[1] LI P,WANG J,LIU M M,et al.Spatio-temporal Va-riation Characteristics of NDVI and Its Response to Climate on the Loess Plateau from 1985 to 2015[J].Catena,2021,203:105331.
[2] BHATT U S,WALKER D A,RAYNOLDS M K,et al.Recent Declines in Warming and Vegetation Greening Trends over Pan-Arctic Tundra[J].Remote Sensing,2013,5(9):4229-4254.
[3] 田智慧,任祖光,魏海涛.2000~2020年黄河流域植被时空演化驱动机制[J].环境科学,2022,43(2):743-751.
TIAN Zhi-hui,REN Zu-guang,WEI Hai-tao.Driving Mechanism of the Spatiotemporal Evolution of Vegetation in the Yellow River Basin from 2000 to 2020[J].Environmental Science,2022,43(2):743-751.
[4] 覃巧婷,陈建军,杨艳萍,等.黄河源植被时空变化及其对地形和气候的响应[J].中国环境科学,2021,41(8):3832-3841.
QIN Qiao-ting,CHEN Jian-jun,YANG Yan-ping,et al.Spatiotemporal Variations of Vegetation and Its Response to Topography and Climate in the Source Region of the Yellow River[J].China Environmental Science,2021,41(8):3832-3841.
[5] GAO J B,JIAO K W,WU S H.Investigating the Spatially Heterogeneous Relationships Between Climate Factors and NDVI in China During 1982 to 2013[J].Journal of Geographical Sciences,2019,29(10):1597-1609.
[6] JIANG L G,LIU Y,WU S,et al.Analyzing Ecological Environment Change and Associated Driving Factors in China Based on NDVI Time Series Data[J].Ecological Indicators,2021,129:107933.
[7] 马晓妮,任宗萍,谢梦瑶,等.砒砂岩区植被覆盖度环境驱动因子量化分析:基于地理探测器[J].生态学报,2022,42(8):3389-3399.
MA Xiao-ni,REN Zong-ping,XIE Meng-yao,et al.Quantitative Analysis of Environmental Driving Factors of Vegetation Coverage in the Pisha Sandstone Area Based on Geodetector[J].Acta Ecologica Sinica,2022,42(8):3389-3399.
[8] 颜 明,贺 莉,王随继,等.基于NDVI的1982~2012年黄河流域多时间尺度植被覆盖变化[J].中国水土保持科学,2018,16(3):86-94.
YAN Ming,HE Li,WANG Sui-ji,et al.Changing Trends of NDVI in the Yellow River Basin from 1982 to 2012 at Different Temporal Scales[J].Science of Soil and Water Conservation,2018,16(3):86-94.
[9] KARNIELI A,OHANA-LEVI N,SILVER M,et al.Spatial and Seasonal Patterns in Vegetation Growth-limiting Factors over Europe[J].Remote Sensing,2019,11(20):2406.
[10] JIA L,LI Z B,XU G C,et al.Dynamic Change of Ve-getation and Its Response to Climate and Topographic Factors in the Xijiang River Basin,China[J].Environmental Science and Pollution Research,2020,27(11):11637-11648.
[11] YANG L Q,GUAN Q Y,LIN J K,et al.Evolution of NDVI Secular Trends and Responses to Climate Change:A Perspective from Nonlinearity and Nonstationarity Characteristics[J].Remote Sensing of Environment,2021,254:112247.
[12] LIU C L,LI W L,WANG W Y,et al.Quantitative Spatial Analysis of Vegetation Dynamics and Potential Driving Factors in a Typical Alpine Region on the Northeastern Tibetan Plateau Using the Google Earth Engine[J].Catena,2021,206:105500.
[13] CHENG M,JIN J X,ZHANG J M,et al.Effect of Climate Change on Vegetation Phenology of Different Land-cover Types on the Tibetan Plateau[J].International Journal of Remote Sensing,2018,39(2):470-487.
[14] GIRARDIN M P,HOGG E H,BERNIER P Y,et al.Negative Impacts of High Temperatures on Growth of Black Spruce Forests Intensify with the Anticipated Climate Warming[J].Global Change Biology,2016,22(2):627-643.
[15] SUN H,WANG X P,FAN D Y,et al.Contrasting Vegetation Response to Climate Change Between Two Monsoon Regions in Southwest China:The Roles of Climate Condition and Vegetation Height[J].Science of the Total Environment,2021,802:149643.
[16] NAEEM S,ZHANG Y Q,ZHANG X Z,et al.Both Climate and Socioeconomic Drivers Contribute to Ve-getation Greening of the Loess Plateau[J].Science Bulletin,2021,66(12):1160-1163.
