姜亦巍，教授，博士生导师

单位: 北京林业大学草业与草原学院

地址：北京市海淀区清华东路35号8号楼，100083

邮箱：yjiang@bjfu.edu.cn

研究方向：草类植物抗逆生理、分子及遗传机制。主要研究内容为利用高通量表型平台评价草种质资源农艺性状和抗逆性、整合全基因组关联分析和全基因预测筛选关键分子标记、多组学技术鉴定抗性基因及基因功能验证等。

教育经历：

1998/08-2001/05，美国堪萨斯州立大学（Kansas State University）,博士

1989/09-1992/06，沈阳农业大学，硕士

1985/09-1989/06，内蒙古农业大学，学士

工作经历：

2024/07至今， 北京林业大学草业与草原学院，教授,博士生导师

2016/08-2024/06，美国普渡大学（Purdue University）, 教授，博士生导师

2011/08-2016/07, 美国普渡大学，副教授，博士生导师

2005/01-2011/07, 美国普渡大学，助理教授，博士生导师

2001/05-2004/12，美国佐治亚大学 (University of Georgia），博士后

1992/07-1997/07，北京市农林科学院蔬菜研究中心，助理研究员

主要荣誉：

2024-至今，国家海外高层次引进人才

2020-2023，中国农业大学客座教授

2018， 美国农学会腾头农业科学奖

2014-2017, 天津市高层次人才

2014-2017，兰州大学客座教授

2013-2016，山西省高层次人才

学术兼职：

2020-至今，Grass Research 副主编

2023， 美国农业部项目草坪与遗传组评审主席

2014-2019, Crop Science 副主编

2017-2018, Frontiers in Plant Science, 专题编辑

2014-2015，中国国家自然基金重点项目海外评审专家

2014， 美国能源部生物能源原料基因组学项目评审专家

2013-2014 International Turfgrass Society Research Journal副主编

部分主持项目：

美国农业部农业植物生理学项目：多年生黑麦草耐低氮的生理和遗传机理，2023-2027，主持 (已移交合作者)。

普渡大学中西部草坪基金会项目: 草坪草逆境生理机制，2006-2022，主持。

美国能源部物能源原料基因组学项目：柳枝稷开花的遗传调控机理，2013-2018，主持。

中国海外及港澳学者合作研究基金项目：结缕草候选基因与耐旱性的关联作图分析，2013-2015，主持。

O.J.Noer 基金会项目：抗氧化基因和植物对多种非生物胁迫耐受性的关联分析，2011-2014，主持。

美国高尔夫球协会项目：多年生黑麦草耐旱性状与候选基因关联分析，2007-2010，主持。

TORO公司项目：利用冠层温度和光谱反射指导的草坪干旱管理， 2006-2008，主持。

发表论文（* 通讯作者）：

1. Cao, Y., X. Zhao, G. Nie, Z-Y. Wang, X. Song, M-X. Zhang, J-P. Hu, Q. Zhao, Y. Jiang*, and J-L.Zhang*. 2024. Perennialryegrass germplasms differing in salt tolerance recruit specific rhizosphere and endophytic bacteria associated with root exudate changes under salt stress. Science of the Total Environment, 916: 170205.

2. Zhao, X., Y. Cao, L. Shao, J. Zhang, J. Cui, J. Shu, J. Wang, M. Huang, J. Gao, X. Wang, X. Li, G. Xing, S. Hou, Y. Jiang*, and Y. Han*. 2024. Integration of genome-wide association and genomic prediction for dissecting seed protein and amino acid in foxtail millet. Field Crop Research, 310: 109344.

3. Sun, X., W. Ding, Y.Jiang, Y. Zhu, X. Li, J. Cui, and J. Fu. 2024. Morphology, photosynthetic and molecular mechanisms associated with powdery mildew resistance in Kentucky bluegrass. Physiologia Plantarum, 176: e14186.

