编委会人员介绍
  • 姓 名: 周广胜
    性 别:
    职 称: 研究员
    单 位: 中国气象科学研究院
    简 历:
    1983.09--1987.07 南京大学大气科学系天气动力学专业本科学习
    1987.09--1990.07 中国科学院沈阳应用生态研究所生态学专业硕士研究生学习
    1990.09--1992.12 中国科学院沈阳应用生态研究所生态学专业博士研究生学习
    1993.01--1995.01 中国科学院植物研究所生物学专业博士后研究
    1995.01--1995.03 中国科学院植物研究所副研究员
    1995.03--1998.06 中国科学院植物研究所植被数量生态学开放研究实验室副主任(期间:1996.11--1997.11美国俄勒冈州立大学森林科学实验室高级访问学者、客座副教授;1997.11经中国科学院领导特批获研究员任职资格)
    1998.06--2002.06 中国科学院植物研究所植物生态学与生物多样性保育中心副主任,中国科学院植物研究所植被数量生态学开放研究实验室副主任(期间:2000.12--2001.06日本千叶大学环境遥感研究中心高级访问学者)
    2002.06--2006.06 中国科学院植物研究所植被数量生态学开放研究实验室副主任
    2006.06--2008.12 中国科学院植物研究所研究员(期间:2002.08—2008.12聘任中国气象局沈阳大气环境研究所所长;2005.06--2007.06中国气象局特聘专家)
    2008.12-- 中国气象科学研究院副院长
    主要论著
    论著
    (1) 矫梅燕主编, 周广胜, 张祖强副主编. 中国农业气象灾害及其灾损评估报告(NO.2).北京: 社会科学文献出版社. 2017.
    (2) 鲍文中, 周广胜主编, 马鹏里, 王润元, 汲玉河副主编. 甘肃农业对气候变化的适应 与风险评估报告 (No.1). 北京: 社会科学文献出版社. 2017.
    (3) 矫梅燕主编, 孙健, 张祖强, 潘建军, 胡欣, 周广胜副主编. 中国气象百科全书·气象服务卷. 气象出版社. 2016.
    论文
    • 周广胜, 周莉. 生态气象:起源、概念和展望. 科学通报, 2021,66(2021): 1-8.
    • Zhou H., Zhou G., He Q., Zhou L., Ji Y., Zhou M. Environmental explanation of maize specific leaf area under varying water stress regimes. Environmental and Experimental Botany, 171(2020):103932. (通讯作者)
    • Song X., Zhou G., He Q., Zhou H. Stomatal limitations to photosynthesis and their critical Water conditions in different growth stages of maize under water stress. Agricultural Water Management, 241(2020):106330. (通讯作者)
    • Ji Y., Zhou G., Luo T., Dan Y., Zhou L., Lv X. Variation of net primary productivity and its drivers in China’s forests during 2000 - 2018. Forest Ecosystems, 7(2020):15. (通讯作者)
    • 5. Ji Y., Zhou G., Wang S., Wang L. Prominent vegetation greening and its correlation with climatic variables in northern China. Environ Monit Assess., 192(2020):636. (通讯作者)
    • 6. Ji Y., Zhou G., Li Z., Wang S., Zhou H., Song X. Triggers of widespread dieback and mortality of poplar(Populus spp.) plantations across northern China. Journal of Arid Environments, 174(2020):104076. (通讯作者)
    • 7. Ma Q., Liu X., Li Y., Li L., Yu H., Qi M., Zhou G., Xu Z. Nitrogen deposition magnifies the sensitivity of desert steppe plant communities to large changes in precipitation. J Ecol., 108(2020): 598–610. (通讯作者)
    • 8. Jia B., Sun H., Yu W., Zhou G. Quantifying the interannual litterfall variations in China’s forest ecosystems. J Ecol., 13(2020):266–272. (通讯作者)
    • 9. Song Y., Linderholm H.W., Luo Y., Xu J., Zhou G. Climatic causes of maize production loss under global warming in Northeast China. Sustainability, 12(2020):7829. (通讯作者)
    • 10. Yu H., Xu Z., Zhou G., Shi Y. Soil carbon release responses to long-term versus short-term climatic warming in an arid ecosystem. Biogeosciences, 17(2020): 781–792. (通讯作者)
    • 11. Zhang F., Nilsson C., Xu Z., Zhou G. Evaluation of restoration approaches on the Inner Mongolian Steppe based on criteria of the Society for Ecological Restoration. Land Degrad Dev., 31(2020):285-296. (通讯作者)
    • 12. Liu X., Ma Q., Yu H., Li Y., Zhou L., He Q., Xu Z., Zhou G. Responses of plant biomass and yield component in rice, wheat, and maize to climatic warming: a meta-analysis. Planta, 252(2020):90. (通讯作者)
    • 13. Zheng Y., Zhou G., Zhuang Q., Shimizu H. Long-term elimination of grazing reverses the effects of shrub encroachment on soil and vegetation on the Ordos Plateau. Journal of Geophysical Research: Biogeosciences, 124(2020): e2019JG005439.
