmium stress. Ecotoxicology and Environmental Safety, 2014, 108: 114-119. 

  [14]Junyu He, Yanfang Ren, Yinfei Lv, Huiqing Chang. Cadmium impairs early seedling growth, mineral and carbohydrate mobilization during the germination of rice seeds. Advanced Materials Research2014864-867243-247. 
  [15]He JY, Ren YF, Zhu C, Jiang DA.Variations in cadmium, mercury and copper accumulation among different rice cultivars in the Yangtse River Delta, China. Journal of Chemical and Pharmaceutical Research, 2013, 5(12): 49-53. ) 
  [16]Ren YF, He JY, Zhang LL. Ethylene-regulation of fruit softening and cell wall enzymes activities during peach storage. Journal of Chemical and Pharmaceutical Research, 2013, 5(12): 41-48. 
  [17]Yanfang RenJunyu He*Dong LiuYanchao ZhangHuiqing Chang. Effects of silcon on growth and cadmium accumulation by flue-cured tobacco. Advanced Materials Research20151092-1093608-612. 
  [18]Yinfei Lv, Yanfang Ren, Dong Liu, Yanchao Zhang, Junyu He*. Effects of different water managements on yield and cadmium accumulation in rice. Advanced Materials Research, 2015, 1073-1076: 248-252. 
  [19]Junyu He, Yanfang Ren, Cheng Zhu, Dean Jiang. Change of photosynthetic gas exchange and chlorophyll fluorescence of Cd-sensitive mutant rice in response to Cd stress. Advanced Materials Research, 2013, 807-809: 336-341. 
  [20]He JYRen YFPan XBYan YPZhu CJiang DASalicylic acid alleviates the toxicity effect of cadmium on germination, seedling growth, and amylase activity of rice. Journal of Plant Nutrition and Soil Science, 2010, 173(2): 300-305. 
  [21]He JY, Ren YF, Wang FJ, Pan XB, Zhu C, Jiang DA. Characterization of cadmium uptake and translocation in a cadmium-sensitive mutant of rice (Oryza sativa L. ssp. japonica). Arch Environ Contam Toxicol2009, 57(2): 299-306. 
  [22]HE JY, REN YF, ZHU C, YAN YP, JIANG DA. Effect of Cd on growth, photosynthetic gas exchange, and chlorophyll fluorescence of wild and Cd-sensitive mutant rice. Phoyosynthetica, 2008, 46 (3): 466-470. 
  [23]HE JunYu, ZHU Cheng, REN YanFang, YAN YuPing, CHENG Chang, JIANG DeAn, SUN ZongXiu. Uptake, subcellular distribution, and chemical forms of cadmium in wild-type and mutant rice. Pedosphere, 2008, 18(3): 371-377. 
  [24]Zhu C, Shen GM, Yan YP, He JY. Genotypic variation in grain mercury accumulation of lowland rice. Journal of Plant Nutrition and Soil Science, 2008, 171: 281-285. 
  [25]HE JY, ZHU C, REN YF, JIANG DA, SUN ZX. Root morphology and cadmium uptake kinetics of the cadmium-sensitive rice mutant. Biologia Plantarum, 2007, 51 (4): 791-794. 
  [26]Ren YF, He JY, Wang XF. Changes in activities of three enzymes degrading galactomannan during and following rice seed germination. Rice science, 2007, 14 (4): 295-301
  [27]He JY, Zhu C, Ren YF, Yan YP, Jiang DA.Genotypic variation in grain cadmium concentration of lowland rice. Journal of Plant Nutrition and Soil Science, 2006.1695: 711-716. 
  [28]Yu-ping Yan, Jun-Yu He, Cheng Zhu, Chang Cheng, Xue-Bo Pan, Zhong-Yang Sun. Accumulation of copper in brown rice and effect of copper on rice growth and grain yield in different rice cultivars.Chemosphere, 2006, 65(10): 1690-1696. 




主要科研项目:
[1]国家自然科学基金,NO和H2O2互作在水稻根系响应镉胁迫中的作用及机制(31460100)
[2]国家自然科学基金,不同水分管理对贵州喀斯特山区水稻土镉形态及水稻镉积累的影响机制(41261095)
[3]国家自然科学基金,一氧化氮介导水稻耐镉胁迫的作用机制研究(40901260)
[4]贵州省自然科学基金,不同缓控释氮肥及灌溉方式对稻田氧化亚氮排放的影响(黔科合J字〔2012〕2144号)
[5]湖南中烟有限责任公司,提高烟叶安全性研究
[6]贵州省优秀科技教育人才省长专项基金,黔中地区无公害茶园土壤改良和施肥技术体系研究(黔省专合字(2008)5号)
[7]贵州省委组织部“科技兴村行动”项目,丹寨村特色农业综合开发(黔组通〔2008〕200866号)
[8]贵州省自然科学基金,水杨酸在水稻抗重金属镉诱导中的作用及信号转导(黔科合J字〔
20072058号)

[9]农业部植物营养与养分循环重点开放实验室开放基金,谷胱甘肽在水稻耐镉胁迫中的作用及调控
[10]贵州省烟草公司铜仁地区公司,铜仁地区烟地连作障碍机理研究与修复(贵铜烟2009[13])
[11]贵州省科技厅创新人才团队建设项目,贵州省土壤水肥调控与农业环境污染防治科技创新人才团队(黔科合人才团代(2013)4020
[12]973计划子课题,重金属在土壤-植物系统中的迁移、转化积累规律与农产品安全(2002CB410804)
[13]国家自然科学基金,植物螯合肽在Cd敏感型和耐性型水稻突变体中的作用与调控(30671255)
[14]贵州省自然科学基金,果柄离区甘露聚糖酶基因的克隆及其在脱落过程中的表达(黔科合J字〔
20072053号)

[15]科技部农业科技成果转化资金项目,贵农19号小麦品种良种繁育及示范推广(2010GB2F200429)
[16]农业部948项目,岩溶地区效益植(作)物节水灌溉技术的引进与再创新,(2010-Z53)
[17]贵州省农业厅动植物育种专项项目,贵农18号优质小麦新品种良种繁育及高产保优栽培技术研究与示范(黔农育专字〔2008〕002号)
[18]贵州省科技厅成果推广计划,贵农19号高产优质小麦新品种大面积推广应用(黔科合成字〔2008〕5022号)

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