4. Zeng, H., K. Yi, S.Yang, Y.Jiang, P. Mao, Y. Yua, Y. Feng, Y. Dong, L. Dou, and M. Li. 2024. Photosynthetic performance of glumes of oat spikelets is more stable for grain-filling stage under drought stress. Plant Physiology and Biochemistry, 214: 208890.

5. Jiang*, Y. 2023. Exogenous gamma-aminobutyric acid and nitric oxide mitigates abiotic stress in turfgrass species. Grass Research, 3: 3.

6. Shang, P., B. Shen, B. Zeng, L. Bi, M. Qu, Y. Zheng, Y. Ye, W. Li, X. Zhou, X. Yang, Y. Jiang*, and B. Zeng*. 2023. Integrated transcriptomic and metabolomics analysis of the root responses of orchardgrass to submergence stress. International Journal of Molecular Sciences, 24: 2089.

7. Liao, Z., H. Ghanizadeh, X. Zhang, H. Yang, Y. Zhou, L. Huang, X. Zhang, Y. Jiang*, and G. Nie*. 2023. Exogenous methyl jasmonate mediated MiRNA-mRNA network improves heat tolerance of perennial ryegrass. International Journal of Molecular Sciences, 24: 11085.

8. Jiang, J., Z. Guo, X. Sun, Y. Jiang, F. Xie, and Y. Chen. 2023. Role of proline in regulating turfgrass resistance to abiotic stress. Grass Research 3: 2.

9. Zhao, X., X. Sun, Y. Chen, H. Wu, Y. Jiang, F. Xie, and Y. Chen. 2023. Mining of long noncoding RNAs with target genes in response to rust based on full-length transcriptome in Kentucky bluegrass. Frontiers in Plant Science, 14: 1158035.

10.Folck, AJ., C. Bigelow, Y. Jiang, and A. Patton. 2023. Genotypic variation in germination rate, seedling vigor, and seed phenotype of Kentucky bluegrass cultivars. Crop Science, 63: 3065–3078.

11.Folck, AJ., C. Bigelow, Y. Jiang, and A. Patton. 2023. Gro-wth analysis of Kentucky bluegrass cultivars from six cla-ssification groups. Agrosystems, Geosciences & Environment,6: e20444.

12.Yi, K., J. Yue, S. Yang, Y. Jiang, H. Liu; H. Zeng, K. Wei, P. Mao, Y. Sun, L. Dou, and M. Li. 2023. Germination of aged oat seeds associated with changes in antioxidant enzyme activity and storage compounds mobilization. Physiologia Plantarum, 175: e14020.

13.Jiang*, Y. and Y. Yang. 2022. High-throughput phenotyping for plant growth and biomass yield of switchgrass under a controlled environment. Grass Research, 2: 4.

14.Tang, J., M. Li, P. Mao, and Y. Jiang*. 2022. Effects of gamma-aminobutyric acid on seed germination, ion balance and metabolic activity in perennial ryegrass under salinity stress. Journal of Plant Growth Regulation，41: 1835–1844.

15.Sun, X., F. Xie, Y, Chen, Z. Guo, L. Dong, L. Qin, J. Shi, L. Xiong, R. Yuan, W. Deng, and Y. Jiang. 2022. Glutamine synthetase gene PpGS1.1 negatively regulates the powdery mildew resistance in Kentucky bluegrass. Horticulture Research，9: uhac196.

16.Sun, X., Z. Guo, Y. Jiang, L. Qin, Z. Shi, L. Dong, L. Xiong, R. Yuan, W. Deng, H. Wu, Q. Liu, F. Xie, and Y. Chen. 2022. Differential metabolomic responses of Kentucky bluegrass cultivars to low nitrogen stress. Frontiers in Plant Science, 12: 808772.

17.Nie, G., J. Zhou, Y. Jiang, J. He, Y. Wang, Z. Liao, C. Appiah, D. Li, G. Feng, L. Huang, X. Wang, X. Zhang. 2022. T-ranscriptome characterization of candidate genes for heat tolerance in perennial ryegrass after exogenous methyl ja-s-monate application. BMC Plant Biology, 22: 68.