    • 14. Sun H., Zhou G., Xu Z., Wang Y., Liu X., Yu H., Ma Q., Jia B. Temperature sensitivity increases with decreasing soil carbon quality in forest ecosystems across northeast China. Climatic Change, 160(2020):373–384.
    • 15. Zhang Y., Tao J., Ma N., Kuang Y., Wang Z., Cheng P., Xu W., Yang W., Zhang S., Xiong C., Dong W., Xie L., Sun Y., Fu P., Zhou G., Cheng Y., Sui H. Predicting cloud condensation nuclei number concentration based on conventional measurements of aerosol properties in the North China Plain. Science of the Total Environment, 719 (2020):137473.
    • 16. 刘二华, 周广胜, 周莉, 张峰. 夏玉米不同生育期叶片和冠层含水量的遥感反演. 应用气象学报, 31(1)(2020):52-62. (通讯作者)
    • 17. 胡明新, 周广胜. 拔节期干旱和复水对春玉米物候的影响及其生理生态机制.生态学报,40(1)(2020): 274-283. (通讯作者)
    • 18. 王静, 周广胜. 中国毛葡萄和刺葡萄分布的气候适宜性. 应用生态学报, 31(1)(2020): 97-103. (通讯作者)
    • 19. 李丽纯, 周广胜, 陈惠, 杨凯. 台湾青枣在福建主产区的气候适宜度. 应用生态学报, 31(4) (2020): 1250-1258. (通讯作者)
    • 20. 麻雪艳, 周广胜, 李根. 基于阈值指标分类法的玉米营养生长阶段受旱程度分级. 中国农业气象, 41(7)(2020):446-458. (通讯作者)
    • 21. He Q., Zhou G., Lv X., Zhou M. Climatic suitability and spatial distribution for summer maize cultivation in China at 1.5 and 2.0°C global warming. Science Bulletin, 64(2019):690-697. (通讯作者)
    • 22. Ji Y., Zhou G., Wang L., Wang S., Li Z. Identifying climate risk causing maize (Zea mays L.) yield fluctuation by time‑series data. Natural Hazards, 96(2019):1213-1222. (通讯作者)
    • 23. Li Y., Song H., Zhou L., Xu Z., Zhou G. Vertical distributions of chlorophyll and nitrogen and their associations with photosynthesis under drought and rewatering regimes in a maize field. Agicultural and Forest Meteorology, 272-273(2019):40-54. (通讯作者)
    • 24. Li Y., Song H., Zhou L., Xu Z., Zhou G. Tracking chlorophyll fluorescence as an indicator of drought and rewatering across the entire leaf lifespan in a maize field. Agricultural Water Management, 211(2019):190-201. (通讯作者)
    • 25. Lv X., He Q., Zhou G. Contrasting responses of steppe Stipa ssp. to warming and precipitation variability. Ecology and Evolution, 9(2019):9061-9075. (通讯作者)
    • 26. Ren H., Zhou G. Estimating green biomass ratio with remote sensing in arid grasslands. Ecological Indicators, 98(2019):568-575. (通讯作者)
    • 27. Wang H., Zhou G., Jiang Y., Shi Y., Xu Z. Effects of elevated CO2 on Stipa baicalensis photosynthesis depend on precipitation and growth phase. Ecological Research, 34(2019):790-801. (通讯作者)
    • 28. Zhang F., Zhou G. Estimation of vegetation water content using hyperspectral vegetation indices: a comparison of crop water indicators in response to water stress treatments for summer maize. BMC Ecol., 19(2019):18. (通讯作者)
