This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Barbaroux C, Breda N and Dufrene E, 2003. Distribution of above-ground and below-ground carbohydrate reserves in adult trees of two contrasting broad-leaved species (Quercus petraea and Fagus sylvatica). New Phytologist 157(3): 605–615, 10.1046/j.1469-8137.2003.00681.x.BarbarouxCBredaNDufreneE2003Distribution of above-ground and below-ground carbohydrate reserves in adult trees of two contrasting broad-leaved species (Quercus petraea and Fagus sylvatica)New Phytologist157360561510.1046/j.1469-8137.2003.00681.xOpen DOISearch in Google Scholar
Beck PSA, Andreu-Hayles L, D’Arrigo R, Anchukaitis KJ, Tucker CJ, Pinzón JE and Goetz SJ, 2013. A large-scale coherent signal of canopy status in maximum latewood density of tree rings at arctic treeline in North America. Global and Planetary Change 100: 109–118, 10.1016/j.gloplacha.2012.10.005.BeckPSAAndreu-HaylesLD’ArrigoRAnchukaitisKJTuckerCJPinzónJEGoetzSJ2013A large-scale coherent signal of canopy status in maximum latewood density of tree rings at arctic treeline in North AmericaGlobal and Planetary Change10010911810.1016/j.gloplacha.2012.10.005Open DOISearch in Google Scholar
Bräuning A, 1994. Dendrochronology for the last 1400 years in Eastern Tibet. GeoJournal 34(1): 75–95, 10.1007/BF00813972.BräuningA1994Dendrochronology for the last 1400 years in Eastern TibetGeoJournal341759510.1007/BF00813972Open DOISearch in Google Scholar
Chen F, Yuan YJ, Wei WS, Wang L, Yu SL, Zhang RB, Fan ZA, Shang HM, Zhang TW and Li Y, 2012. Tree ring density-based summer temperature reconstruction for Zajsan Lake area, East Kazakhstan. International Journal of Climatology 32: 1089–1097, 10.1002/joc.2327.ChenFYuanYJWeiWSWangLYuSLZhangRBFanZAShangHMZhangTWLiY2012Tree ring density-based summer temperature reconstruction for Zajsan Lake area, East KazakhstanInternational Journal of Climatology321089109710.1002/joc.2327Open DOISearch in Google Scholar
Chen F, He Q, Bakytbek E, Yu SL and Zhang RB, 2017a. Reconstruction of a long streamflow record using tree rings in the upper Kurshab River (Pamir-Alai Mountains) and its application to water resources management. International Journal of Water Resources Development 33(6): 976–986, 10.1080/07900627.2016.1238347.ChenFHeQBakytbekEYuSLZhangRB2017aReconstruction of a long streamflow record using tree rings in the upper Kurshab River (Pamir-Alai Mountains) and its application to water resources managementInternational Journal of Water Resources Development33697698610.1080/07900627.2016.1238347Open DOISearch in Google Scholar
Chen F, Mambetov B, Maisupova B and Kelgenbayev N, 2017b. Drought variations in Almaty (Kazakhstan) since AD 1785 based on spruce tree rings. Stochastic Environmental Research and Risk Assessment 31(8): 2097–2105, 10.1007/s00477-016-1290-y.ChenFMambetovBMaisupovaBKelgenbayevN2017bDrought variations in Almaty (Kazakhstan) sincen AD, 1785 based on spruce tree ringsStochastic Environmental Research and Risk Assessment3182097210510.1007/s00477-016-1290-yOpen DOISearch in Google Scholar
Cook ER, 1985. A time-series analysis approach to tree-ring standardization. PhD dissertation, The University of Arizona.CookER1985A time-series analysis approach to tree-ring standardizationPhD dissertationThe University of ArizonaSearch in Google Scholar
Cook ER, Meko DM, Stahle DW and Cleaveland MK, 1999. Drought reconstructions for the continental United States. Journal of Climate 12(4): 1145–1162, 10.1175/1520-0442(1999)012<1145:DRFTCU>2.0.CO;2.CookERMekoDMStahleDWCleavelandMK1999Drought reconstructions for the continental United StatesJournal of Climate1241145116210.1175/1520-0442(1999)012<1145:DRFTCU>2.0.CO;2Open DOISearch in Google Scholar