18.Powlen, J.S., A.J. Patton, Y. Jiang, M.L. Fraser, and C.A. Bigelow. 2022. Response of drought susceptible and resistant Kentucky bluegrass and tall fescue cultivars and mixtures to limited irrigation. Crop Science, 62: 2024-2034.

19.Zhang, D., J. Tang, K. Wei, S. Jia, Y. Jiang, H. Cai, P. Mao, and M. Li. 2022. Physiological and molecular responses of Zoysia japonica to rust infection. International Journal of Molecular Sciences, 23: 4185.

20.Jiang, X., T. Yang, F. Zhang, X. Yang, C. Yang, F. He, R. Long, T. Gao, Y. Jiang, Q. Yang, Z. Wang, and J. Kang. 2022. RAD-seq-based high-density linkage maps construction and quantitative trait loci mapping of flowering time trait in alfalfa ( Medicago sativa L.). Frontiers in Plant Science, 13: 899681.

21.Bai, R., Y. Lin, and Y. Jiang*. 2021. Diverse genotypic variations of photosynthetic capacity, transpiration and antioxidant enzymes of lily hybrids to increasing salinity stress. Scientia Horticulturae, 280: 109939.

22.Pan, L., R. D. Dinkins, and Y. Jiang*. 2021. Plant growth, ion accumulation and antioxidant enzymes of endophyte-infected and endophyte-free tall fescue to salinity stress. Acta Physiologiae Plantarum, 43: 95.

23.Powlen, J., C. Bigelow, A. Patton, Y. Jiang, and M.L. Fraser. 2021. Minimal irrigation requirement of Kentucky bluegrass and tall fescue blends in the northern transition zone. Crop Science, 61: 2939–2948.

24.Zhao, X., G. Nie, Y.Yao, Z. Ji., J. Gao, X. Wang, and Y. Jiang*. 2020. Natural variation and genomic prediction on growth, physiological traits and nitrogen use efficiency of perennial ryegrass under low nitrogen stress. Journal of Experimental Botany, 71: 6670–6683.

25.Wang, X., M. Li, A.H. Jannasch, and Y Jiang*. 2020. Submergence stress alters fructan and hormone metabolism and gene expression in perennial ryegrass with contrasting growth habits. Environmental and Experimental Botany, 179: 104202.

26.Gan L., L. Han, S. Yin, and Y. Jiang*. 2020. Chlorophyll metabolism and gene expression in response to submergence stress and subsequent recovery in perennial ryegrass accessions differing in growth habits. Journal of Plant Physiology, 251: 153195.

27.Li, M., A.H. Jannasch, and Y. Jiang*. 2020. Growth and hormone alterations in response to heat stress in perennial ryegrass accessions differing in heat tolerance. Journal of Plant Growth Regulation, 39: 1022–1029.

28.Taylor, T., X. Zhao, M.D. Casler, and Y. Jiang*. 2020. Transcriptome profiling reveals differentially expressed genes associated with flowering time in contrasting switchgrass genotypes. Crop Science, 60: 1472–1487.

29.Luo, F., Z. Pei, H. Liu, Y. Jiang*, and S. Sun*. 2020. Genome-wide association study for architecture and bioenergy traits in diverse sorghum and sudangrass germplasm. Agronomy, 10: 1602.

30.Xu, B., J. Zhang, H. Li, Y. Jiang, H. Li, Z. Zhang, and B. Huang. 2020. Natural variation of physiological traits, molecular markers, and chlorophyll catabolic genes associated with heat tolerance in perennial ryegrass accessions. BMC Plant Biology, 20: 520.

31.Xu, C., Z. Xia, Z. Huang, C. Xia, J. Huang, M. Zha, S. Wang, M. Imran, S. Casteel, Y. Jiang and C. Zhang. 2020. Understanding the physiological and transcriptional mechanism of reproductive stage soybean in response to heat stress. Crop Breeding, Genetics and Genomics, 2: e200004.

