[1] Shen M, Piao S, Jeong S J, et al. Evaporative cooling over the Tibetan Plateau induced by vegetation growth[J]. Proceedings of the National Academy of Sciences, 2015,112(30):9299-9304.
[2] Richardson A D, Keenan T F, Migliavacca M, et al. Climate change, phenology, and phenological control of vegetation feedbacks to the climate system[J]. Agricultural and Forest Meteorology, 2013,169:156-173.
[3] Myneni R B, Keeling C D, Tucker C J, et al. Increased plant growth in the northern high latitudes from 1981 to 1991[J]. Nature, 1997,386(6626):698-702.
[4] Chen A, He B, Wang H, et al. Notable shifting in the responses of vegetation activity to climate change in China[J]. Physics and Chemistry of the Earth, Parts A/B/C,2015,87:60-66.
[5] Yue S, Yang K, Lu H, et al. Distinct temperature changes between north and south sides of central-eastern Himalayas since 1970s[J]. International Journal of Climatology, 2020,40(9):4300-4308.
[6] Verrall B, Pickering C M. Alpine vegetation in the context of climate change:A global review of past research and future directions[J]. Science of the Total Environment, 2020,748:141344.
[7] Braswell B H, Schimel D S, Linder E, et al. The response of global terrestrial[J]. Ecosystems to Interannual Temperature Variability[J]. Science, 1997,278(5339):870-873.
[8] Zhou G, Wang Y. Global change and climate-vegetation classification[J]. Chinese Science Bulletin, 2000,45(7):577-585.
[9] Alo C A, Wang G. Role of dynamic vegetation in regional climate predictions over western Africa[J]. Climate dynamics, 2010,35(5):907-922.
[10] Strengers B J, Müller C, Schaeffer M, et al. Assessing 20 th century climate-vegetation feedbacks of land-use change and natural vegetation dynamics in a fully coupled vegetation-climate model[J]. International Journal of Climatology, 2010,30(13):2055-2065.
[11] Cao M, Woodward F I. Dynamic responses of terrestrial ecosystem carbon cycling to global climate change[J]. Nature, 1998,393(6682),249-252.
[12] Zhou Z, Ding Y, Shi H, et al. Analysis and prediction of vegetation dynamic changes in China:Past, present and future[J]. Ecological Indicators, 2020,117:106642.
[13] Zhang X, Wu S, Yan X, et al. A global classification of vegetation based on NDVI, rainfall and temperature[J]. International Journal of Climatology, 2017,37(5):2318-2324.
[14] Xu G, Zhang H, Chen B, et al. Changes in vegetation growth dynamics and relations with climate over China's landmass from 1982 to 2011[J]. Remote Sensing, 2014,6(4),3263-3283.
[15] Kalisa W, Igbawua T, Henchiri M, et al. Assessment of climate impact on vegetation dynamics over East Africa from 1982 to 2015[J]. Scientific Reports, 2019,9(1):1-20.
[16] Fang J, Piao S, He J, et al. Increasing terrestrial vegetation activity in China, 1982—1999[J]. Science in China Series C:Life Sciences, 2004,47(3):229-240.
[17] Kong D, Miao C, Wu J, et al. Time lag of vegetation growth on the Loess Plateau in response to climate factors: Estimation, distribution, and influence[J]. Science of the Total Environment, 2020,744:140726.
[18] Peng J, Liu Z, Liu Y, et al. Trend analysis of vegetation dynamics in Qinghai-Tibet Plateau using Hurst Exponent[J]. Ecological Indicators, 2012,14(1):28-39.
[19] Fabricante I, Oesterheld M, Paruelo J. Annual and seasonal variation of NDVI explained by current and previous precipitation across Northern Patagonia[J]. Journal of Arid Environments, 2009,73(8):745-753.
[20] Yuke Z. Characterizing the spatio-temporal dynamics and variability in climate extremes over the Tibetan plateau during 1960-2012[J]. Journal of Resources and Ecology, 2019,10(4):397-414.
