[1] IPCC. Climate Change 2013: The Physical Science Basis. Contribution of Working Group Ⅰ to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press, 2013 [2] 张戈丽, 徐兴良, 周才平, 等. 近30年来呼伦贝尔地区草地植被变化对气候变化的响应. 地理学报, 2011, 66(1): 47-58 [Zhang G-L, Xu X-L, Zhou C-P, et al. Responses of vegetation changes to climatic variations in Hulun Buir grassland in past 30 years. Acta Geographica Sinica, 2011, 66(1): 47-58] [3] Seddon AWR, Macias-Fauria M, Long PR, et al. Sensitivity of global terrestrial ecosystems to climate variability. Nature, 2016, 53: 229-232 [4] Piao S, Mohammat A, Fang J, et al. NDVI-based increase in growth of temperate grasslands and its responses to climate changes in China. Global Environmental Change, 2006, 16: 330-348 [5] 赵茂盛, 符淙斌, 延晓冬, 等. 应用遥感数据研究中国植被生态系统与气候的关系. 地理学报, 2001, 56(3): 287-296 [Zhao M-S, Fu Z-B, Yan X-D, et al. Study on the relationship between different ecosystems and climate in China using NOAA/AVHRR data. Acta Geographica Sinica, 2001, 56(3): 287-296] [6] 孙艳玲, 郭鹏, 延晓冬, 等. 内蒙古植被覆盖变化及其与气候、人类活动的关系. 自然资源学报, 2010, 25(3): 407-414 [Sun Y-L, Guo P, Yan X-D, et al. Dynamics of vegetation cover and its relationship with climate change and human activities in Inner Mongolia. Journal of Natural Resources, 2010, 25(3): 407-414] [7] 罗玲, 王宗明, 宋开山, 等. 1982—2003年中国东北地区不同类型植被NDVI与气候因子的关系研究. 西北植物学报, 2009, 29(4): 800-808 [Luo L, Wang Z-M, Song K-S, et al. Research on the correlation between NDVI and climatic factors of different vegetations in the northeast China. Acta Botanica Boreali-Occidentalia Sinica, 2009, 29(4): 800-808] [8] 崔林丽, 史军, 杨引明, 等. 中国东部植被NDVI对气温和降水的旬响应特征. 地理学报, 2009, 64(7): 850-860 [Cui L-L, Shi J, Yang Y-M, et al. Ten-day response of vegetation NDVI to the variations of temperature and precipitation in eastern China. Acta Geographica Sinica, 2009, 64(7): 850-860] [9] Sun W, Wang Y, Fu YH, et al. Spatial heterogeneity of changes in vegetation growth and their driving forces based on satellite observations of the Yarlung Zangbo River Basin in the Tibetan Plateau. Journal of Hydrology, 2019, 574: 324-332 [10] 郭金停, 胡远满, 熊在平, 等. 中国东北多年冻土区植被生长季NDVI时空变化及其对气候变化的响应. 应用生态学报, 2017, 28(8): 2413-2422 [Guo J-T, Hu Y-M, Xiong Z-P, et al. Spatiotemporal variations of growing-season NDVI and response to climate change in permafrost zone of Northeast China. Chinese Journal of Applied Ecology, 2017, 28(8): 2413-2422] [11] 谢舒笛, 莫兴国, 胡实, 等. 三北防护林工程区植被绿度对温度和降水的响应. 地理研究, 2020, 39(1): 152-165 [Xie S-D, Mo X-G, Hu S, et al. Responses of vegetation greenness to temperature and precipitation in the Three-North Shelter Forest Program. Geographical Research, 2020, 39(1): 152-165] [12] Chuai XW, Huang XJ, Wang WJ, et al. NDVI, temperature and precipitation changes and their relationships with different vegetation types during 1998-2007 in Inner Mongolia, China. International Journal of Climatology, 2013, 33: 1696-1706 [13] 徐康, 祝从文, 何金海. 近50年环贝加尔湖区变暖对中国华北夏季降水的影响机理. 高原气象, 2011, 30(2): 309-317 [Xu K, Zhu C-W, He J-H. Impact of the surface air temperature warming around Lake Baikal on trend of summer precipitation in the past 50 years. Plateau Meteorology, 2011, 30(2): 309-317] [14] 卢乔倩, 江涛, 柳丹丽, 等. 