Cook ER and Krusic PJ, 2005. Program ARSTAN: A Tree-Ring Standardization Program Based on Detrending and Autoregressive Time Series Modeling, with Interactive Graphics. Lamont-Doherty Earth Observatory, Columbia University, Palisades, New York.CookERKrusicPJ2005Program ARSTAN: A Tree-Ring Standardization Program Based on Detrending and Autoregressive Time Series Modeling, with Interactive GraphicsLamont-Doherty Earth ObservatoryColumbia UniversityPalisades, New YorkSearch in Google Scholar
D’Arrigo RD, Malmstrom CM, Jacoby GC, Los SO and Bunker DE, 2000. Correlation between maximum latewood density of annual tree rings and NDVI based estimates of forest productivity. International Journal of Remote Sensing 21: 2329–2336, 10.1080/01431160050029611.D’ArrigoRDMalmstromCMJacobyGCLosSOBunkerDE2000Correlation between maximum latewood density of annual tree rings and NDVI based estimates of forest productivityInternational Journal of Remote Sensing212329233610.1080/01431160050029611Open DOISearch in Google Scholar
Esper J, 2000. Long-term tree-ring variations in Juniperus at the upper timber-line in the Karakorum (Pakistan). Holocene 10: 253–260, 10.1191/095968300670152685.EsperJ2000Long-term tree-ring variations in Juniperus at the upper timber-line in the Karakorum (Pakistan)Holocene1025326010.1191/095968300670152685Open DOISearch in Google Scholar
Esper J, Shiyatov SG, Mazepa VS, Wilson RJS, Graybill DA and Funkhouser G, 2003. Temperature-sensitive Tien Shan tree ring chronologies show multi-centennial growth trends. Climate Dynamics 21: 699–706, 10.1007/s00382-003-0356-y.EsperJShiyatovSGMazepaVSWilsonRJSGraybillDAFunkhouserG2003Temperature-sensitive Tien Shan tree ring chronologies show multi-centennial growth trendsClimate Dynamics2169970610.1007/s00382-003-0356-yOpen DOISearch in Google Scholar
Esper J, Frank DC, Wilson RJS, Büntgen U and Treydte K, 2007. Uniform growth trends among central Asian low- and high-elevation juniper tree sites. Trees-Structure and Function 21: 141–150, 10.1007/s00468-006-0104-0.EsperJFrankDCWilsonRJSBüntgenUTreydteK2007Uniform growth trends among central Asian low- and high-elevation juniper tree sitesTrees-Structure and Function2114115010.1007/s00468-006-0104-0Open DOISearch in Google Scholar
Gamon JA, Kovalchuck O, Wong CYS, Harris A and Garrity SR, 2015. Monitoring seasonal and diurnal changes in photosynthetic pigments with automated PRI and NDVI sensors. Biogeosciences 12: 4149–4159, 10.5194/bgd-12-2947-2015.GamonJAKovalchuckOWongCYSHarrisAGarritySR2015Monitoring seasonal and diurnal changes in photosynthetic pigments with automated PRI, NDVI sensorsBiogeosciences124149415910.5194/bgd-12-2947-2015Open DOISearch in Google Scholar
Gou XH, Chen FH, Cook ER, Gordon J, Yang MX and Li JB, 2007. Streamflow variations of the Yellow River over the past 593 years in western China reconstructed from tree rings. Water Resources Research 43(6): 113–119, 10.1029/2006WR005705.GouXHChenFHCookERGordonJYangMXLiJB2007Streamflow variations of the Yellow River over the past 593 years in western China reconstructed from tree ringsWater Resources Research43611311910.1029/2006WR005705Open DOISearch in Google Scholar
Grissino-Mayer HD, 2001. Evaluating crossdating accuracy: a manual and tutorial for the computer program COFECHA. Tree-Ring Research 57: 205–221.Grissino-MayerHD2001Evaluating crossdating accuracy: a manual and tutorial for the computer program COFECHATree-Ring Research57205221Search in Google Scholar
