个人简介

博士，安徽省学术和技术带头人后备人选。近年来参与国家及省级科研项目5项，主持国家自然基金项目1项，选育乌菜、小白菜、辣椒新品种6个，获国家发明专利5件，取得省级成果3个，获安徽省科技进步二等奖奖励2项，中国园艺学会园艺科技奖1项，发表论文19篇，其中SCI论文15篇。　主讲课程：主讲《设施农业工程与科学专业英语》、《工厂化育苗原理与技术》、《无土栽培学》。

研究领域

专利1、一种延迟乌菜抽薹的方法，201610290013.6，2019/3/28，第一完成人；2、一种乌塌菜自交不亲和系的选育方法，201410783841.4，2016/6/8，第四完成人；3、一种提高乌塌菜小孢子胚胎发生率的方法，201410788526.0，2016/8/31，第四完成人；4、乌塌菜纯合自交系和细胞质雄性不育系的同步转育方法，201410788076.5 2017/1/11，第四完成人；5、一种茭白促孕茭剂及其提高茭白孕茭率和品质的方法，201410851184.2，2016/4/6，第三完成人。　科研情况：1、sHSP25响应温度胁迫及调控乌菜叶绿体膜蛋白表达的作用机理，国家自然科学青年科学基金项目， 31701910，主持人2、耐热型乌菜类囊体膜结构和性能的机理研究，安徽省自然科学基金项目，1608085QC48，主持人3、大豆耐弱光性的鉴定及其调控基因的关联作图，安徽省自然科学基金项目，第三完成人4、耐贮草莓新品种选育及种苗生产关键技术研究与示范，安徽省科技攻关项目，1604a0702038，技术负责人5、两耐一抗乌塌菜新品种区域试验与示范，国家农业技术成果转化项目，2014GB2C300018，第四完成人6、淮南市酥瓜研究项目，第二完成人