32.Gao J., H. Qian, X. Guo, Y. Mi, J. Zhao, C. Xu, T. Zheng, M. Duan, Z. Tang, C. Lin, Z. Shen, Y. Jiang, and X. Wang. 2020. The signal peptide of Cry1Ia can improve the fluorescent intensity of eGFP and mCherry in Escherichia coli and Bacillus thuringiensis and enhance the host’s fluorescent intensity. Microbial Cell Factories, 19: 112.

33.Guo, H., Y. Wang, B. Zhang, D. Lia, J. Chen, J. Zong, J. Lia, J. Liu*, and Y. Jiang*. 2019. Association of candidate genes with drought tolerance traits in zoysiagrass germplasm. Journal of Plant Physiology, 237: 61–71.

34.Taylor, T., C-E. Tornqvist, X. Zhao, R.W. Doerge, M.D. Casler, and Y. Jiang*. 2019. Identification of quantitative trait loci for plant height, crown diameter, and plant biomass in a pseudo-F2 population of switchgrass. BioEnergy Research, 12: 267–274.

35.Ji, Z., J.J. Camberato, C. Zhang, and Y. Jiang*. 2019. Effects of 6-benzyladenine, γ-aminobutyric acid, and nitric oxide on plant growth, photochemical efficiency, and ion accumulation of perennial ryegrass cultivars to salinity stress. HortScience, 54: 1418–1422.

36.Yao, Y., C. Zhang, J.J. Camberato, and Y. Jiang*. 2019. Nitrogen and carbon contents, nitrogen use efficiency, and antioxidant responses of perennial ryegrass accessions to nitrogen deficiency. Journal of Plant Nutrition, 42: 2092–2101.

37.Cao Y, X., Zhao, Y. Liu, Y. Wang, W. Wu, Y. Jiang, C. Liao, X. Xu, S. Gao, Y. Shen, H. Lan, C. Zou, G. Pan, and H. Lin. 2019. Genome-wide identification of ZmHMAs and association of natural variation in ZmHMA2 and ZmHMA3 with leaf cadmium accumulation in maize. PeerJ, 7: e7877.

38.Taylor, M., C-E. Tornqvist, X. Zhao, P. Grabowski, R. Doerge, J. Ma, J. Volenec, J. Evans, G. P. Ramstein, M.D. Sanciangco, C. R. Buell, M.D. Casler, and Y. Jiang*. 2018. Genome-wide association study in pseudo-F2 populations of switchgrass identifies genetic loci affecting heading and anthesis dates. Frontiers in Plant Science, 9: 1250.

39.Tornqvist, C-E., M. Taylor, Y. Jiang, J. Evans, C. R. Buell, S. M. Kaeppler, and M.D. Casler. 2018. Quantitative trait locus mapping for flowering time in a lowland × upland switchgrass pseudo-F2 population. The Plant Genome, 11: 1700932.

40.Liu, M., X. Song, and Y. Jiang*. 2018. Growth, ionic response and gene expression of shoots and roots of perennial ryegrass under salinity stress. Acta Physiologiae Plantarum, 40: 112.

41.Xu, C., C. Xia, Z. Xia, X. Zhou, J. Huang, Z. Huang, Y. Liu, Y. Jiang, S. Casteel, and C. Zhang. 2018. Physiological and transcriptomic responses of reproductive stage soybean to drought stress. Plant Cell Reports, 37: 1611–1624.

42.Harre, N.T., H. Nie, Y. Jiang, and B.G. Young. 2018. Differential antioxidant enzyme activity in rapid response glyphosate-resistant Ambrosia trifida. Pest Management Science, 74: 2125–2132.