He JC, Wang LL and Shao XM, 2005a. The relationships between mongolian scotch pine tree ring indices and normalized difference vegetation index in Mohe, China. Quaternary Sciences 25: 252–257 (in Chinese, with English abstract).HeJCWangLLShaoXM2005aThe relationships between mongolian scotch pine tree ring indices and normalized difference vegetation index in Mohe, ChinaQuaternary Sciences25252257(in Chinese, with English abstract)Search in Google Scholar
He JH, Liu YY and Chang Y, 2005b. Analysis of summer precipitation anomaly and the feature of water vapor transport and circulation in Northwest China. Arid Meteorology 23(1): 10–16 (in Chinese, with English abstract).HeJHLiuYYChangY2005bAnalysis of summer precipitation anomaly and the feature of water vapor transport and circulation in Northwest ChinaArid Meteorology2311016(in Chinese, with English abstract)Search in Google Scholar
He JC and Shao XM, 2006. Relationships between tree-ring width index and NDVI of grassland in Delingha. Chinese Science Bulletin 51(9): 1106–1114, 10.1007/s11434-006-1106-4.HeJCShaoXM2006Relationships between tree-ring width index and NDVI of grassland in DelinghaChinese Science Bulletin5191106111410.1007/s11434-006-1106-4Open DOISearch in Google Scholar
He Y, Yang TB, Ji Q and Chen J, 2014. Glacier shrinkage and its dependence on climate in the Central Asia Alatau region. Arid Land Geography 37(5): 908–915 (in Chinese, with English abstract).HeYYangTBJiQChenJ2014Glacier shrinkage and its dependence on climate in the Central Asia Alatau regionArid Land Geography375908915(in Chinese, with English abstract)Search in Google Scholar
Hmimina G, Dufrêne E, Pontailler JY, Delpierre N, Aubinet M, Caquet B, Grandcourt A, Burban B, Flechard C, Granier A, Gross P, Heinesch B, Longdoz B, Moureaux C, Ourcival JM, Rambal S, Saint André L and Soudani K, 2013. Evaluation of the potential of MODIS satellite data to predict vegetation phenology in different biomes: An investigation using ground-based NDVI measurements. Remote Sensing of Environment 132: 145–158, 10.1016/j.rse.2013.01.010.HmiminaGDufrêneEPontaillerJYDelpierreNAubinetMCaquetBGrandcourtABurbanBFlechardCGranierAGrossPHeineschBLongdozBMoureauxCOurcivalJMRambalSSaint AndréLSoudaniK2013Evaluation of the potential of MODIS satellite data to predict vegetation phenology in different biomes: An investigation using ground-based NDVI measurementsRemote Sensing of Environment13214515810.1016/j.rse.2013.01.010Open DOISearch in Google Scholar
Jiapaer G, Liang S, Yi Q and Liu J, 2015. Vegetation dynamics and responses to recent climate change in Xinjiang using leaf area index as an indicator. Ecological Indicators 58: 64–76, 10.1016/j.ecolind.2015.05.036.JiapaerGLiangSYiQLiuJ2015Vegetation dynamics and responses to recent climate change in Xinjiang using leaf area index as an indicatorEcological Indicators58647610.1016/j.ecolind.2015.05.036Open DOISearch in Google Scholar
Kalnay E, Kanamitsu M, Kistler R, Collins W, Deaven D, Gandin L, Iredell M, Saha S, White G, Woollen J, Zhu Y, Leetmaa A, Reynolds B, Chelliah M, Ebisuzaki W, Higgins W, Janowiak J, Mo KC, Ropelewski C, Wang J, Jenne R and Joseph D, 1996. The NCEP/NCAR 40-year reanalysis project. Bulletin of the American Meteorological Society 77(3): 437–472, 10.1175/1520-0477(1996)077<0437:TNYRP>2.0.CO;2.KalnayEKanamitsuMKistlerRCollinsWDeavenDGandinLIredellMSahaSWhiteGWoollenJZhuYLeetmaaAReynoldsBChelliahMEbisuzakiWHigginsWJanowiakJMoKCRopelewskiCWangJJenneRJosephD1996The NCEP/NCAR 40-year reanalysis projectBulletin of the American Meteorological Society77343747210.1175/1520-0477(1996)077<0437:TNYRP>2.0.CO;2Open DOISearch in Google Scholar