近期论文

论文论著：Yuan LY, Xie SL, Nie LB, Zheng YS, Wang J, Huang J, Zhao MR, Zhu SD, Hou JF, Chen GH, Wang CG. Comparative Proteomics Reveals Cold acclimation machinery through enhanced carbohydrate and amino acid metabolism in Wucai (Brassica Campestris L.). Plants. 2019, 8, 474Zhao MR, Yuan LY, Wang J, Xie S, Zheng Y, Nie L, Zhu S, Hou J, Chen G, Wang CG*. Transcriptome analysis reveals a positive effect of brassimosteroids on the photosynthetic capacity of wucai under low temperature. BMC Genomics, 2019, 20: 810[2] Yuan LY, Wang J, Xie S L, Zhao M R, Nie L B, Zheng Y S, Zhu S D, Hou J F, Chen G H, Wang C G. Comparative Proteomics Indicates That Redox Homeostasis Is Involved in High- and Low-Temperature Stress Tolerance in a Novel Wucai (Brassica campestris L.) Genotype. International Journal of Molecular Sciences. 2019, 20: 3760[3] Xie SL, Nie LB, Zheng YS, Wang J, Zhao MR, Zhu SD, Hou JF, Chen GH, Wang C, Yuan LY*. Comparative Proteomic Analysis Reveals That Chlorophyll Metabolism Contributes to Leaf Color Changes in Wucai (Brassica campestris L.) Responding to Cold Acclimation. Journal of Proteome Research. 2019, 18(6): 2478-2492[4] Nie L, Dai Y, Xie S, Zheng Y, Wang J, Ji Q, Zhao M, Zhu SD, Hou JF, Chen GH, Wang CG, Yuan L*. Comparative Analysis of Postharvest Antioxidant Capacity and Quality in two Wucai (Brassica Campestris L.) Genotypes. Biomed Journal of Scientific & Technical Research. 2019, 15(2)[5] Dai Y, Yuan L, Zhang S, Wang J, Xie S, Zhao M, Chen G, Sun R, Wang C. Comprehensive evaluation for cold tolerance in Wucai (Brassica campestris L) by the performance index on an absorption basis (PIabs). Agronomy. 2019, 9: 61[6] Yuan LY, Yuan YJ, Liu S, Wang J, Zhu SD, Chen GH, Hou JF, Wang CG. Influence of high temperature on photosynthesis, antioxidative capacity of chloroplast, and carbon assimilation among heat-tolerant and heat-susceptible genotypes of non-heading Chinese cabbage. Hortscience.2017, 52(11): 1464-1470.[7] Yuan LY, Tang L, Zhu SD, Hou JF, Chen GH, Liu F, Liu S, Wang CG. Influence of heat stress on leaf morphology and nitrogen-carbohydrate metabolisms in two wucai (Brassica campestris L.) genotypes. Acta Societatis Botanicorum Poloniae. 2017, 86(2):3554[8] Yuan LY, Wang CG, Liu S, Zhu SD. Effect of Zinc enrichment on growth and nutritional quality in pea sprouts. Journal of Food and Nutrition Research, 2016, 4(2): 100-107[9] Zou MQ, Yuan LY, Zhu SD, Liu S, Ge JT, Wang CG. Response of osmotic adjustment and ascorbate-glutathione cycle to heat stress in a heat-sensitive and a heat-tolerant genotype of wucai (Brassica campestris L.). Scientia Horticulturae. 2016, 211: 87-94[10] Yuan LY, Liu S, Zhu SD, Chen GH, Liu F, Zou MQ, Wang CG. Comparative response of two wucai (Brassica campestris L.) genotype to heat stress on antioxidative system and cell ultrastructure in root. Acta Physiologiae Plantrum. 2016, 38: 223[11] Yuan LY, Zhu SD, Shu S, Sun J, Guo SR. Regulation of 2,4-epibrassinolide on mineral nutrient uptake and ion distribution in Ca(NO3)2 stressed cucumber plants. Journal of Plant Physiology, 2015, 188: 29-36 Q1[12] Yuan LY, Zhu SD, Li SH, Shu S, Sun J, Guo SR. 24-epibrassinolide regulates carbohydrate metabolism and increases polyamine content in cucumber exposed to Ca(NO3)2 stress. Acta Physiologiae Plantarum, 2014, 36: 2845-2852[13] Yuan LY, Du J, Yuan YH, Shu S, Sun J, Guo SR*. Effects of 24-epibrassinolide on ascorbate-glutathione cycle and polyamine levels in cucumber roots under Ca(NO3)2 stress. Acta Physiologiae Plantarum 2013,35: 253-262[14] Yuan LY, Shu S, Sun J, Guo SR*, Tezuka T. Effects of 24-epibrassinolide on the photosynthetic characteristics, antioxidant system, and chloroplast ultrastructure in Cucumis sativus L. under Ca(NO3)2 stress. Photosynthesis Research 2012, 112:205-214 Q1[15] Yuan LY, Yuan YH, Du J, Sun J, Guo SR*. Effects of 24-epibrassinolide on nitrogen metabolism in cucumber seedlings under Ca(NO3)2 stress. Plant Physiology and Biochemistry. 2012,61:29-35 Q1[16] 袁凌云，汪承刚，黄兴学，汤玲，侯金锋，刘凡，汪龙，朱世东. 油菜素内酯对Ca(NO3)2胁迫下黄瓜叶绿体AsA-GSH循环及叶黄素稳态的影响. 园艺学报，2017,44（5）：881-890[17] 袁凌云，朱世东，苏亚，侯金锋，陈国户，汪承刚. 酥瓜连作对土壤环境及植株光合特性的影响. 安徽农业大学学报，2017,44（2）：327-332[18] 袁凌云，朱世东，刘姗，陈国户，邹明倩，葛继涛，汪承刚. 雄性不育乌塌菜新品种‘徽乌11’. 园艺学报. 2016. 43（7）：1423-1424[19] 袁凌云，苏亚，朱世东，李方霞，邹明倩，贾全苗，汪承刚. 酥瓜新品种‘淮酥3号’.园艺学报. 2016. 43（10）：2063-2064