[21] Chen J, Yan F, Lu Q. Spatiotemporal variation of vegetation on the Qinghai-Tibet Plateau and the influence of climatic factors and human activities on vegetation trend(2000-2019)[J]. Remote Sensing, 2020,12(19):3150.
[22] Yang Y H, Piao S L. Variations in grassland vegetation cover in relation to climatic factors on the Tibetan Plateau[J]. Chinese Journal of Plant Ecology, 2006,30(1):1-8.
[23] Feng S, Tang M, Wang D. New evidence for the Qinghai-Xizang(Tibet)Plateau as a pilot region of climatic fluctuation in China[J]. Chinese Science Bulletin, 1998,43(20):1745-1749.
[24] Liu X, Yin Z Y. Sensitivity of East Asian monsoon climate to the uplift of the Tibetan Plateau[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 2002,183(3/4):223-245.
[25] 王塞,王思诗,樊风雷.基于时间序列分割算法的雅鲁藏布江流域(1985—2018)研究[J].生态学报,2020,40(19):6863-6871.
[26] 李磊磊,范建容,张茜彧,等.西藏自治区植被与气候变化的关系[J].山地学报,2017,35(1):9-15. DOI:10,16089/j.cnki,1008-2786.000190.
[27] Zhang X, Du X, Hong J, et al. Effects of climate change on the growing season of alpine grassland in Northern Tibet, China[J]. Global Ecology and Conservation, 2020,23:e01126.
[28] 陈颖锋,彭培好.珠穆朗玛峰自然保护区地层地貌与植被覆盖变化关系的研究[J].水土保持研究,2012,19(2):91-94.
[29] 李秦.珠峰保护区晚中新世以来的古植被与古气候研究[D].成都:成都理工大学,2018.
[30] Saleem A, Awange J L, Kuhn M, et al. Impacts of extreme climate on Australia's green cover(2003—2018):A MODIS and mascon probe[J]. Science of the Total Environment, 2021,766:142567.
[31] Peng S, Ding Y, Liu W, et al.1 km monthly temperature and precipitation dataset for China from 1901 to 2017[J]. Earth System Science Data, 2019,11(4):1931-1946.
[32] Yuan J, Bian Z, Yan Q, et al. Spatio-temporal distributions of the land use efficiency coupling coordination degree in mining cities of western China[J]. Sustainability, 2019,11(19):5288.
[33] Wan Z, Gao W. Changes in urban vegetation cover and analysis of the influencing factors:a case study of Harbin, Heilongjiang Province, China[J]. Arabian Journal of Geosciences, 2020,13(19):1-12.
[34] Qiao Y, Chen H, Jiang Y. Quantifying the impacts of lithology on vegetation restoration using a random forest model in a karst trough valley, China[J]. Ecological Engineering, 2020,156:105973.
[35] Liu Z, Wang H, Li N, et al. Spatial and Temporal Characteristics and Driving Forces of Vegetation Changes in the Huaihe River Basin from 2003 to 2018[J]. Sustainability, 2020,12(6):2198.
[36] Yan X, Li J, Shao Y, et al. Driving forces of grassland vegetation changes in Chen Barag Banner, Inner Mongolia[J]. Giscience & Remote Sensing, 2020,57(6):753-769.
[37] Linn R L, Werts C E. Assumptions in making causal inferences from part correlations, partal correlations, and partial regression coefficients[J]. Psychological Bulletin, 1969,72(5):307-310.
[38] Tian M, Zhou J, Jia B, et al. Impact of three gorges reservoir water impoundment on vegetation-climate response relationship[J]. Remote Sensing, 2020,12(17):2860.
[39] Zhang P, Cai Y, Yang W, et al. Contributions of climatic and anthropogenic drivers to vegetation dynamics indicated by NDVI in a large dam-reservoir-river system[J]. Journal of Cleaner Production, 2020,256:120477.
[40] Hurst H E. Long-term storage capacity of reservoirs[J]. Transactions of the American Society of Civil Engineers, 1951,116(1):770-799.
[41] Wang Y Z, Li B, Wang R Q, et al. Application of the Hurst exponent in ecology[J]. Computers & Mathematics with Applications, 2011,61(8):2129-2131.