Kaufmann RK, D’Arrigo RD, Laskowski C, Myneni RB, Zhou L and Davi NK, 2004. The effect of growing season and summer greenness on northern forests. Geophysical Research Letters 31: L09205, 10.1029/2004GL019608.KaufmannRKD’ArrigoRDLaskowskiCMyneniRBZhouLDaviNK2004The effect of growing season and summer greenness on northern forestsGeophysical Research Letters31L0920510.1029/2004GL019608Open DOISearch in Google Scholar
Leavitt SW, Chase TN, Rajagopalan B, Lee E and Lawrence PJ, 2008. Southwestern U.S. tree-ring carbon isotope indices as a possible proxy for reconstruction of greenness of vegetation. Geophysical Research Letters 35: L12704, 10.1029/2008GL033894.LeavittSWChaseTNRajagopalanBLeeELawrencePJ2008Southwestern U.S. tree-ring carbon isotope indices as a possible proxy for reconstruction of greenness of vegetationGeophysical Research Letters35L1270410.1029/2008GL033894Open DOISearch in Google Scholar
Lebourgeois F, Cousseau G and Ducos Y, 2004. Climate-tree growth relationships of Quercus petraea Mill. stand in the Forest of Bercé (“Futaie des Clos”, Sarthe, France). Annals of Forest Science 61(4): 361–372, 10.1051/forest:2004029.LebourgeoisFCousseauGDucosY2004Climate-tree growth relationships of Quercus petraea Mill. stand in the Forest of Bercé (“Futaie des Clos”, Sarthe, France)Annals of Forest Science61436137210.1051/forest:2004029Open DOISearch in Google Scholar
Liang E, Liu X, Yuan Y, Qin N, Fang X, Huang L, Zhu H, Wang L and Shao X, 2006. The 1920s drought recorded by tree rings and historical documents in the semi-arid and arid areas of northern China. Climatic Change 79(3): 403–432, 10.1007/s10584-006-9082-x.LiangELiuXYuanYQinNFangXHuangLZhuHWangLShaoX2006The 1920s drought recorded by tree rings and historical documents in the semi-arid and arid areas of northern ChinaClimatic Change79340343210.1007/s10584-006-9082-xOpen DOISearch in Google Scholar
Liang EY, Eckstein D and Liu HY, 2009. Assessing the recent grassland greening trend in a long-term context based on tree-ring analysis: A case study in North China. Ecological Indicators 9: 1280–1283, 10.1016/j.ecolind.2009.02.007.LiangEYEcksteinDLiuHY2009Assessing the recent grassland greening trend in a long-term context based on tree-ring analysis: A case study in North ChinaEcological Indicators91280128310.1016/j.ecolind.2009.02.007Open DOISearch in Google Scholar
Liu Y, Wang CY, Hao WJ, Song HM, Cai QF, Tian H, Sun B and Linderholm HW, 2011. Tree-ring-based annual precipitation reconstruction in Kalaqin, Inner Mongolia for the last 238 years. Chinese Science Bulletin 56: 2995–3002, 10.1007/s11434-011-4706-6.LiuYWangCYHaoWJSongHMCaiQFTianHSunBLinderholmHW2011Tree-ring-based annual precipitation reconstruction in Kalaqin, Inner Mongolia for the last 238 yearsChinese Science Bulletin562995300210.1007/s11434-011-4706-6Open DOISearch in Google Scholar
Lopatin E, Kolström T and Spiecker H, 2006. Determination of forest growth trends in Komi Republic (northwestern Russia): combination of tree-ring analysis and remote sensing data. Boreal Environment Research 11: 341–353.LopatinEKolströmTSpieckerH2006Determination of forest growth trends in Komi Republic (northwestern Russia): combination of tree-ring analysis and remote sensing dataBoreal Environment Research11341353Search in Google Scholar
Malmström CM, Thompson MV, Juday G, Los SO, Randerson JT and Field CB, 1997. Interannual variation in global-scale net primary production: testing model estimates. Global Biogeochemical Cycles 11: 367–392, 10.1029/97GB01419.MalmströmCMThompsonMVJudayGLosSORandersonJTFieldCB1997Interannual variation in global-scale net primary production: testing model estimatesGlobal Biogeochemical Cycles1136739210.1029/97GB01419Open DOISearch in Google Scholar
