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个人简介

招生专业:生态学,作物栽培与耕作 招生方向:草地生态、种子生态、饲草抗逆生理生态、入侵生态 教育背景 2005-11--2006-04 新西兰梅西大学自然资源学院 访问学者 2003-09--2008-07 东北师范大学草地科学研究所 理学博士 1999-09--2003-07 东北师范大学生命科学学院 理学学士 工作经历 2011-01-- 中国科学院东北地理与农业生态研究所区域农业中心,副研究员 2008-11--2010-12 中国科学院植物研究所生态中心,博士后 2017-11--2018-03 美国肯塔基大学生物学院,访问学者 2013-02--2014-01 澳大利亚新南威尔士大学生物地球环境学院,访问学者 专利与奖励 吉林省自然科学学术成果奖二等奖:温度和盐胁迫条件下牧草种子的萌发模型和生理机制研究,2015,排名第一。 吉林省科学技术进步奖三等奖:吉林省草地主要野生豆科牧草资源利用与特性比较,2011,排名第四。 发明专利:张红香,向阳,周道玮. 2020. 一种中小型植物种子大批量发芽盒,中国,CN20160403210.4. 发明专利:张红香,赵明,刘召刚. 2018. 一种内蒙古天然草原补播紫花苜蓿的方法,受理号2018106393214. 主持项目 国家自然科学面上基金:北方草地植物种子功能性状的地理变异规律及环境驱动机制(2016.01-2019.12); 973项目子课题:禾-豆间混作人工草地群体构建与生产力及稳定性形成机制(2015.01-2019.08); 中科院重点部署项目专题:豆科牧草补播提升退化草地生态屏障功能的研究(2016.01-2017.12); 国家科技资源共享服务平台项目课题:东北草原区重要野生植物种质资源的采集和保存(2017.01-2017.12); 一三五规划及特色所项目专题:苏打盐碱化优质草地高效利用技术示范(2016.01-2020.12); 国家自然科学青年基金:氮沉降条件下的种子发芽和幼苗生长对策(2011.01-2013.12); 参加会议及口头报告 Zhang H, Bonser SP, Chen S-C, Hitchcock T, Moles A. (2017) Clonality-latitude relationship and the underlying mechanisms. XIX International Botanical Congress. Zhang H, Tasisa BY, Gao Y. (2017) The dominant species Stipa grandis was depressed by nitrogen deposition. The 12th International Congress of Ecology. 张红香. (2017) 种子储藏物质含量与种子萌发的关系. 第五届全国种子科学与技术学术研讨会. Zhang H, Xiang Y, Li Qiang, Zhou D. (2016) Can nitrogen addition increase salt tolerance of alfalfa and Leymus chinensis at germination and early seedling stages? Seed Ecology V. 张红香. (2012) 松嫩草原27种植物的萌发积温模型分析. 第四届全国植物繁殖生态学学术研讨会论文摘要集. 张红香. (2011) 用修正积温模型预测黑麦草和高羊茅在恒温下的发芽速率. 第二届全国种子科学与技术学术研讨会论文摘要集,38. 合作情况 与日本筑波大学Louis Irving博士有合作研究 与新西兰梅西大学Peter Kemp教授和Cory Matthew教授有合作研究 与澳大利亚新南威尔士大学Angela Moles教授有合作研究 与美国肯塔基大学Carol Baskin教授有合作研究