中国不同植被覆盖类型NDVI对气温和降水的响应特征. 生态环境学报, 2020, 29(1): 23-34 [Lu Q-Q, Jiang T, Liu D-L, et al. The response characteristics of NDVI with different vegetation cover types to temperature and precipitation in China. Ecology and Environmental Sciences, 2020, 29(1): 23-34] [15] 王明月, 付俊娥, 武志涛, 等. 黄淮海流域植被指数时空变化研究 [EB/OL]. (2020-04-09) [2020-08-09]. https://kns.cnki.net/kcms/detail/detail.aspx?dbcode=CAPJ&dbname=CAPJLAST&filename=SXDR20200317001&v=4dP822xAfpFlrWCzP%25mmd2-FlhuPlhJwjQpewIAiOAJV%25mmd2BB%25mmd2F6-bY5hkv0qEwtmwSVAFSSztt [Wang M-Y, Fu J-E, Wu Z-T, et al. The spatial-temporal variations of vegetation cover in the Huang-Huai-Hai River basin [EB/OL]. (2020-04-09) [2020-08-09]. https://kns.cnki.net/kcms/detail/detail.aspx?dbcode=CAPJ&dbname=CAP-JLAST&filename=SXDR20200317001&v=4dP822xAf-pFlrWCzP%25mmd2FlhuPlhJwjQpewIAiOAJV%25mm-d2BB%25mmd2F6bY5hkv0qEwtmwSVAFSSztt] [16] 叶红, 张廷斌, 易桂花, 等. 2000—2014年黄河源区ET时空特征及其与气候因子关系. 地理学报, 2018, 73(11): 2117-2134 [Ye H, Zhang T-B, Yi G-H, et al. Spatio-temporal characteristics of evapotranspiration and its relationship with climate factors in the source region of the Yellow River from 2000 to 2014. Acta Geographica Sinica, 2018, 73(11): 2117-2134] [17] 黄海涛, 常学礼, 岳喜元, 等. 科尔沁沙地不同沙地景观区植被指数对水热因素响应. 中国沙漠, 2016, 36(1): 40-49 [Huang H-T, Chang X-L, Yue X-Y, et al. Responses of NDVI changes to air temperature and precipitation of different sandy landscape areas in the Horqin sandy land. Journal of Desert Research, 2016, 36(1): 40-49] [18] 徐满厚, 薛娴. 青藏高原高寒草甸植被特征与温度、水分因子关系. 生态学报, 2013, 33(10): 3158-3168 [Xu M-H, Xue X. Correlation among vegetation characteristics, temperature and moisture of alpine meadow in the Qinghai-Tibetan Plateau. Acta Ecologica Sinica, 2013, 33(10): 3158-3168] [19] 王新源, 连杰, 杨小鹏, 等. 玛曲县植被覆被变化及其对环境要素的响应. 生态学报, 2019, 39(3): 923-935 [Wang X-Y, Lian J, Yang X-P, et al. Variation in vegetation and its response to environmental factors in Maqu County. Acta Ecologica Sinica, 2019, 39(3): 923-935] [20] Liu X, Chen B. Climatic warming in the Tibetan Plateau during recent decades. International Journal of Climato-logy, 2000, 20: 1729-1742 [21] 孙鸿烈, 郑度, 姚檀栋, 等. 青藏高原国家生态安全屏障保护与建设. 地理学报, 2012, 67(1): 3-12 [Sun H-L, Zheng D, Yao T-D, et al. Protection and construction of the national ecological security shelter zone on Tibetan Plateau. Acta Geographica Sinica, 2012, 67(1): 3-12] [22] 张镱锂, 李炳元, 郑度. 论青藏高原范围与面积. 地理研究, 2002, 21(1): 1-8 [Zhang Y-L, Li B-Y, Zheng D. A discussion on the boundary and area of the Tibetan Plateau in China. Geographical Research, 2002, 21(1): 1-8] [23] 林振耀, 吴祥定. 青藏高原气候区划. 地理学报, 1981, 36(1): 22-32 [Lin Z-Y, Wu X-D. Climatic regionalization of the Qinghai-Xizang Plateau. Acta Geographica Sinica, 1981, 36(1): 22-32] [24] 丁明军, 张镱锂, 孙晓敏, 等. 近10年青藏高原高寒草地物候时空变化特征分析. 科学通报, 2012, 57(33): 3185-3194 [Ding M-J, Zhang Y-L, Sun X-M, et al. Spatiotemporal variation in alpine grassland phenology in the Qinghai-Tibetan Plateau from 1999 to 2009. Chinese Science Bulletin, 2012, 57(33): 3185-3194] [25] 王强, 张廷斌, 易桂花, 等. 横断山区2004—2014年植被NPP时空变化及其驱动因子. 