Meko DM and Graybill DA, 1995. Tree-ring reconstruction of Upper Gila River discharge. Journal of the American Water Resources Association 31(4): 605–616, 10.1111/j.1752-1688.1995.tb03388.x.MekoDMGraybillDA1995Tree-ring reconstruction of Upper Gila River dischargeJournal of the American Water Resources Association31460561610.1111/j.1752-1688.1995.tb03388.xOpen DOISearch in Google Scholar
Michaelsen J, 1987. Cross-validation in statistical climate forecast models. Journal of Applied Meteorology 26(11): 1589–1600, 10.1175/1520-0450(1987)026<1589:CVISCF>2.0.CO;2.MichaelsenJ1987Cross-validation in statistical climate forecast modelsJournal of Applied Meteorology26111589160010.1175/1520-0450(1987)026<1589:CVISCF>2.0.CO;2Open DOISearch in Google Scholar
Nagy L, 2006. European high mountain (alpine) vegetation and its suitability for indicating climate change impacts. Biology and Environment 106B(3): 335–341, 10.3318/BIOE.2006.106.3.335.NagyL2006European high mountain (alpine) vegetation and its suitability for indicating climate change impactsBiology and Environment106B333534110.3318/BIOE.2006.106.3.335Open DOISearch in Google Scholar
New M, Hulme M and Jones P, 2000. Representing twentieth-century space–time climate variability. Part II: Development of 1901–96 monthly grids of terrestrial surface climate. Journal of Climate 13: 2217–2238, 10.1175/1520-0442(2000)013<2217:RTCSTC>2.0.CO;2.NewMHulmeMJonesP2000Representing twentieth-century space–time climate variability. Part II: Development of 1901–96 monthly grids of terrestrial surface climateJournal of Climate132217223810.1175/1520-0442(2000)013<2217:RTCSTC>2.0.CO;2Open DOISearch in Google Scholar
Opała M, Niedźwiedź T, Rahmonov O, Owczarek P and Małarzewski Ł, 2017. Towards improving the Central Asian dendrochronological network—New data from Tajikistan, Pamir-Alay. Dendrochronologia 41: 10–23, 10.1016/j.dendro.2016.03.006.OpałaMNiedźwiedźTRahmonovOOwczarekPMałarzewskiŁ2017Towards improving the Central Asian dendrochronological network—New data from Tajikistan, Pamir-AlayDendrochronologia41102310.1016/j.dendro.2016.03.006Open DOISearch in Google Scholar
Pauli H, Gottfried M, Reiter K and Grabherr G, 2002. High Mountain Summits as Sensitive Indicators of Climate Change Effects on Vegetation Patterns: The “Multi Summit-Approach” of GLORIA (Global Observation Research Initiative in Alpine Environments). Advances in Global Change Research 9: 45–51, 10.1007/0-306-48051-4_6.PauliHGottfriedMReiterKGrabherrG2002High Mountain Summits as Sensitive Indicators of Climate Change Effects on Vegetation Patterns: The “Multi Summit-Approach” of GLORIA (Global Observation Research Initiative in Alpine Environments)Advances in Global Change Research9455110.1007/0-306-48051-4_6Open DOISearch in Google Scholar
Pettorelli N, Vik JO, Mysterud A, Gaillard J, Tucker CJ and Stenseth NC, 2005. Using the satellite-derived NDVI to assess ecological responses to environmental change. Trends in Ecology & Evolution 20(9): 503–510, 10.1016/j.tree.2005.05.011.PettorelliNVikJOMysterudAGaillardJTuckerCJStensethNC2005Using the satellite-derived NDVI to assess ecological responses to environmental changeTrends in Ecology & Evolution20950351010.1016/j.tree.2005.05.011Open DOISearch in Google Scholar
Schrier GVD, Barichivich J, Briffa KR and Jones PD, 2013. A scPDSI-based global data set of dry and wet spells for 1901–2009. Journal of Geophysical Research Atmospheres 118(10): 4025–4048, 10.1002/jgrd.50355.SchrierGVDBarichivichJBriffaKRJonesPD2013A scPDSI-based global data set of dry and wet spells for 1901–2009Journal of Geophysical Research Atmospheres118104025404810.1002/jgrd.50355Open DOISearch in Google Scholar