43.Zhao, X., L. Luo, Y. Cao, Y. Liu, Y. Li, W. Wu, Y. Lan, Y. Jiang, S. Gao, Z. Zhang, Y. Shen, G. Pan, and H. Lin. 2018. Genome-wide association analysis and QTL mapping reveal the genetic control of cadmium accumulation in maize leaf. BMC Genomics, 19: 91.

44.Song, X., S-M. Wang, and Y. Jiang*. 2017. Genotypic variations in plant growth and nutritional elements of perennial ryegrass accessions under salinity stress. Journal of The American Society For Horticultural Science, 142: 476–483.

45.Jiang*, Y., X. Wang, X. Yu, X. Zhao, N. Luo, Z. Pei, H. Liu, and D. F. Garvin. 2017. Quantitative traits loci associated with drought tolerance in Brachypodium distachyon. Frontiers in Plant Science, 8: 811.

46.Wang, X., Y. Jiang*, X. Zhao, X. Song, X. Xiao, Z. Pei, and H. Liu. 2017. Association of candidate genes with submergence response in perennial ryegrass. Frontiers in Plant Science, 8: 791.

47.Grabowski, P, J. Evans, C. Daum, S. Deshpande, K. Barry, M. Kennedy, G. Ramstein, S. Kaeppler, R. Buell, Y. Jiang, and M. Casler. 2017. Genome-wide associations with flowering time in switchgrass using exome-capture sequencing data. New Phytologist, 213: 154–169.

48.Yin, X., C. Zhang, X. Song, and Y. Jiang*. 2017. Interactive short-term effects of waterlogging and salinity stress on growth and carbohydrate, lipid peroxidation and nutrients in two perennial ryegrass cultivars. Journal of The American Society For Horticultural Science, 142:110–118.

49.Law, Q.D., J. M. Trappe, Y. Jiang, R. F. Turco, and A.J. Patton. 2017. Turfgrass selection and grass clippings management influence soil carbon and nitrogen dynamics. Agronomy Journal, 109: 1719–1725.

50.Luo, N., X. Yu, N. Gang, J. Liu, and Y. Jiang*. 2016. The specific peroxidase differentiates Brachypodium distachyon accessions and associates with drought tolerance traits. Annals of Botany, 118: 259–270.

51.Jiang*, Y., Y. Li, G. Nie, and H. Liu. 2016. Leaf and root growth, carbon and nitrogen contents, and gene expression of perennial ryegrass to different nitrogen supplies. Journal of The American Society For Horticultural Science, 141: 555–562.

52.Jiang*, Y., Y. Cui, Z. Pei, H. Liu, and S. Sun. 2016. Growth response and gene expression to deficit irrigation and recovery of two perennial ryegrass accessions contrasting in drought tolerance. HortScience, 51: 921–926.

53.Nie, G., L. Huang, X. Zhang, M. Taylor, Y. Jiang, X. Yu, X. Liu, X. Wang, and Y. Zhang. 2016. Marker-trait association for biomass yield of potential bio-fuel feedstock Miscanthus sinensis from Southwest China. Frontiers in Plant Science, 7: 802.

54.Liu, Q., and Y. Jiang*. 2016. Exogenous application of nitrogen and cytokinin on growth, carbohydrate, and antioxidant metabolism of creeping bentgrass after de-submergence. HortScience, 51: 1602–1606.

55.Yu, X., P.M. Pijut, S. Byrne, T. Asp, G. Bai, and Y. Jiang*. 2015. Candidate gene based association mapping of winter survival and spring regrowth in perennial ryegrass. Plant Science, 235: 37–45.

56.Liu, M. and Y. Jiang*. 2015. Genotypic variation in growth and metabolic responses of perennial ryegrass exposed to short-term waterlogging and submergence stress. Plant Physiology and Biochemistry, 95: 57–64.

57.Zong, J., Y. Gao, J. Chen, H. Guo, Y. Wang, F. Meng, Y. Jiang*, and J. Liu*. 2015. Growth and enzymatic activity of four warm-season turfgrass species exposed to waterlogging. Journal of The American Society For Horticultural Science, 140: 151–162.