生态学报, 2017, 37(9): 3084-3095 [Wang Q, Zhang T-B, Yi G-H, et al. Tempo-spatial variations and driving factors analysis of net primary productivity in the Hengduan Mountain area from 2004 to 2014. Acta Ecologica Sinica, 2017, 37(9): 3084-3095] [26] Sen KP. Estimates of the regression coefficient based on Kendall’s tau. Publication of the American Statistical Association, 1968, 63: 1379-1389 [27] 孙艺杰, 刘宪锋, 任志远, 等. 1960—2016年黄土高原干旱和热浪时空变化特征. 地理科学进展, 2020, 39(4): 591-601 [Sun Y-J, Liu X-F, Ren Z-Y, et al. Spatiotemporal changes of droughts and heatwaves on the Loess Plateau during 1960-2016. Progress in Geography, 2020, 39(4): 591-601] [28] Mann HB. Non-parametric test against trend. Econome-trica, 1945, 13: 245-259 [29] Kendall MG. Rank correlation methods. British Journal of Psychology, 1990, 25: 86-91 [30] 王建邦, 赵军, 李传华, 等. 2001—2015年中国植被覆盖人为影响的时空格局. 地理学报, 2019, 74(3): 504-519 [Wang J-B, Zhao J, Li C-H, et al. The spatial-temporal patterns of the impact of human activities on vegetation coverage in China from 2001 to 2015. Acta Geographica Sinica, 2019, 74(3): 504-519] [31] Tong SQ, Zhang JQ, Bao YH, et al. Analyzing vegetation dynamic trend on the Mongolian Plateau based on the Hurst exponent and influencing factors from 1982-2013. Journal of Geographical Sciences, 2018, 28: 595-610 [32] 蔡甲冰, 许迪, 刘钰, 等. 冬小麦返青后腾发量时空尺度效应的通径分析. 农业工程学报, 2011, 27(8): 69-76 [Cai J-B, Xu D, Liu Y, et al. Path analysis on spatio-temporal scaling effect of crop evapotranspiration in growing seasons for winter wheat after reviving. Tran-sactions of the Chinese Society of Agricultural Enginee-ring, 2011, 27(8): 69-76] [33] 杜家菊, 陈志伟. 使用SPSS线性回归实现通径分析的方法. 生物学通报, 2010, 45(2): 4-6 [Du J-J, Chen Z-W. SPSS linear regression was used to realize path analysis. Bulletin of Biology, 2010, 45(2): 4-6] [34] 李双成, 蔡运龙. 地理尺度转换若干问题的初步探讨. 地理研究, 2005, 24(1): 11-18 [Li S-C, Cai Y-L. Some scaling issues of geography. Geographical Research, 2005, 24(1): 11-18] [35] 牛亚菲. 青藏高原生态环境问题研究. 地理科学进展, 1999, 18(2): 163-171 [Niu Y-F. The study of environment in the Plateau of Qin-Tibet. Progress in Geography, 1999, 18(2): 163-171] [36] Peng J, Liu ZH, Liu YH. Trend analysis of vegetation dynamics in Qinghai-Tibet Plateau using Hurst exponent. Ecological Indicators, 2012, 14: 28-39 [37] 李艳芳, 孙建. 青藏高原NDVI时空变化特征研究(1982—2008). 云南农业大学学报: 自然科学, 2015, 30(5): 790-798 [Li Y-F, Sun J. Temporal and spatial variation of NDVI in Tibetan Plateau from 1982 to 2008. Journal of Yunnan Agricultural University: Natural Science, 2015, 30(5): 790-798] [38] Pang GJ, Wang XJ, Yang MX. Using the NDVI to identify variations in, and responses of, vegetation to climate change on the Tibetan Plateau from 1982 to 2012. Quaternary International, 2017, 444: 87-96 [39] 陆晴, 吴绍洪, 赵东升. 1982—2013年青藏高原高寒草地覆盖变化及与气候之间的关系. 地理科学, 2017, 37(2): 292-300 [Lu Q, Wu S-H, Zhao D-S. Variations in alpine grassland cover and its correlation with climate variables on the Qinghai-Tibet Plateau in 1982-2013. Scientia Geographica Sinica, 2017, 37(2): 292-300] [40] 韩炳宏, 周秉荣, 颜玉倩, 等. 2000—2018年间青藏高原植被覆盖变化及其与气候因素的关系分析. 草地学报, 2019, 27(6): 1651-1658 [Han B-H, Zhou B-R, Yan Y-Q, et al. Analysis of vegetation coverage change and its driving factors over Tibetan Plateau from 2000 to 2018. Acta Agrestia Sinica, 2019, 27(6): 1651-1658] [41] 卓嘎, 陈思蓉, 周兵. 