研究领域

种子生态学、草地生态学、植物抗逆生态,入侵生态学

近期论文

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1. Li Qiang, Zhang H*, Huang Y, Zhou D. (2020) Forage nitrogen yield and soil nitrogen in artificial grasslands with varied Medicago seedling proportion. Archives of Agronomy and Soil Science, 66 (1): 110-125. 2. Zhang H, Xiang Y, Irving LJ, Li Q, Zhou D. (2019) Nitrogen addition can improve seedling establishment of N-sensitive species in degraded saline soils. Land Degradation & Development, 30: 119-127. 3. Zhang H, Gao Y, Tasisa BY, Baskin JM, Baskin CC, Lü X, Zhou D. (2019) Divergent responses to water and nitrogen addition of three perennial bunchgrass species from variously degraded typical steppe in Inner Mongolia. Science of the Total Environment, 647: 1344-1350. 4. Zhang H, Tian Y, Guan B, Zhou D, Sun Z, Baskin CC. (2018) The best salt solution parameter to describe seed/seedling responses to saline and sodic salts. Plant and Soil, 426: 313-325. 5. Zhao M, Zhang H*, Yan H, Qiu L, Baskin CC. (2018) Mobilization and role of starch, protein and fat reserves during seed germination of six wild grassland species. Frontiers in Plant Science, 9: 234. 6. Zhang H, Bonser SP, Chen SC, Hitchcock T, Moles AT. (2018) Is the proportion of clonal species higher at higher latitudes in Australia? Austral Ecology, 43: 69-75. 7. Zhang H, Zhang G, Lü X, Zhou D, Han X. (2015) Salt tolerance during seed germination and early seedling stages of 12 halophytes. Plant and Soil, 388: 229-241. 8. Zhang H, Tian Y, Zhou D. (2015) A modified thermal time model quantifying germination response to temperature for C3 and C4 species in temperate grassland. Agriculture, 5 (3): 412-426. 9. Zhang H, Yu Q, Huang Y, Zheng W, Tian Y, Song Y, Li G, Zhou D. (2014) Germination shifts of C3 and C4 species under simulated global warming scenario. PLoS ONE, 9: e105139. 10. Zhang H, Zhou D, Tian Y, Huang Y, Sun Z. (2013) Comparison of seed germination and early seedling growth responses to salinity and temperature of the halophyte Chloris virgata and the glycophyte Digitaria sanguinalis. Grass and Forage Science, 68: 596-604. 11. Zhang H, McGill C, Irving L, Kemp P, Zhou D. (2013) A modified thermal time model to predict germination rate of ryegrass and tall fescue at constant temperatures. Crop Science 53: 240-249. 12. Zhang H, Irving L, Tian Y, Zhou D. (2012) Influence of salinity and temperature on seed germination rate and the hydrotime model parameters for the halophyte, Chloris virgata, and the glycophyte, Digitaria sanguinalis. South African Journal of Botany 78: 203-210. 13. Zhang H, Irving L, McGill C, Matthew C, Zhou D, Kemp P. (2010) The effects of salinity and osmotic stress on barley germination rate: sodium as an osmotic regulator. Annals of Botany 106 (6): 1027-1035. 14. Zhang H, Zhou D, Matthew C, Wang P, Zheng W. (2008) Photosynthetic contribution of cotyledons in Cynoglossum divaricatum and Amaranthus retroflexus to early seedling development. New Zealand Journal of Botany 46 (1): 39-48. 15. Zhang H, Wu Y, Matthew C, Zhou D, Wang P. (2008) Contribution of cotyledons to seedling dry weight and development in Medicago falcata L. New Zealand Journal of Agricultural Research 51 (2): 107-114. 16. Zhang H, Zhou D, Wang P, Wang T, Jin Y. (2007) Germination responses of four wild species to diurnal increase or decrease in temperature. Seed Science and Technology 35 (2): 291-302. Chen SC, Cornwell WK, Zhang H, Moles AT. (2017) Plants show more flesh in the tropics: variation in fruit type along latitudinal and climatic gradients. Ecography, 40: 531-538. 17. Chen SC, Cornwell WK, Zhang H, Moles AT. (2017) Plants show more flesh in the tropics: variation in fruit type along latitudinal and climatic gradients. Ecography, 40: 531-538. 18. Moles A, et al. Zhang H, Zobel M, Bonser S. (2014) Which is a better predictor of plant traits: temperature or precipitation? Journal of Vegetation Science, 5: 1167-1180. 