    • 29. Zhang H., Zhou G., Liu D., Wang B., Xiao D., He L. Climate-associated rice yield change in the Northeast China Plain: A simulation analysis based on CMIP5 multi-model ensemble projection. Science of the Total Environment, 666(2019):126-138. (通讯作者)
    • 30. Zhou L., Wang Y., Jia Q., Li R., Zhou M., Zhou G. Evapotranspiration over a rainfed maize field in northeast China: How are relationships between the environment and terrestrial evapotranspiration mediated by leaf area? Agricultural Water Management, 221(2019):538-546. (通讯作者)
    • 31. Zhou M., Zhou G., Lv X., Zhou L., Ji Y. Global warming from 1.5 to 2°C will lead to increase in precipitation intensity in China. International Journal of Climatology, 39(2019):2351-2361. (通讯作者)
    • 32. Hoegh-Guldberg O., Jacob D., Taylor M., Guillén Bolaños T., Bindi M., Brown S., Camilloni I. A., Diedhiou A., Djalante R., Ebi K., Engelbrecht F., Guiot J., Hijioka Y., Mehrotra S., Hope C. W., Payne A. J., Pörtner H.-O., Seneviratne S. I., Thomas A., Warren R., Zhou G. The human imperative of stabilizing global climate change at 1.5°C. Science, 365(6459) (2019): eaaw6974.
    • 33. Zhang H., Tao F., Zhou G. Potential yields, yield gaps, and optimal agronomic management practices for rice production systems in different regions of China. Agricultural Systems, 171(2019): 100-112.
    • 34. He N., Liu C., Piao S., Sack L., Xu L., Luo Q., He J., Han X., Zhou G., Zhou X., Lin Y., Yu Q., Liu S., Sun W., Niu S., Li S., Zhang J., and Yu G. Ecosystem Traits Linking Functional Traits to Macroecology. Trends in Ecology & Evolution, 34(3) (2019):200-210.
    • 35. 刘二华, 周广胜, 周莉. 不同干旱条件下夏玉米全生育期冠层吸收光合有效辐射比的高光谱遥感反演. 应用生态学报, 30(6) (2019):2021-2029. (通讯作者)
    • 36. 刘二华, 周广胜. 干旱条件下夏玉米地-气温差的影响因素及其模拟. 应用生态学报, 30(1) (2019):233-242. (通讯作者)
    • 37. 刘二华, 周广胜, 周莉. 基于文献整合的中国不同下垫面植被覆盖度模型数据集[J/OL]. 中国科学数据, 2019, 4(4). (2019-04-12). DOI: 10.11922/csdata.2018.0069.zh. (通讯作者)
    • 38. 王帆, 何奇瑾, 周广胜. 夏玉米三叶期持续干旱下不同叶位叶片含水量变化及其与光合作用的关系. 生态学报, 39(1) (2019):254-264. (通讯作者)
    • 39. 周怀林, 周广胜. 玉米叶片水分利用效率的保守性. 生态学报, 39(6) (2019):2156-2167. (通讯作者)
    • 40. 周梦子, 周广胜, 吕晓敏, 周莉, 汲玉河. 1.5和2℃升温阈值下中国温度和降水变化的预估. 气象学报, 77(4) (2019):728-744. (通讯作者)
    • 41. 谭凯炎, 周广胜, 任三学, 耿金剑. 气候变化可能不会引起我国北方冬小麦营养品质下降. 气候变化研究进展, 15(3) (2019):282-289.
    • 42. 宋贺, 蒋延玲, 许振柱, 周广胜. 玉米光合生理参数对全生育期干旱与拔节后干旱过程的响应. 生态学报, 39(7) (2019):2405-2415.
    • 43. 郑涵, 于贵瑞, 朱先进, 王秋凤, 张雷明, 陈智, 孙晓敏, 何洪林, 苏文, 王艳芬, 韩士杰, 周国逸, 赵新全, 王辉民, 欧阳竹, 张宪洲, 张扬建, 石培礼, 李英年, 赵亮, 张一平, 闫俊华, 王安志, 张军辉, 郝彦宾, 赵风华, 张法伟, 周广胜, 林光辉, 陈世苹, 刘绍民, 赵斌, 贾根锁, 张旭东, 张玉翠, 古松, 刘文兆, 李彦, 王文杰, 杨大文, 张劲松, 张志强, 赵仲辉, 周石硚, 郭海强, 沈彦俊, 徐自为, 黄辉, 孟平. 2000–2010 年中国典型陆地生态系统实际蒸散量和水分利用效率数据集 [J/OL]. 中国科学数据, 4(1)(2019). (2018-06-19). DOI: 10.11922/csdata.2018.0034.zh.