[17] TIAN F,LIU L Z,YANG J H,et al.Vegetation Greening in More Than 94% of the Yellow River Basin(YRB)Region in China During the 21st Century Caused Jointly by Warming and Anthropogenic Acti-vities[J].Ecological Indicators,2021,125(2):107-479.
[18] 木热提江·阿不拉,张晓萍,陈利利,等.基于GIMMS NDVI的黄土高原地区荒漠化时空特征分析[J].中国水土保持科学,2015,13(3):24-31.
ABLA Murat,ZHANG Xiao-ping,CHEN Li-li,et al.Spatial-temporal Distribution of Desertification on the Loess Plateau Using the GIMMS NDVl Data[J].Science of Soil and Water Conservation,2015,13(3):24-31.
[19] JIANG W G,YUAN L H,WANG W J,et al.Spatio-temporal Analysis of Vegetation Variation in the Yellow River Basin[J].Ecological Indicators,2015,51(7):117-126.
[20] ZHANG X Y,LIU K,WANG S,et al.Spatiotemporal Evolution of Ecological Vulnerability in the Yellow River Basin Under Ecological Restoration Initiatives[J].Ecological Indicators,2022,135(1/2):108586.
[21] 杜灵通,宋乃平,王 磊,等.近30a气候变暖对宁夏植被的影响[J].自然资源学报,2015,30(12):2095-2106.
DU Ling-tong,SONG Nai-ping,WANG Lei,et al.Impact of Global Warming on Vegetation Activity in Ningxia Province from 1982 to 2013[J].Journal of Natural Resources,2015,30(12):2095-2106.
[22] CUI Y P,LIU J Y,HU Y F,et al.An Analysis of Temporal Evolution of NDVI in Various Vegetation-climate Regions in Inner Mongolia,China[J].Procedia Environmental Sciences,2012,13:1989-1996.
[23] 李 程,庄大方,何剑锋,等.东西伯利亚苔原—泰加林过渡带植被遥感物候时空特征及其对气温变化的响应[J].地理学报,2021,76(7):1634-1648.
LI Cheng,ZHUANG Da-fang,HE Jian-feng,et al.Spatiotemporal Variations in Remote Sensing Pheno-logy of Vegetation and Its Responses to Temperature Change of Boreal Forest in Tundra-Taiga Transitional Zone in the Eastern Siberia[J].Acta Geographica Si-nica,2021,76(7):1634-1648.
[24] 李双双,延军平,万 佳.近10年陕甘宁黄土高原区植被覆盖时空变化特征[J].地理学报,2012,67(7):960-970.
LI Shuang-shuang,YAN Jun-ping,WAN Jia.The Spatial-temporal Changes of Vegetation Restoration on Loess Plateau in Shaanxi-Gansu-Ningxia Region[J].Acta Geographica Sinica,2012,67(7):960-970.
[25] 赖江山.生态学多元数据排序分析软件Canoco5介绍[J].生物多样性,2013,21(6):765-768.
LAI Jiang-shan.Canoco5:A New Version of an Ecological Multivariate Data Ordination Program[J].Biodiversity Science,2013,21(6):765-768.
[26] 张世雄,杨晓艳,温 静,等.山西吕梁山亚高山草甸物种多样性的时空变化格局[J].生态学报,2018,38(18):6685-6693.
ZHANG Shi-xiong,YANG Xiao-yan,WEN Jing,et al.Spatial and Temporal Patterns of Species Diversity of Subalpine Meadows in the Lvliang Mountains,Shanxi Province[J].Acta Ecologica Sinica,2018,38(18):6685-6693.
[27] 尤南山,董金玮,肖 桐,等.退耕还林还草工程对黄土高原植被总初级生产力的影响[J].地理科学,2020,40(2):315-323.
YOU Nan-shan,DONG Jin-wei,XIAO Tong,et al.The Effects of the “Grain for Green” Project on Gross Primary Productivity in the Loess Plateau[J].Scientia Geographica Sinica,2020,40(2):315-323.
[28] 安斯文.宁夏“三生”用地时空演化的驱动机制及其生态效应研究[D].银川:宁夏大学,2022.
AN Si-wen.Driving Mechanism of Spatial-temporal Evolution of Production-living-ecological Land and Its Ecological Effects in Ningxia[D].Yinchuan:Ningxia University,2022.
[29] XU Y T,LI P,PAN J J,et al.Eco-environmental Ef-fects and Spatial Heterogeneity of “Production-ecology-living” Land Use Transformation:A Case Study for Ningxia,China[J].Sustainability,2022,14(15):9659.