58.Cui, Y., J. Wang, X. Wang, and Y. Jiang*. 2015. Phenotypic and genotypic diversity for drought tolerance among and within perennial ryegrass accessions. HortScience, 50: 1148–1154.

59.Huang, B., M. DaCosta, and Y. Jiang. 2014. Research advances in mechanisms of turfgrass tolerance to abiotic stresses: from physiology to molecular biology. Critical Reviews in Plant Sciences, 33: 141–189.

60.Wang X., Z. Yang, M. Wang, L. Meng, Y. Jiang, and Y. Han. 2014. The BRANCHING ENZYME1 gene, encoding a glycoside hydrolase family 13 protein, is required for in vitro plant regeneration in Arabidopsis. Plant Cell Tissue and Organ Culture, 117: 279–291.

61.Tang, J., X. Yu, N. Luo, F. Xiao, J.J. Camberato, and Y. Jiang*. 2013. Natural variation of salinity response, population structure and candidate genes associated with salinity tolerance in perennial ryegrass accessions. Plant, Cell & Environment, 36: 2021–2033.

62.Yu X., G. Bai, S. Liu, N. Luo, Y. Wang, D.S. Richmond, P.M. Pijut, S.A. Jackson, J. Yu, and Y. Jiang*. 2013. Association of candidate genes with drought tolerance traits in diverse perennial ryegrass accessions. Journal of Experimental Botany, 64: 1537–1551.

63.Tang, J., J.J. Camberato, X. Yu, N. Luo, and Y. Jiang*. 2013. Growth response, carbohydrate and ion accumulation of diverse perennial ryegrass accessions to increasing salinity. Scientia Horticulturae, 154: 73-81.

64.Wang, K. and Y. Jiang*. 2013. The effects of short-term excessive irrigation on growth and physiology of creeping bentgrass on sand and soil greens. International Turfgrass Society Research Journal, 12: 517–522.

65.Luo, N., X. Yu, J. Liu, and Y. Jiang*. 2012. Nucleotide diversity and linkage disequilibrium in antioxidant genes of Brachypodium distachyon. Plant Science, 197: 122–129.

66.Jiang*, Y., Y. Yao, and Y. Wang. 2012. Physiological response, cell wall components, and gene expression of switchgrass under short-term drought stress and recovery. Crop Science, 52: 2718–2727.

67.Yu, X., N. Luo, J. Yan, J. Tang, S. Liu, and Y. Jiang*. 2012. Differential growth response and carbohydrate metabolism of global collection of perennial ryegrass accessions to submergence and recovery following de-submergence. Journal of Plant Physiology, 169: 1040–1049.

68.Rutledge, J., J.J. Volenec, Y. Jiang, and Z.J. Reicher. 2012. Physiological changes in roughstalk bluegrass exposed to high temperature. Crop Science, 52: 869–878.

69.Yu, X., G. Bai, N. Luo, Z. Chen, S. Liu, J. Liu, S. Warnke, and Y. Jiang*. 2011. Association of simple sequence repeat (SSR) markers with submergence tolerance in diverse populations of perennial ryegrass. Plant Science, 180: 391–398.

70.Luo, N., J. Liu, X. Yu, and Y. Jiang*. 2011. Natural variation in drought response of Brachypodium distachyon. Physiologia Plantarum, 141: 19–29.

71.Jiang*, Y., E. Watkins, S. Liu, X. Yu, and N. Luo. 2010. Antioxidative responses and expression of candidate genes in prairie junegrass under drought stress. Journal of The American Society For Horticultural Science, 135: 303–309.

72.Liu, S. and Y. Jiang*. 2010. Identification of differentially expressed genes in perennial ryegrass under drought stress. Physiologia Plantarum, 139: 375–387.

