This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Babst F, Poulter B, Trouet V, Tan K, Neuwirth B, Wilson R, Carrer M, Grabner M, Tegel W, Levanic T, Panayotov M, Urbinati C, Bouriaud O, Ciais P and Frank D, 2013. Site- and species-specific responses of forest growth to climate across the European conti-nent. Global Ecology and Biogeography 22(6): 706–717, DOI 10.1111/geb.12023.BabstFPoulterBTrouetVTanKNeuwirthBWilsonRCarrerMGrabnerMTegelWLevanicTPanayotovMUrbinatiCBouriaudOCiaisPFrankD2013Site- and species-specific responses of forest growth to climate across the European conti-nentGlobal Ecology and Biogeography22670671710.1111/geb.12023Open DOISearch in Google Scholar
Bošeľa M, Petráš R, Sitková Z, Priwitzer T, Pajtík J, Hlavatá H, Sed-mák R and Tobin B, 2014a. Possible causes of the recent rapid in-crease in the radial increment of Silver fir in the Western Carpathi-ans. Environmental Pollution 184: 211–221, DOI 10.1016/j.envpol.2013.08.036.BošeľaMPetrášRSitkováZPriwitzerTPajtíkJHlavatáHSedmákRTobinB2014aPossible causes of the recent rapid in-crease in the radial increment of Silver fir in the Western Carpathi-ansEnvironmental Pollution18421122110.1016/j.envpol.2013.08.03624060740Open DOISearch in Google Scholar
Bošeľa M, Sedmák R, Sedmáková D, Marušák R and Kulla L, 2014b. Temporal shifts of climate-growth relationships of Norway spruce as an indicator of health decline in the Beskids, Slovakia. Forest Ecology and Management 325: 108–117, DOI 10.1016/j.foreco.2014.03.055.BošeľaMSedmákRSedmákováDMarušákRKullaL2014bTemporal shifts of climate-growth relationships of Norway spruce as an indicator of health decline in the Beskids, SlovakiaForest Ecology and Management32510811710.1016/j.foreco.2014.03.055Open DOISearch in Google Scholar
Briffa KR, Schweingruber FH, Jones PD, Osborn TJ, Shiyatov SG and Vaganov EA, 1998. Reduced sensitivity of recent tree-growth to temperature at high northern latitudes. Nature 391: 678–682, DOI 10.1038/35596.BriffaKRSchweingruberFHJonesPDOsbornTJShiyatovSGVaganovEA1998Reduced sensitivity of recent tree-growth to temperature at high northern latitudesNature39167868210.1038/35596Open DOISearch in Google Scholar
Büntgen U, Frank DC, Kaczka RJ, Verstege A, Zwijacz-Kozica T and Esper J, 2007. Growth responses to climate in a multi-species tree-ring network in the Western Carpathian Tatra Mountains, Poland and Slovakia. Tree Physiology 27(5): 689–702, DOI 10.1093/treephys/27.5.689.BüntgenUFrankDCKaczkaRJVerstegeAZwijacz-KozicaTEsperJ2007Growth responses to climate in a multi-species tree-ring network in the Western Carpathian Tatra Mountains, Poland and SlovakiaTree Physiology27568970210.1093/treephys/27.5.68917267360Open DOISearch in Google Scholar
Büntgen U, Brázdil R, Frank D and Esper J, 2009. Three centuries of Slovakian drought dynamics. Climate Dynamics 35(2–3): 315–329, DOI 10.1007/s00382-009-0563-2.BüntgenUBrázdilRFrankDEsperJ2009Three centuries of Slovakian drought dynamicsClimate Dynamics352–331532910.1007/s00382-009-0563-2Open DOISearch in Google Scholar
Büntgen U, Franke J, Frank D, Wilson R, González-Rouco F and Esper J, 2010. Assessing the spatial signature of European climate recon-structions. Climate Research 41: 125–130, DOI 10.3354/cr00848.BüntgenUFrankeJFrankDWilsonRGonzález-RoucoFEsperJ2010Assessing the spatial signature of European climate recon-structionsClimate Research4112513010.3354/cr00848Open DOISearch in Google Scholar