[30] EL-HAMID H T,WEI C Y,HAFIZ M A,et al.Ef-fects of Land Use/Land Cover and Climatic Change on the Ecosystem of North Ningxia,China[J].Arabian Journal of Geosciences,2020,13:1099.
[31] 林妍敏,南雄雄,胡志瑞,等.西北典型生态脆弱区植被覆盖度时空变化及其生态安全评价:以宁夏贺兰山为例[J].生态与农村环境学报,2022,38(5):599-608.
LIN Yan-min,NAN Xiong-xiong,HU Zhi-rui,et al.Fractional Vegetation Cover Change and Its Evaluation of Ecological Security in the Typical Vulnerable Ecological Region of Northwest China:Helan Moun-tains in Ningxia[J].Journal of Ecology and Rural Environment,2022,38(5):599-608.
[32] 徐华军.气候变化背景下宁夏冬、春小麦产量和气象灾害特征比较研究[D].北京:中国农业大学,2015.
XU Hua-jun.Comparative Study of Winter and Spring Wheat's Yield and Meteorological Disaster Characteri-stics in Ningxia Under the Background of Climate Change[D].Beijing:China Agricultural University,2015.
[33] ALBALADEJO J,MARTINEZ-MENA M,ROLDAN A,et al.Soil Degradation and Desertification Induced by Vegetation Removal in a Semiarid Environment[J].Soil Use and Management,1998,14(1):1-5.
[34] 程晓鑫,何远梅,张 岩.黄土高原植被恢复与局地气候变化的关系[J].中国水土保持科学,2018,16(4):25-33.
CHENG Xiao-xin,HE Yuan-mei,ZHANG Yan.Correlations Between Vegetation Restoration and Regio-nal Climate Change in the Loess Plateau[J].Science of Soil and Water Conservation,2018,16(4):25-33.
[35] LIU N,DING Y X,PENG S Z.Temporal Effects of Climate on Vegetation Trigger the Response Biases of Vegetation to Human Activities[J].Global Ecology and Conservation,2021,31:e1822.
[36] KLINGE M,DULAMSUREN C,ERASMI S,et al.Climate Effects on Vegetation Vitality at the Treeline of Boreal Forests of Mongolia[J].Biogeosciences,2018,15(5):1319-1333.
[37] KONG D D,ZHANG Q,SINGH V P,et al.Seasonal Vegetation Response to Climate Change in the Northern Hemisphere(1982-2013)[J].Global and Planetary Change,2016,148:1-8.
[38] CHEN A F,HE B,WANG H L,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,2015,87/88:60-66.
[39] GHEBREZGABHER M G,YANG T B,YANG X M,et al.Assessment of NDVI Variations in Responses to Climate Change in the Horn of Africa[J].The Egyptian Journal of Remote Sensing and Space Science,2020,23(3):249-261.
[40] 张晓东,朱文博,张静静,等.伏牛山地森林植被物候及其对气候变化的响应[J].地理学报,2018,73(1):41-53.
ZHANG Xiao-dong,ZHU Wen-bo,ZHANG Jing-jing,et al.Phenology of Forest Vegetation and Its Response to Climate Change in the Funiu Mountains[J].Acta Geographica Sinica,2018,73(1):41-53.
[41] DING Y X,LI Z,PENG S Z.Global Analysis of Time-lag and Accumulation Effects of Climate on Vegetation Growth[J].International Journal of Applied Ear-th Observation and Geoinformation,2020,92:102179.
[42] ZHU Z C,PIAO S L,MYNENI R B,et al.Greening of the Earth and Its Drivers[J].Nature Climate Change,2016,6(8):791-795.
[43] 孔冬冬,张 强,黄文琳,等.1982~2013年青藏高原植被物候变化及气象因素影响[J].地理学报,2017,72(1):39-52.
KONG Dong-dong,ZHANG Qiang,HUANG Wen-lin,et al.Vegetation Phenology Change in Tibetan Plateau from 1982 to 2013 and Its Related Meteorological Factors[J].Acta Geographica Sinica,2017,72(1):39-52.
[44] ZHAO M S,RUNNING S W.Drought-induced Reduction in Global Terrestrial Net Primary Production from 2000 Through 2009[J].Science,2010,329:940-943.
[45] LIU Y F,LIU Y,SHI Z H,et al.Effectiveness of Re-vegetated Forest and Grassland on Soil Erosion Control in the Semi-arid Loess Plateau[J].Catena,2020,195:104787.
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