73.Wang, Y., C.A. Bigelow, and Y. Jiang*. 2009. Ploidy level and DNA content of perennial ryegrass germplasm as determined by flow cytometry. HortScience, 44: 2049–2052.

74.Bian, S. and Y. Jiang*. 2009. Reactive oxygen species, antioxidant enzyme activities, and gene expression patterns in leaves and roots of Kentucky bluegrass in response to drought stress and recovery. Scientia Horticulturae, 120: 264–270.

75.Jiang*, Y., H. Liu, and V. Cline. 2009. Correlations of leaf relative water content, canopy temperature, and spectral reflectance in perennial ryegrass under water deficit conditions. HortScience, 44: 459–462.

76.Wang, K., S. Bian, and Y. Jiang*. 2009. Anaerobic metabolism of roots in Kentucky bluegrass in response to short-term waterlogging alone and in combination with high temperatures. Plant and Soil, 314: 221–229.

77.Wang, K. and Y. Jiang*. 2007. Waterlogging tolerance of Kentucky bluegrass cultivars. HortScience, 43: 386–390.

78.Wang, K. and Y. Jiang*. 2007. Antioxidant responses of creeping bentgrass roots to waterlogging. Crop Science, 47: 232–238.

79.Jiang*, Y. and K. Wang. 2006. Growth, physiological and an-atomical responses of creeping bentgrass cultivars to dif-ferent depths of waterlogging. Crop Science, 46: 2420–2426.

80.Jiang, Y. and R.N. Carrow. 2005. Assessment of canopy narrow-band spectral reflectance and turfgrass performance under drought stress. HortScience, 40: 242–245.

81.Jiang, Y., R.N. Carrow, and R.R. Duncan. 2005. Physiological acclimation of seashore paspalum and bermudagrass to low light. Scientia Horticulturae, 105: 101–115.

82.Jiang, Y. and R.N. Carrow. 2007. Broadband spectral reflectance models of turfgrass species and cultivars to drought stress. Crop Science, 47: 1611–1618.

83.Jiang*, Y., R.R. Duncan, and R.N. Carrow. 2004. Assessment of low light tolerance of seashore paspalum and bermudagrass. Crop Science, 44: 587–595.

84.Jiang*, Y., R.N. Carrow, and R.R. Duncan. 2003. Effects of morning and afternoon shade in combination with traffic stress on seashore paspalum. HortScience, 38: 1218–1222.

85.Jiang*, Y., R.N. Carrow, and R.R. Duncan. 2003. Correlation analysis procedures for canopy spectral reflectance data of seashore paspalum under traffic stress. Journal of The American Society For Horticultural Science, 128: 343–348.

86.Jiang, Y. and B. Huang. 2002. Protein alterations in tall fescue in response to water stress and abscisic acid. Crop Science, 42: 202–208.

87.Jiang, Y. and B. Huang. 2001. Effects of calcium on physiological responses of tall fescue and Kentucky bluegrass to drought stress. International Turfgrass Society Research Journal, 9: 297–302.

88.Jiang, Y. and B. Huang. 2001. Responses of photosynthesis and water relations to heat stress alone or in combination with drought: A comparison of tall fescue and perennial ryegrass. HortScience, 36: 682–686.

89.Jiang, Y. and B. Huang. 2001. Drought and heat stress inju-ry to two cool-season turfgrasses in relation to antioxid-ant metabolisms and lipid peroxidation. Crop Science, 41: 436–442.

90.Jiang, Y. and B. Huang. 2001. Osmotic adjustment and root growth associated with drought-preconditioning enhanced heat tolerance in Kentucky bluegrass. Crop Science, 41: 1168–1173.

91.Jiang, Y. and B. Huang. 2001. Effects of calcium on antioxidant metabolism and water relations associated with heat tolerance in two cool-season grasses. Journal of Experimental Botany, 52: 341–349.

92.Jiang, Y. and B. Huang. 2000. Effects of drought or heat stress alone and in combination on Kentucky bluegrass. Crop Science, 40: 1358–1362.