Seim A, Tulyaganov T, Omurova G, Nikolyai L, Botman E and Linderholm HW, 2016. Dendroclimatological potential of three juniper species from the Turkestan range, northwestern Pamir-Alay Mountains, Uzbekistan. Trees 30(3): 733–748, 10.1007/s00468-015-1316-y.SeimATulyaganovTOmurovaGNikolyaiLBotmanELinderholmHW2016Dendroclimatological potential of three juniper species from the Turkestan range, northwestern Pamir-Alay Mountains, UzbekistanTrees30373374810.1007/s00468-015-1316-yOpen DOISearch in Google Scholar
Shang HM, Wei WS, Yuan YJ, Yu SL, Zhang RB, Hong JC, Chen F, Zhang TW and Fan ZA, 2016. Normalized vegetation variation index reconstruction based on the tree-ring width in central Tibet. Journal of Lanzhou University: Natural Sciences 52(1): 18–24 (in Chinese, with English abstract).ShangHMWeiWSYuanYJYuSLZhangRBHongJCChenFZhangTWFanZA2016Normalized vegetation variation index reconstruction based on the tree-ring width in central TibetJournal of Lanzhou University: Natural Sciences5211824(in Chinese, with English abstract)Search in Google Scholar
Shi FC, Wang GA, Gao ZD, Mu P and Ma GA, 1991. Recurrence probability of 11-year continuous low water period (1922–1932 A.D.) in the Yellow River. Advances in Water Science 2(4): 258–263 (in Chinese, with English abstract).ShiFCWangGAGaoZDMuPMaGA1991Recurrence probability of 11-year continuous low water period (1922–1932 A.D.) in the Yellow RiverAdvances in Water Science24258263(in Chinese, with English abstract)Search in Google Scholar
Speer JH, 2010. Fundamentals of Tree-ring Research. The University of Arizona Press, Tucson.SpeerJH2010Fundamentals of Tree-ring ResearchThe University of Arizona PressTucsonSearch in Google Scholar
Wang Z, 2000. Phytophysiology. China Agriculture Press, Beijing (in Chinese).WangZ2000PhytophysiologyChina Agriculture PressBeijing(in Chinese)Search in Google Scholar
Wang YJ, Lu RJ, Ma YZ, Meng HW and Gao SY, 2014. Response to climate change of different tree species and NDVI variation since 1923 in the middle arid region of Ningxia, China. Sciences in Cold and Arid Regions 6(1): 30–36, 10.3724/SP.J.1226.2014.00030.WangYJLuRJMaYZMengHWGaoSY2014Response to climate change of different tree species and NDVI variation since 1923 in the middle arid region of Ningxia, ChinaSciences in Cold and Arid Regions61303610.3724/SP.J.1226.2014.00030Open DOISearch in Google Scholar
Wells N, Goddard S and Hayes MJ, 2004. A self-calibrating Palmer Drought Severity Index. Journal of Climate 17: 2335–2351, 10.1175/1520-0442(2004)017<2335:ASPDSI>2.0.CO;2.WellsNGoddardSHayesMJ2004A self-calibrating Palmer Drought Severity IndexJournal of Climate172335235110.1175/1520-0442(2004)017<2335:ASPDSI>2.0.CO;2Open DOISearch in Google Scholar
Wen KG, Shi YG and Ren YY, 2006. Documents of Chinese Meteorological Disaster: Volume of Xinjiang. Meteorological Publishers, Beijing (in Chinese).WenKGShiYGRenYY2006Documents of Chinese Meteorological Disaster: Volume of XinjiangMeteorological PublishersBeijing(in Chinese)Search in Google Scholar
Wigley TML, Briffa KR and Jones PD, 1984. On the average value of correlated time series, with applications in dendroclimatology and hydrometeorology. Journal of Climate and Applied Meteorology 23(2): 201–213, 10.1175/1520-0450(1984)023<0201:OTAVOC>2.0.CO;2.WigleyTMLBriffaKRJonesPD1984On the average value of correlated time series, with applications in dendroclimatology and hydrometeorologyJournal of Climate and Applied Meteorology23220121310.1175/1520-0450(1984)023<0201:OTAVOC>2.0.CO;2Open DOISearch in Google Scholar
Winter MB, WolV B, Gottschling H and Cherubini P, 2009. The impact of climate on radial growth and nut production of Persian walnut (Juglans regia L.) in Southern Kyrgyzstan. European Journal of Forest Research 128: 531–542, 10.1007/s10342-009-0295-1.WinterMBWolVBGottschlingHCherubiniP2009The impact of climate on radial growth and nut production of Persian walnut (Juglans regia L.) in Southern KyrgyzstanEuropean Journal of Forest Research12853154210.1007/s10342-009-0295-1Open DOISearch in Google Scholar