    • 44. 朱先进, 于贵瑞, 何洪林, 陈智, 王秋凤, 郑涵, 车涛, 陈世苹, 郭继勋, 古松, 韩士杰, 郝彦宾, 黄辉, 贾根锁, 李彦, 李英年, 林光辉, 孟平, 欧阳竹, 饶良懿, 石培礼, 孙春健, 吴金水, 王传宽, 王辉民, 王艳芬, 王跃思, 肖文发, 闫俊华, 杨大文, 查同刚, 张法伟, 张劲松, 张军辉, 张宪洲, 张旭东, 张一平, 赵斌, 赵风华, 赵亮, 赵新全, 赵仲辉, 周广胜, 周国逸. 2002-2010 年中国典型生态系统辐射及光能利用效率数据集[J/OL]. 中国科学数据, 4(1)(2019). (2018-07-28). DOI: 10.11922/csdata.2018.0035.zh.
    • 45. Ma X., He Q., Zhou G. Sequence of changes in maize responding to soil water deficit and related critical thresholds. Frontiers in Plant Science, 9(2018):511. (通讯作者)
    • 46. Wang Q., He Q., Zhou G. Applicability of common stomatal conductance models in maize under varying soil moisture conditions. Science of the Total Environment, 628-629(2018):141-149. (通讯作者)
    • 47. Tan K., Zhou G., Lv X., Guo J., Ren S. Combined effects of elevated temperature and CO2 enhance threat from low temperature hazard to winter wheat growth in North China. Scientific Reports, 8(1) (2018):4336. (通讯作者)
    • 48. Ji Y., Zhou G., He Q., Wang L. The effect of climate change on spring Maize (Zea mays L.) suitability across China. Sustainability, 10(2018):3804 (通讯作者)
    • 49. Lv X., Zhou G. Climatic suitability of the geographic distribution of Stipa breviflora in Chinese temperate grassland under climate change. Sustainability, 10(2018):3767. (通讯作者)
    • 50. Shi Y., Zhou G., Jiang Y., Wang H., Xu Z. Sensitive indicators of Stipa bungeana response to precipitation under ambient and elevated CO2 concentration. Int J Biometeorol., 62(2018): 141-151. (通讯作者)
    • 51. Mao L., Chen S., Zhang J., Zhou G. Altitudinal patterns of maximum plant height on the Tibetan Plateau. Journal of Plant Ecology, 11(1)(2018):1-7. (通讯作者)
    • 52. Xu Z., Zhou G., Han G., Li Y. The relationship between leaf and ecosystem CO2 exchanges in a maize field. Acta Physiologiae Plantarum, 40(2018):156.(通讯作者)
    • 53. Jia B., Xu Z., Zhou G., Yin X. Statistical characteristics of forest litterfall in China. SCIENCE CHINA Life Sciences, 61(3) (2018): 358-360. (通讯作者)
    • 54. Jia B., Zhou G. Growth characteristics of natural and planted Dahurian larch in northeast China. Earth System Science Data, 10(2018): 893-898. (通讯作者)
    • 55. Yu H., Ma Q., Liu X., Xu Z., Zhou G., Shi Y. Short-and long-term warming alters soil microbial community and relates to soil traits. Appl. Soil Ecol., 131(2018): 22-28. (通讯作者)
    • 56. Ma Q., Yu H., Liu X., Xu Z., Zhou G., Shi Y. Climatic warming shifts the soil nematode community in a desert steppe. Climatic Change, 150(2018):243-258. (通讯作者)
    • 57. Song H., Li Y., Zhou L., Xu Z., Zhou G. Maize leaf functional responses to drought episode and rewatering. Agricultural and Forest Meteorology, 249(2018):57-70. (通讯作者)
    • 58. Ren H., Zhou G., Zhang F. Using negative soil adjustment factor in soil-adjusted vegetation index (SAVI) for aboveground living biomass estimation in arid grasslands. Remote Sensing of Environment, 209(2018): 439-445.