Büntgen U, Tegel W, Nicolussi K, McCormick M, Frank D, Trouet V, Kaplan JO, Herzig F, Heussner KU, Wanner H, Luterbacher J and Esper J, 2011. 2500 years of European climate variability and hu-man susceptibility. Science 331(6017): 578–582, DOI 10.1126/science.1197175.BüntgenUTegelWNicolussiKMcCormickMFrankDTrouetVKaplanJOHerzigFHeussnerKUWannerHLuterbacherJEsperJ20112500 years of European climate variability and hu-man susceptibilityScience331601757858210.1126/science.119717521233349Open DOISearch in Google Scholar
Büntgen U, Kyncl T, Ginzler C, Jacks DS, Esper J, Tegel W, Heussner KU and Kyncl J, 2013. Filling the Eastern European gap in mil-lennium-long temperature reconstructions. Proceedings of the Na-tional Academy of Sciences of the United States of America 110(5): 1773–1778, DOI 10.1073/pnas.1211485110.BüntgenUKynclTGinzlerCJacksDSEsperJTegelWHeussnerKUKynclJ2013Filling the Eastern European gap in mil-lennium-long temperature reconstructionsProceedings of the Na-tional Academy of Sciences of the United States of America11051773177810.1073/pnas.1211485110356283423319641Open DOISearch in Google Scholar
Castagneri D, Nola P, Motta R and Carrer M, 2014. Summer climate variability over the last 250years differently affected tree species radial growth in a mesic Fagus-Abies-Picea old-growth forest. Forest Ecology and Management 320: 21–29, DOI 10.1016/j.foreco.2014.02.023.CastagneriDNolaPMottaRCarrerM2014Summer climate variability over the last 250years differently affected tree species radial growth in a mesic Fagus-Abies-Picea old-growth forestForest Ecology and Management320212910.1016/j.foreco.2014.02.023Open DOISearch in Google Scholar
Climexp.KNMI, 2014. <http://climexp.knmi.nl. Accessed 2014-04-18.ClimexpKNMI2014http://climexp.knmi.nlAccessed 2014-04-18Search in Google Scholar
Cook ER and Kariukstis LA (eds.), 1990. Methods of Dendrochronology: Applications in the Environmental Sciences. Kluwer Academic Publishers, Dordrecht: 394pp.CookERKariukstisLA1990Methods of DendrochronologyApplications in the Environmental SciencesKluwer Academic PublishersDordrecht394Search in Google Scholar
DeRose JR and Gardner RS, 2010. Technique to improve visualization of elusive tree-ring boundaries in aspen (Populus tremuloides). Tree-Ring Research 66(1): 75–78, DOI 10.3959/2009-11.1.DeRoseJRGardnerRS2010Technique to improve visualization of elusive tree-ring boundaries in aspen (Populus tremuloides)Tree-Ring Research661757810.3959/2009-11.1Open DOISearch in Google Scholar
Di Filippo A, Biondi F, Čufar K, de Luis M, Grabner M, Maugeri M, Saba EP, Schironel B and Piovesan G, 2007. Bioclimatology of beech (Fagus sylvatica L.) in the Eastern Alps: spatial and altitudinal climatic signals identified through a tree-ring network. Journal of Biogeography 34(11): 1873–1892, DOI 10.1111/j.1365-2699.2007.01747.x.Di FilippoABiondiFČufarKde LuisMGrabnerMMaugeriMSabaEPSchironelBPiovesanG2007Bioclimatology of beech (Fagus sylvatica L.) in the Eastern Alps: spatial and altitudinal climatic signals identified through a tree-ring networkJournal of Biogeography34111873189210.1111/j.1365-2699.2007.01747.xOpen DOISearch in Google Scholar
Dittmar C, Zech W and Elling W, 2003. Growth variations of common beech (Fagus sylvatica L.) under different climatic and environ-mental conditions in Europe: a dendroecological study. Forest Ecology and Management 173: 63–78, DOI 10.1016/S0378-1127(01)00816-7.DittmarCZechWEllingW2003Growth variations of common beech (Fagus sylvatica L.) under different climatic and environ-mental conditions in Europe: a dendroecological studyForest Ecology and Management173637810.1016/S0378-1127(01)00816-7Open DOISearch in Google Scholar