[42] Barunik J, Kristoufek L. On Hurst exponent estimation under heavy-tailed distributions[J]. Physica A: Statistical Mechanics and its Applications, 2010, 389(18): 3844-3855.
[43] 聂勇,刘林山,张镱锂,等.1982—2009年珠穆朗玛峰自然保护区植被指数变化[J].地理科学进展,2012,31(7):895-903.
[44] 马飞,李景吉,彭培好,等.珠穆朗玛峰国家自然保护区南北坡植被覆盖变化[J].地理科学进展,2010,29(11):1427-1432.
[45] 何航,张勃,侯启,等.1982—2015年中国北方归一化植被指数(NDVI)变化特征及对气候变化的响应[J].生态与农村环境学报,2020,36(1):70-80.
[46] Chu H, Venevsky S, Wu C, et al. NDVI-based vegetation dynamics and its response to climate changes at Amur-Heilongjiang River Basin from 1982 to 2015[J]. Science of the Total Environment, 2019,650:2051-2062.
[47] 高江波,焦珂伟,吴绍洪.1982—2013年中国植被NDVI空间异质性的气候影响分析[J].地理学报,2019,74(3):534-543.
[48] Zhao X, Tan K, Zhao S, et al. Changing climate affects vegetation growth in the arid region of the northwestern China[J]. Journal of Arid Environments, 2011,75(10):946-952.
[49] 杜加强,贾尔恒·阿哈提,赵晨曦,等.1982—2012年新疆植被NDVI的动态变化及其对气候变化和人类活动的响应[J].应用生态学报,2015,26(012):3567-3578.
[50] Jiang L, Bao A, Guo H, et al. Vegetation dynamics and responses to climate change and human activities in Central Asia[J]. Science of the Total Environment, 2017,599:967-980.
[51] 阚瑷珂,王绪本,高志勇,等.2000—2007年珠峰自然保护区植被时空变化与驱动因子[J].生态环境学报,2010,19(6):1261-1271.
[1]王兮之,陆龙,梁钊雄.青海湟水流域植被覆盖度时空变化分析[J].水土保持研究,2010,17(06):172.
WANG Xi-zhi,LU Long,LIANG Zhao-xiong.Analysis on Temporal-spatial Change of Vegetation Coverage in Huangshui Watershed[J].Research of Soil and Water Conservation,2010,17(01):172.
[2]贺中华,陈晓翔,梁虹,等.基于NDVI的喀斯特水资源遥感定量监测及分析——以贵州省为例[J].水土保持研究,2012,19(03):161.
HE Zhong-hua,CHEN Xiao-xiang,LIANG Hong,et al.Quantitative Remote Sensing Monitoring and Analysis of Karst Water Resources Based on NDVI-Taking Guizhou Province as a Case[J].Research of Soil and Water Conservation,2012,19(01):161.
[3]李道峰,田英,郝芳华.基于NDVI数据的黄河流域地表植被覆盖综合分类研究[J].水土保持研究,2003,10(04):88.
LI Dao-feng,TIAN Ying,HAO Fang-hua.NDVI Data Based Study on Complex Classification of Vegetation Cover of Yellow River Basin[J].Research of Soil and Water Conservation,2003,10(01):88.
[4]程承旗,吴宁,郭仕德,等.城市热岛强度与植被覆盖关系研究的理论技术路线和北京案例分析[J].水土保持研究,2004,11(03):172.
CHENG Cheng-qi,WU Ning,GUO Shi-de,et al.A Study on the Interaction Between Urban Heat Island and Vegetation Theory, Methodology, and Case Study[J].Research of Soil and Water Conservation,2004,11(01):172.
[5]赵文武,吕一河,郭雯雯,等.陕北黄土丘陵沟壑区NDVI与气象因子的相关性分析[J].水土保持研究,2006,13(02):112.
ZHAO Wen-wu,LV Yi-he,GUO Wen-wen,et al.The Correlations Between Climatic Factors and NDVI in Hilly and Gully Area of Loess Plateau in Northern Shaanxi[J].Research of Soil and Water Conservation,2006,13(01):112.