    • 59. Ren H., Zhou G. Measuring the impacts of anthropogenic activities on Inner Mongolian temperate grasslans. Land Degradation Development, 29(2018):2942-2950
    • 60. Wang Y., Chen J., Zhou G., Shao C., Chen J., Wang Y., Song J. Predominance of precipitation event controls ecosystem CO2 exchange in an Inner Mongolian desert grassland, China. Journal of Cleaner Production, 197(2018):781-793.
    • 61. Li X., He Y., Zeng Z., Lian X., Wang X., Du M., Jia G., Li Y., Ma Y., Tang Y., Wang W., Wu Z., Yan J.,Yao Y., Ciais P., Zhang X., Zhang Y., Zhang Y., Zhou G., Piao S. Spatiotemporal pattern of terrestrial evapotranspiration in China during the past thirty years. Agricultural and Forest Meteorology, 259(2018):131-140.
    • 62. Yao Y., Li Z., Wang T., Chen A., Wang X., Du M., Jia G., Li Y. , Li H., Luo W., Ma Y., Tang Y., Wang H., Wu Z., Yan J., Zhang X., Zhang Y., Zhang Y., Zhou G., Piao S. A new estimation of China’s net ecosystem productivity based on eddy covariance measurements and a model tree ensemble approach. Agricultural and Forest Meteorology, 253-254(2018): 84-93.
    • 63. Yao Y., Wang X., Li Y., Wang T., Shen M., Du M., He H., Li Y., Luo W., Ma M., Ma Y., Tang Y., Wang H., Zhang X., Zhang Y., Zhao L., Zhou G., Piao S. Spatiotemporal pattern of gross primary productivity and its covariation with climate in China over the last thirty years. Global Change Biology, 24(2018):184-196.
    • 64. Ouyang L., Zhao P., Zhou G., Zhu L., Huang Y., Zhao X.,Ni G. Stand-scale transpiration of a Eucalyptus urophylla x Eucalyptus grandis plantation and its potential hydrological implication. Ecohydrology, 2018,11:1938
    • 65. 周广胜, 李朝生, 郭建平, 李森, 宋艳玲. WMO农业气象学委员会第17次届会(CAgM-17)及技术大会简介. 气象科技合作动态, 5(2018): 12-17.
    • 66. 石耀辉, 周广胜, 王秋玲, 麻雪艳, 冯晓钰. 夏玉米对土壤水分持续减少的响应及其转折点阈值分析. 生态学报, 38(8) (2018): 2896-2905. (通讯作者)
    • 67. 王秋玲, 周广胜. 春玉米持续干旱过程中常用气孔导度模型的比较研究. 生态学报, 38(19) (2018): 6846-6856.(通讯作者)
    • 68. 麻雪艳, 周广胜. 干旱对夏玉米苗期叶片权衡生长的影响. 生态学报, 38(5)(2018):1758-1769. (通讯作者)
    • 69. 麻雪艳, 周广胜. 夏玉米叶片气体交换参数对干旱过程的响应. 生态学报, 38(7) (2018): 2372 -2383. (通讯作者)
    • 70. 周梦子, 周广胜, 吕晓敏, 周莉, 汲玉河. 基于CMIP5耦合气候模式的1.5℃和2℃升温阈值出现时间研究. 气候变化研究进展, 14(3) (2018): 221-227. (通讯作者)
    • 71. 吕晓敏, 周广胜. 双季稻主要气象灾害研究进展. 应用气象学报, 29(4) (2018): 385-395. (通讯作者)
    • 72. 冯晓钰, 周广胜. 夏玉米叶片水分变化与光合作用和土壤水分的关系. 生态学报, 38(1) (2018): 177-185. (通讯作者)
    • 73. 张淑杰, 周广胜, 张玉书, 米娜, 孟莹, 纪瑞鹏, 蔡福, 武晋雯, 李广霞. 辽宁地区玉米耗水量与产量的关系. 干旱地区农业研究, 36(1) (2018): 244-250. (通讯作者)
    • 74. 张峰, 周广胜. 植被含水量高光谱遥感监测研究进展. 植物生态学报, 42(5) (2018):517-525. (通讯作者)
    • 75. 秦晓晨, 周广胜, 居辉, 李翔翔, 刘勤. 未来气候情景下黄淮海平原不同灌溉制度的产量补偿效应模拟. 中国农业气象, 39(4) (2018): 220-232.