19. Luan Z, Xiao M, Zhou D, Zhang H, Tian Y, Wu Y, Guan B, Song Y. (2014) Effects of salinity, temperature, and polyethylene glycol on the seed germination of sunflower (Helianthus annuus L.) The Scientific World Journal, http://dx.doi.org/10.1155/2014/170418. 20. Song Y, Zhou D, Zhang H, Jin Y, Li Q. (2013) Effects of vegetation height and density on soil temperature variations. Chinese Science Bulletin, 58: 907-912.(10) 21. Tian Y, Zhang H, Wang P, Zhou D. (2012) Predicting germination response of primed and non-primed seeds of five crops under field-variable temperature. Acta Agriculturae Scandinavica, Section B-Plant Soil Science 62 (2): 172-178. 22. Huang Y, Zhao X, Zhou D, Zhang H, Zheng W. (2012) Phenotypic plasticity of early and late successional forbs in response to shifts in resources. PLoS ONE 7 (11): e50304. 23. Zheng W, Li GD, Huang YX, Zhang HX, Luan ZH, Wang P, Shao DK, Zhou DW. (2012) Compensatory growth responses of seedlings of Pharbitis purpurea (Convulvulaceae) to tissue removal at different seeding depths of seeds. Ecological Research 27 (3): 569-576. 24. Zheng W, Zhang H, Japhet W, Zhou D. (2011) Phenotypic plasticity of hypocotyl is an emergence strategy for species with different seed size in response to light and burial depth. Journal of Food, Agriculture and Environment 9 (3 & 4): 742-747. 25. Wu Y, Zhang H, Zhou D. (2011) Emergence and seedling growth of five forage legume species at various burial depth and two light levels. African Journal of Biotechnology 10 (45): 9051-9060. 26. Zheng W, Wang P, Zhang H, Zhou D. (2011) Photosynthetic characteristics of the cotyledon and first true leaf of castor (Ricinus communis L.) Australian Journal of Crop Science 5: 702-708. 27. Zheng W, Yang J, Luan Z, Wang P, Zhang H, Zhou D. (2011) Compensatory growth and photosynthetic responses of Pharbitis purpurea seedlings to clipped cotyledon and second leaf. Photosynthetica 49 (1): 21-28. 28. Japhet W, Zhou D, Jin Y, Zhang H. (2010) Phenotypic plasticity and its potential impact on grain production in two annual crop species. International Journal of Applied Biological Research 2 (2): 7-18. 29. Guan B, Zhou D, Zhang H, Tian Y, Japhet W, Wang P. (2009) Germination responses of Medicago ruthenica seeds to salinity, alkalinity, and temperature. Journal of Arid Environments 73: 135-138. 30. Huang Y, Zhao X, Zhou D, Zhao H, Zhang H, Zuo X, Mao W. (2009) Allometry of Salsola collina in response to soil nutrients, water supply and population density. Nordic Journal of Botany 27: 539-547. 31. Japhet W, Zhou D, Zhang H, Zhang H, Tian Y. (2009) Evidence of phenotypic plasticity in the response of Fagopyrum esculentum to population density and sowing date. Journal of Plant Biology 52: 303-311. 32. Wang T, Zhou D, Wang P, Zhang H. (2006) Size-dependent reproductive effort in Amaranthus retroflexus: the influence of planting density and sowing date. Canadian Journal of Botany 84 (3): 1-8. 33. 田雨,赵晓晨,张红香*. (2020) 渗透引发对紫花苜蓿种子抗旱性的影响—基于水势模型分析. 生态学杂志,39 (2):684-689. 34. 刘召刚,赵明,张红香*. (2019) 补播苜蓿对呼伦贝尔天然草地生态系统的影响. 土壤与作物,8 (3):235-241. 35. 郑伟,栾志慧,张红香*,黄迎新,周道玮,范高华. (2019) 草牧业之根本—我国牧草培育现状分析与发展思考. 东北农业科学,44 (6):111-114. 36. 郑伟,栾志慧,张红香,黄迎新,周道玮. (2019) 光照强度与埋深对外来植物曼陀罗幼苗生长的影响. 生态科学,38 (5):30-37. 37. 赵晓晨,田雨,张红香. (2019) PEG引发紫花苜蓿种子的最优处理方案. 草业科学,36 (10):2549-2555. 38. 赵明,颜宏,张红香*,邱璐. (2018) 种子贮藏物质与萌发的关系研究进展. 土壤与作物,7 (2): 189-200. 39. 赵明,张红香*,颜宏,邱璐. (2018) 光照强度对六种草地植物种子萌发和幼苗生长的影响. 生态科学,37 (2): 25-34. 40. 张亮,张红香,周道玮. (2018) 中国与国外饲草育种研究现状分析. 土壤与作物,7 (3): 324-330. 41. 张红香,周道玮. (2016) 种子生态学研究现状. 草业科学,33 (11): 2221-2236. 42. 张红香,田雨,周道玮,郑伟,王敏玲. (2012) 大麦种子对盐的发芽响应模型. 植物生态学报,36 (8): 849-858. 43. 张红香,周道玮. (2009) 种子发芽生态研究. 草地学报,17 (1): 131-133. 44. 张红香,王立,周道玮,闫修民. (2007) 不同刈割时间收获后的羊草、芦苇水分和呼吸的变化. 中国草地学报,29 (6): 107-112. 45. 武祎,田雨,张红香,杨健,吴志红. (2015) 盐、碱胁迫与温度对黄花苜蓿种子发芽的影响. 草业科学,32 (11): 1847-1853. 46. 胡宗英,张红香,孙泽威. (2014) 盐碱胁迫对农牧作物种子萌发的影响研究进展. 中国种业,5: 21-23. 47. 秦峰梅,张红香,武祎,周道玮. (2010) 盐胁迫对黄花苜蓿种子萌发和幼苗生长的影响. 草业学报,19 (4): 71-78. 48. 田雨,武祎,郑伟,张红香,周道玮. (2009) 黄花苜蓿种质发芽及早期生长对NaCl胁迫的响应. 中国草地学报,31 (6): 25-29. 49. 王平,王天慧,周道玮,张红香. (2007) 植物地上竞争与地下竞争研究进展. 生态学报,27: 3469-3499.

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