[6]杨勤科,罗万勤,马宏斌,等.区域水土流失植被因子的遥感提取[J].水土保持研究,2006,13(05):267.
YANG Qing-ke,LUO Wan-qin,MA Hong-bin,et al.NDVI Extraction of Regional Soil Erosion Based on Remate Sensing[J].Research of Soil and Water Conservation,2006,13(01):267.
[7]李春华,沙晋明.基于知识的遥感影像的BAYES分类方法研究——以福州市琅歧岛土地覆盖/土地利用类型为例[J].水土保持研究,2006,13(06):126.
LI Chun-hua,SHA Jin-ming.Knowledge Based Bayes Image Classification Approach——Land Cover/Land Use of Fuzhuo Lanqi Island as a Study Case[J].Research of Soil and Water Conservation,2006,13(01):126.
[8]夏照华,张克斌,李瑞,等.基于NDVI的农牧交错区植被覆盖度变化研究——以宁夏盐池县为例[J].水土保持研究,2006,13(06):178.
XIA Zhao-hua,ZHANG Ke-bin,LI Rui,et al.Study on the Change of Vegetation Fraction in Agro-pastoral Transition Area Based on NDVI——A Case Study in Yanchi County, Ningxia[J].Research of Soil and Water Conservation,2006,13(01):178.
[9]罗江燕,塔西甫拉提,特依拜,等.基于表观反射率的渭-库绿洲植被动态变化分析[J].水土保持研究,2008,15(05):65.
LUO Jiang-yan,Tashpolat,Tiyip,et al.Analysis on Dynamic Change of Wei-ku Oasis Vegetation Based on Surface Reflectance[J].Research of Soil and Water Conservation,2008,15(01):65.
[10]田雷,沈毅,叶慧海,等.基于遥感技术的植被盖度动态变化在环保验收中的应用研究[J].水土保持研究,2009,16(02):107.
TIAN Lei,REN Yi,YE Hui-hai,et al.Application of Dynamic Change of Vegetation Fraction in Environmental Protection for the Check and Accept Project by Remote Sensing[J].Research of Soil and Water Conservation,2009,16(01):107.
[11]李思楠,赵筱青,谭 琨,等.孟加拉国博多河流域NDVI时空变化及其与气候因子的相关性[J].水土保持研究,2021,28(01):139.
LI Sinan,ZHAO Xiaoqing,TAN Kun,et al.Spatiotemporal Variation of NDVI and Its Relationship with Climate in Padma River Basin of Bangladesh.[J].Research of Soil and Water Conservation,2021,28(01):139.
[12]付建新.山西黄河流域不同土地利用类型NDVI时空变化及其对气温、降水的响应[J].水土保持研究,2023,30(03):364.[doi:10.13869/j.cnki.rswc.2023.03.005]
FU Jianxin.Temporal and Spatial Changes of NDVI of Different Land Covers and Their Responses to Temperature and Precipitation in the Yellow River Basin of Shanxi[J].Research of Soil and Water Conservation,2023,30(01):364.[doi:10.13869/j.cnki.rswc.2023.03.005]
[13]张 岳,孙梦鑫,辛 宇,等.2000-2020年川东地区植被NDVI变化趋势及影响因素分析[J].水土保持研究,2023,30(06):247.[doi:10.13869/j.cnki.rswc.2023.06.012]
Zhang Yue,Sun Mengxin,Xin Yu,et al.Trend and Influencing Factors of Vegetation NDVI in Eastern Sichuan from 2000 to 2020[J].Research of Soil and Water Conservation,2023,30(01):247.[doi:10.13869/j.cnki.rswc.2023.06.012]
收稿日期:2021-12-14 修回日期:2022-04-09
资助项目:国家重点研发项目“第二次青藏高原综合科学考察研究”(2019QZKK0307)
第一作者:卞梨交(1998—),女,四川乐山人,硕士研究生,环境科学与工程专业,主要从事生态环境监测与评价。E-mail:bianlijiao@163.com
通信作者:李景吉(1983—),男,江苏徐州人,博士,讲师,主要从事生物多样性与生态系统服务研究。E-mail:lijingji2014@cdut.edu.cn