    • 76. Zhang L., Zhou G., Ji Y., Bai Y. Grassland carbon budget and its driving factors of the subtropical and tropical monsoon region in China during 1961 to 2013. Scientific Reports, 7(2017):14717. (通讯作者)
    • 77. Zhang F., Zhou G. Deriving a light use efficiency estimation algorithm using in situ hyperspectral and eddy covariance measurements for a maize canopy in Northeast China. Ecology and Evolution, 7(2017):4735-4744. (通讯作者)
    • 78. Ji Y., Zhou G., Ma X., Wang Q., Liu T. Variable photosynthetic sensitivity of maize (Zea mays L.) to sunlight and temperature during drought development process. Plant Soil Environ, 63(11) (2017):505-511. (通讯作者)
    • 79. Wang H., Zhou G., Jiang Y., Shi Y., Xu Z. Photosynthetic acclimation and leaf traits of Stipa bungeana in response to elevated CO2 under five different watering conditions. Photosynthetica, 55(1)(2017):164-175. (通讯作者)
    • 80. Fang S., Qi Y., Yu W., Liang H., Han G., Li Q., Shen S., Zhou G., Shi G. Change in temperature extremes and its correlation with mean temperature in mainland China from 1960 to 2015. International Journal of Climatology, 37(2017):3910-3918. (通讯作者)
    • 81. Li R., Zhou G., Zhou L., Yang Y. Carbon budget dynamics over a rain-fed maize agricultural ecosystem in northeast China and its regulation. Open Journal of Ecology, 2017, 07(6):377-391.
    • 82. Li Y., Yang H., Wang T., MacBean N., Bacour C., Ciais P., Zhang Y., Zhou G., Piao S. Reducing the uncertainty of parameters controlling seasonal carbon and water fluxes in Chinese forests and its implication for simulated climate sensitivities. Global Biogeochemical Cycles, 31(2017): 1344 -1366.
    • 83. Zhang G., Zhou G., Chen F. Analysis of parameter sensitivity on surface heat exchange in the Noah Land Surface Model at a temperate desert steppe site in China. Journal of Meteorological Research, 31(6)(2017): 1167-1182. (通讯作者)
    • 84. 石耀辉, 周广胜, 蒋延玲, 王慧, 许振柱, 麻雪艳. 贝加尔针茅响应降水变化敏感指标及关键阈值. 生态学报, 37(8)(2017):2620-2630. (通讯作者)
    • 85. 麻雪艳, 周广胜. 夏玉米苗期主要生长指标的土壤水分临界点确定方法. 生态学杂志, 36(6) (2017):1761-1768. (通讯作者)
    • 86. 屈振江, 周广胜. 中国产区苹果越冬冻害的风险评估. 自然资源学报, 32(5) (2017):829-840. (通讯作者)
    • 87. 屈振江, 周广胜. 中国主栽猕猴桃品种的气候适宜性区划. 中国农业气象, 38(4)(2017): 257- 266. (通讯作者)
    • 88. 李耀辉, 周广胜, 袁星, 张宏升, 姚玉璧, 封国林, 王润元, 郭 铌, 张存杰, 张强, 侯威, 黄建平, 王澄海, 申双和, 李明星, 张志强, 王劲松, 张铁军, 段海霞, 张宇, 张凯, 岳平. 干旱气象科学研究--“我国北方干旱致灾过程及机理”项目概述与主要进展. 干旱气象, 25(2) (2017): 165-174.
    • 89. 吴东, 何奇瑾, 潘志华, 周广胜, 董智强, 韩国琳, 张婧婷, 赵慧, 黄蕾, 潘宇鹰, 王佳琳, 樊栋樑. 东北春玉米不同生育阶段日蒸散发模型的适用性研究. 中国农业大学学报, 22(8) (2017):18-29.
    • 90. 李义博, 宋贺, 周莉, 许振柱, 周广胜. C4植物玉米的光合-光响应曲线模拟研究. 植物生态学报, 41 (12)(2017): 1289-1300.