Yin G, Meng XY, Wang H, Hu ZY and Sun ZQ, 2017. Spatial-temporal variation of vegetation and its correlation with climate change in Central Asia during the period of 1982–2012. Acta Ecologica Sinica 37(9): 3149–3163 (in Chinese, with English abstract).YinGMengXYWangHHuZYSunZQ2017Spatial-temporal variation of vegetation and its correlation with climate change in Central Asia during the period of 1982–2012Acta Ecologica Sinica37931493163(in Chinese, with English abstract)10.5846/stxb201601240164Search in Google Scholar
Young GA, 1994. Bootstrap: more than a stab in the dark. Statistical Science 9: 382–415, 10.1214/ss/1177010383.YoungGA1994Bootstrap: more than a stab in the darkStatistical Science938241510.1214/ss/1177010383Open DOISearch in Google Scholar
Yuan YJ, Zhang TW, Wei WS, Nievergelt D, Verstege A, Yu SL, Zhang RB and Esper J, 2013. Development of tree-ring maximum latewood density chronologies for the western Tien Shan Mountains, China: Influence of detrending method and climate response. Dendrochronologia 31: 192–197, 10.1016/j.dendro.2013.05.004.YuanYJZhangTWWeiWSNievergeltDVerstegeAYuSLZhangRBEsperJ2013Development of tree-ring maximum latewood density chronologies for the western Tien Shan Mountains, China: Influence of detrending method and climate responseDendrochronologia3119219710.1016/j.dendro.2013.05.004Open DOISearch in Google Scholar
Zhang RB, Wei WS, Yuan YJ, Yu SL and Yang Q, 2009. A precipitation series of A.D. 1396–2005 in Aksu River Basin on the southern slopes of Tianshan Mountains: reconstruction and analysis. Journal of Glaciology and Geocryology 31: 27–33 (in Chinese, with English abstract).ZhangRBWeiWSYuanYJYuSLYangQ2009A precipitation series of A.D. 1396–2005 in Aksu River Basin on the southern slopes of Tianshan Mountains: reconstruction and analysisJournal of Glaciology and Geocryology312733(in Chinese, with English abstract)Search in Google Scholar
Zhang L, Yuan YJ, Wei WS and Qin L, 2010. Reconstruction and analysis of the 336a July and August precipitation series in Nilka County, Xinjing. Journal of Glaciology and Geocryology 32(5): 914–920 (in Chinese, with English abstract).ZhangLYuanYJWeiWSQinL2010Reconstruction and analysis of the 336a July and August precipitation series in Nilka County, XinjingJournal of Glaciology and Geocryology325914920(in Chinese, with English abstract)Search in Google Scholar
Zhang TW, Yuan YJ, He Q, Wei WS, Diushen M, Shang HM and Zhang RB, 2014. Development of tree-ring width chronologies and tree-growth response to climate in the mountains surrounding the Issyk-Kul Lake, Central Asia. Dendrochronologia 32: 230–236, 10.1016/j.dendro.2014.03.002.ZhangTWYuanYJHeQWeiWSDiushenMShangHMZhangRB2014Development of tree-ring width chronologies and tree-growth response to climate in the mountains surrounding the Issyk-Kul Lake, Central AsiaDendrochronologia3223023610.1016/j.dendro.2014.03.002Open DOISearch in Google Scholar
Zhang TW, Zhang RB, Yuan YJ, Gao YQ, Wei WS, Diushen M, He Q, Shang HM and Wang J, 2015. Reconstructed precipitation on a centennial timescale from tree rings in the western Tien Shan Mountains, Central Asia. Quaternary International 358: 58–67, 10.1016/j.quaint.2014.10.054.ZhangTWZhangRBYuanYJGaoYQWeiWSDiushenMHeQShangHMWangJ2015Reconstructed precipitation on a centennial timescale from tree rings in the western Tien Shan Mountains, Central AsiaQuaternary International358586710.1016/j.quaint.2014.10.054Open DOISearch in Google Scholar