Esper J, Büntgen U, Luterbacher J and Krusic PJ, 2013. Testing the hypothesis of post-volcanic missing rings in temperature sensitive dendrochronological data. Dendrochronologia 31(3): 216–222. DOI 10.1016/j.dendro.2012.11.002.EsperJBüntgenULuterbacherJKrusicPJ2013Testing the hypothesis of post-volcanic missing rings in temperature sensitive dendrochronological dataDendrochronologia31321622210.1016/j.dendro.2012.11.002Open DOISearch in Google Scholar
Fritts HC, 1976. Tree Rings and Climate. Academic Press, London: 567pp.FrittsHC1976Tree Rings and ClimateAcademic PressLondon567Search in Google Scholar
Fritts HC and Swetnam TW, 1989. Dendroecology: A tool for evaluat-ing variations in past and present forest environments. Advances in Ecological Research 19: 111–188.FrittsHCSwetnamTW1989Dendroecology: A tool for evaluat-ing variations in past and present forest environmentsAdvances in Ecological Research1911118810.1016/S0065-2504(08)60158-0Search in Google Scholar
Gärtner H and Schweingruber FH, 2013. Microscopic Preparation Techniques for Plant Stem Analysis .WSL Birmensdorf, Switzer-land: 78pp.GärtnerHSchweingruberFH2013Microscopic Preparation Techniques for Plant Stem AnalysisWSL BirmensdorfSwitzer-land78Search in Google Scholar
Gärtner H, Lucchinetti S and Schweingruber FH, 2014. New perspectives for wood anatomical analysis in dendrosciences: The GSL1-microtome. Dendrochronologia 32(1): 47–51, DOI 10.1016/j.dendro.2013.07.002.GärtnerHLucchinettiSSchweingruberFH2014New perspectives for wood anatomical analysis in dendrosciences: The GSL1-microtomeDendrochronologia321475110.1016/j.dendro.2013.07.002Open DOISearch in Google Scholar
Gedalof ZE and Berg AA, 2010. Tree ring evidence for limited direct CO2 fertilization of forests over the 20th century. Global Biogeochemical Cycles 24(3): GB3027, DOI 10.1029/2009GB003699.GedalofZEBergAA2010Tree ring evidence for limited direct CO2 fertilization of forests over the 20th centuryGlobal Biogeochemical Cycles243GB302710.1029/2009GB003699Open DOISearch in Google Scholar
Grissino-Mayer HD, 2001. Evaluating crossdating accuracy: a manual and tutorial for the computer program COFECHA. Tree-Ring Re-search 57: 205–221.Grissino-MayerHD2001Evaluating crossdating accuracy: a manual and tutorial for the computer program COFECHATree-Ring Re-search57205221Search in Google Scholar
Hantemirov RM, Gorlanova LA and Shiyatov SG, 2004. Extreme temperature events in summer in northwest Siberia since AD 742 inferred from tree rings. Palaeogeography, Palaeoclimatology, Palaeoecology 209(1): 155–164.HantemirovRMGorlanovaLAShiyatovSG2004Extreme temperature events in summer in northwest Siberia since AD 742 inferred from tree ringsPalaeogeography, Palaeoclimatology, Palaeoecology209115516410.1016/j.palaeo.2003.12.023Search in Google Scholar
Harris I, Jones PD, Osborn TJ and Lister DH, 2014. Updated high-resolution grids of monthly climatic observations - the CRU TS3.10 Dataset. International Journal of Climatology 34: 623–642. DOI 10.1002/joc.3711.HarrisIJonesPDOsbornTJListerDH2014Updated high-resolution grids of monthly climatic observations - the CRU TS3.10 DatasetInternational Journal of Climatology3462364210.1002/joc.3711Open DOISearch in Google Scholar
Hartl-Meier C, Dittmar C, Zang C and Rothe A, 2014. Mountain forest growth response to climate change in the Northern Limestone Alps. Trees 28(3): 819–829, DOI 10.1007/s00468-014-0994-1.Hartl-MeierCDittmarCZangCRotheA2014Mountain forest growth response to climate change in the Northern Limestone AlpsTrees28381982910.1007/s00468-014-0994-1Open DOISearch in Google Scholar