    • 91. 韩语轩, 房世波, 梁瀚月, 周莉, 周广胜. 基于减产概率的辽宁水稻灾害风险区划. 生态学报, 37(23)(2017):8077-8088.
    • 92. Zhang L., Zhou G., Ji Y., Bai Y. Spatiotemporal dynamic simulation of grassland carbon storage in China. Science China: Earth Sciences, 59(10)(2016):1946-1958. (通讯作者)张利, 周广胜, 汲玉河, 白永飞. 中国草地碳储量时空动态模拟研究. 中国科学:地球科学, 46(10) (2016):1392-1405. (通讯作者)
    • 93. Song X., Zhou G., Xu Z., Lv X., Wang Y. A self-photoprotection mechanism helps Stipa baicalensis adapt to future climate change. Scientific Reports, 6(2016): 25839.(通讯作者)
    • 94. Song X., Zhou G., Xu Z., Lv X. and Wang Y. Detection of photosynthetic performance of Stipa bungeana seedlings under climatic change using chlorophyll fluorescence imaging. Front. Plant Sci., 6(2016):1254. (通讯作者)
    • 95. Lv X., Zhou G., Wang Y., Song X. Sensitive indicators of zonal Stipa species to changing temperature and precipitation in Inner Mongolia grassland, China. Front. Plant Sci., 7(2016): 73. (通讯作者)
    • 96. Lv X., Zhou G., Wang Y., Song X. Effects of changing precipitation and warming on functional traits of zonal Stipa plants from Inner Mongolia grassland. J. Meteor. Res., 30 (3) (2016): 412-425. (通讯作者)
    • 97. Shi Y., Zhou G., Jiang Y., Wang H., Xu Z. Does precipitation mediate the effects of elevated CO2 on plant growth in the grass species Stipa grandis? Environmental and Experimental Botany, 131(2016):146–154.(通讯作者)
    • 98. Jiang Y., Xu Z., Zhou G., Liu T. Elevated CO2 can modify the response to a water status gradient in a steppe grass: from cell organelles to photosynthetic capacity to plant growth. BMC Plant Biology, 16(2016):157. (通讯作者)
    • 99. Jia B., Zhou G., Xu Z. Forest litterfall and its composition: a new dataset of observational data from China. Ecology, 97(5)(2016):1365. (通讯作者)
    • 100. He Q., Zhou G. Climate-associated distribution of summer maize in China from 1961 to 2010. Agriculture, Ecosystems and Environment, 232 (2016):326-335.(通讯作者)
    • 101. Fang S., Qi Y., Han G., Li Q., Zhou G. Changing trends and abrupt features of extreme temperature in mainland China from 1960 to 2010. Atmosphere, 7(2016):22.(通讯作者)
    • 102. Qu Z., Zhou G. Possible impact of climate change on the quality of apples from the major producing areas of China. Atmosphere, 7(2016):113.(通讯作者)
    • 103. Xu, Z., Hou Y., Zhang L., Liu T., Zhou G. Ecosystem responses to warming and watering in typical and desert steppes. Sci. Rep., 6(2016):34801. (通讯作者)
    • 104. Xu Z., Jiang Y., Jia B., Zhou G. Elevated-CO2 response of stomata and its dependence on environmental factors. Front. Plant Sci., 7(2016):657. (通讯作者)
    • 105. Liu T., Xu Z., Hou Y., Zhou G. Effects of warming and changing precipitation rates on soil respiration over two years in a desert steppe of northern China. Plant and Soil, 400(2016):15-27. (通讯作者)
    • 106. Xu Z., Jiang Y., Zhou G. Nitrogen cycles in terrestrial ecosystems: climate change impacts and mitigation. Environmental Reviews, 24(2016):132-143.
    • 107. Crowther T.W., Todd-Brown K.E.O., Rowe C. W., Wieder W. R., Carey J. C., Machmuller M.B., Snoek B.L., Fang S., Zhou G., Allison S. D., Blair J. M., Bridgham S. D., Burton A.J., Carrillo Y., Reich P. B., Clark J.S., Classen A.T., Dijkstra F.A., Elberling B., Emmett B.A., Estiarte M., Frey S.D., Guo J., Harte J., Jiang L., Johnson B.R., Kröel-Dulay G., Larsen K.S., Laudon H., Lavallee J.M., Luo Y., Lupascu M., Ma L. N., Marhan S., Michelsen A., Mohan J., Niu S., Pendall E., Peñuelas J., Pfeifer-Meister L., Poll C., Reinsch S., Reynolds L.L., Schmidt I.K., Sistla S., Soko N.W., Templer P.H., Treseder K.K., Welker J.M., Bradford M.A. Quantifying global soil carbon losses in response to warming. Nature, 540(2016):104-108.