青藏高原植被覆盖时空变化及其对气候因子的响应. 生态学报, 2018, 38(9): 3208-3218 [Zhuo G, Chen S-R, Zhou B. Spatio-temporal variation of vegetation coverage over the Tibetan Plateau and its responses to climatic factors. Acta Ecologica Sinica, 2018, 38(9): 3208-3218] [42] 唐见, 曹慧群, 陈进. 生态保护工程和气候变化对长江源区植被变化的影响量化. 地理学报, 2019, 74(1): 76-86 [Tang J, Cao H-Q, Chen J. Effects of ecological conservation projects and climate variations on vegetation changes in the source region of the Yangtze River. Acta Geographica Sinica, 2019, 74(1): 76-86] [43] Zhang G, Zhang Y, Dong J, et al. Green-up dates in the Tibetan Plateau have continuously advanced from 1982 to 2011. Proceedings of the National Academy of Sciences of the United States of America, 2013, 110: 4309-4314 [44] Zhang XY, Friedl MA, Schaaf CB, et al. Climate controls on vegetation phenological patterns in northern mid- and high latitudes inferred from MODIS data. Global Change Biology, 2010, 10: 1133-1145 [45] Spano D, Cesaraccio C, Duce P, et al. Phenological stages of natural species and their use as climate indicators. International Journal of Biometeorology, 1999, 42: 124-133 [46] 张江, 袁旻舒, 张婧, 等. 近30年来青藏高原高寒草地NDVI动态变化对自然及人为因子的响应. 生态学报, 2020, 40(18): 6269-6281 [Zhang J, Yuan M-S, Zhang J, et al, Responses of the NDVI of alpine grasslands on the Qinghai-Tibetan Plateau to climate change and human activities over the last 30 years. Acta Eco-logica Sinica, 2020, 40(18): 6269-6281] [47] 马海云, 张林林, 魏学琼, 等. 2000—2015年西南地区土地利用与植被覆盖的时空变化. 应用生态学报, 2021, 32(2): 618-628 [Ma H-Y, Zhang L-L, Wei X-Q, et al. Spatial and temporal changes of land use and vegetation cover in Southwest China from 2000 to 2015. Chinese Journal of Applied Ecology, 2021, 32(2): 618-628] [48] 田海静. 非气候因素引起的中国植被变化遥感诊断——以林业工程为例. 博士论文. 北京: 中国科学院遥感与数字地球研究所, 2017 [Tian H-J. Assessment of Non-climate Triggered Vegetation Trends in China from Time Series of Remotely Sensed Data: A Case Study of Government-dominated Forest Construction. PhD Thesis. Beijing: Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences, 2017] [49] Liu X, Zhu X, Pan Y, et al. Vegetation dynamics in Qinling-Daba Mountains in relation to climate factors between 2000 and 2014. Journal of Geographical Sciences, 2016, 26: 45-58 [50] 周华坤, 赵新全, 周立, 等. 青藏高原高寒草甸的植被退化与土壤退化特征研究. 草业学报, 2005, 14(3): 31-40 [Zhou H-K, Zhao X-Q, Zhou L, et al. A study on correlations between vegetation degradation and soil degradation in the ‘Alpine Meadow’ of the Qinghai-Tibetan Plateau. Acta Prataculturae Sinica, 2005, 14(3): 31-40] [51] 张镱锂, 刘林山, 王兆锋, 等. 青藏高原土地利用与覆被变化的时空特征. 科学通报, 2019, 64(27): 2865-2875 [Zhang Y-L, Liu L-S, Wang Z-F, et al. Spatial and temporal characteristics of land use and cover changes in the Tibetan Plateau. Chinese Science Bulletin, 2019, 64(27): 2865-2875] [52] Huang XL, Zhang TB, Yi GH, et al. Dynamic changes of NDVI in the growing season of the Tibetan Plateau during the past 17 years and its response to climate change. International Journal of Environmental Research and Public Health, 2019, 16: 3452 |