    • 108. Wang H., Huo Z., Zhou G., Liao Q., Feng H., Wu L. Estimating leaf SPAD values of freeze- damaged winter wheat using continuous wavelet analysis. Plant Physiology and Biochemistry, 98(2016):39-45.
    • 109. Liu X., Chen F., Barlage M., Zhou G., Niyogi D. Noah-MP-Crop: Introducing dynamic crop growth in the Noah-MP land surface model. J. Geophys. Res. Atmos., 121(2016): 13953–13972.
    • 110. 周广胜, 何奇瑾, 汲玉河. 适应气候变化的国际行动和农业措施研究进展. 应用气象学报, 27(5)(2016):527-533.
    • 111. 周广胜, 何奇瑾. 城市内涝防治需充分预估气候变化的影响. 生态学报, 36(16)(2016): 4961-4964.
    • 112. 屈振江, 周广胜. 苹果花期冻害气象指标和风险评估. 应用气象学报, 27(4) (2016):385-395 (通讯作者)
    • 113. 屈振江, 周广胜. 中国富士苹果种植气候适宜区的年代际变化. 生态学报, 36(23)(2016): 7551-7561. (通讯作者)
    • 114. 屈振江, 周广胜. 中国富士苹果种植的气候适宜性研究. 气象学报, 74(3)(2016):379-490(通讯作者).
    • 115. 刘涛, 周广胜, 谭凯炎, 周莉. 华北地区冬小麦灌溉制度及其环境效应研究进展. 生态学报, 36(19)(2016):5979-5986.(通讯作者)
    • 116. 贾丙瑞, 周广胜, 刘永志, 蒋延玲. 中国天然林凋落物量的空间分布及其影响因子分析. 中国科学生命科学, 46(11)(2016):1304-1311. (通讯作者)
    • 117. 麻雪艳, 周广胜. 基于光合产物动态分配的玉米生物量模拟. 应用生态学报, 27(7) (2016): 2292-2300. (通讯作者)
    • 118. 王敏政, 周广胜. 基于地面遥感信息与气温的夏玉米土壤水分估算方法. 应用生态学报, 27(6)(2016):1804-1810. (通讯作者)
    • 119. 刘少军, 周广胜, 房世波. 中国橡胶种植北界. 生态学报, 36(5)(2016):1272- 1280. (通讯作者)
    • 120. 杨若子, 周广胜. 1961-2013年东北三省玉米低温冷害频率的时空动态研究. 气象科学, 36(3) (2016):311-318. (通讯作者)
    • 121. 杨若子, 周广胜. 1961-2013年东北三省玉米低温冷害强度的时空分布研究. 生态学报, 36(14) (2016):4386-4394.(通讯作者)
    • 122. 叶永昌, 周广胜, 殷晓洁. 1961-2010年间内蒙古草原植被分布和生产力变化. 生态学报, 36 (15) (2016):4718-4728. (通讯作者)
    • 123. 付旭东, 周广胜, 张新时. 浑善达克沙地风成沙―古土壤沉积序列颜色变化及其古气候意义. 第四纪地质学与全球变化, 2016, 34(1):70-78.
    • 124. 钱永兰, 毛留喜, 周广胜. 全球主要粮食作物产量变化及其气象灾害风险评估. 农业工程学报, 32(1)(2016):226-235.
    • 125. 周怀林, 王玉辉, 周广胜. 内蒙古草原火的时空动态特征研究. 草业学报, 25(4)(2016): 16-25.
    • 126. 宋贺, 于鸿莹, 陈莹婷, 许振柱, 周广胜. 北京植物园不同功能型植物叶经济谱. 应用生态学报, 27(6)(2016):1861-1869.
    • 127. 万志红, 李荣平, 周广胜, 王莹, 王婉昭, 张晓月. 锦州地区玉米农田生态系统水汽通量变化特征及其调控机制. 气象与环境学报, 32(6)(2016):155-159.
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