Holmes LR, 1983. Computer-assisted quality control in tree-ring dating and measurement. Tree-Ring Bulletin 43: 69–78.HolmesLR1983Computer-assisted quality control in tree-ring dating and measurementTree-Ring Bulletin436978Search in Google Scholar
Janíček R, 1994. User reference DAS (Dendrochronological analysis system): 53pp.JaníčekR1994User reference DAS (Dendrochronological analysis system)53Search in Google Scholar
Ježík M, Blaženec M, Střelcová K and Ditmarová Ľ, 2011. The impact of the 2003–2008 weather variability on intra-annual stem diame-er changes of beech trees at a submontane site in central Slovakia. Dendrochronologia 29(4): 227–235. DOI 10.1016/j.dendro.2011.01.009.JežíkMBlaženecMStřelcováKDitmarováĽ2011The impact of the 2003–2008 weather variability on intra-annual stem diame-er changes of beech trees at a submontane site in central SlovakiaDendrochronologia29422723510.1016/j.dendro.2011.01.009Open DOISearch in Google Scholar
Leal S, Eamus D, Grabner M, Wimmer R and Cherubini P, 2008. Tree rings of Pinusnigra from the Vienna basin region (Austria) show evidence of change in climatic sensitivity in the late 20th century. Canadian Journal of Forest Research 38(4): 744–759, DOI 10.1139/X07-189.LealSEamusDGrabnerMWimmerRCherubiniP2008Tree rings of Pinusnigra from the Vienna basin region (Austria) show evidence of change in climatic sensitivity in the late 20th centuryCanadian Journal of Forest Research38474475910.1139/X07-189Open DOISearch in Google Scholar
Lebourgeois F, Bréda N, Ulrich E and Granier A, 2005. Climate-tree-growth relationships of European beech (Fagus sylvatica L.) in the French Permanent Plot Network (RENECOFOR). Trees 19: 385–401, DOI 10.1007/s00468-004-0397-9.LebourgeoisFBrédaNUlrichEGranierA2005Climate-tree-growth relationships of European beech (Fagus sylvatica L.) in the French Permanent Plot Network (RENECOFOR)Trees1938540110.1007/s00468-004-0397-9Open DOISearch in Google Scholar
Lorimer CG, Dahir SE and Singer MT, 1999. Frequency of partial and missing rings in Acer saccharum in relation to canopy position and growth rate. Plant Ecology 143: 189–202, DOI 10.1023/A:1009847819158.LorimerCGDahirSESingerMT1999Frequency of partial and missing rings in Acer saccharum in relation to canopy position and growth ratePlant Ecology14318920210.1023/A:1009847819158Open DOISearch in Google Scholar
Maxwell RS, Wixom JA and Hessl AE, 2011. A comparison of two techniques for measuring and crossdating tree rings. Dendrochronologia 29(4): 237–243, DOI 10.1016/j.dendro.2010.12.002.MaxwellRSWixomJAHesslAE2011A comparison of two techniques for measuring and crossdating tree ringsDendrochronologia29423724310.1016/j.dendro.2010.12.002Open DOISearch in Google Scholar
Nehrbass-Ahles C, Babst F, Klesse S, Nötzli M, Bouriaud O, Neukom R, Dobbertin M and Frank D, 2014. The influence of sampling design on tree-ring-based quantification of forest growth. Global Change Biology 20(9): 2867–2885, DOI 10.1111/gcb.12599.Nehrbass-AhlesCBabstFKlesseSNötzliMBouriaudONeukomRDobbertinMFrankD2014The influence of sampling design on tree-ring-based quantification of forest growthGlobal Change Biology2092867288510.1111/gcb.12599Open DOISearch in Google Scholar
Popa I and Kern Z, 2009. Long-term summer temperature reconstruction inferred from tree-ring records from the Eastern Carpathians. Climate Dynamics 32: 1107–1117, DOI 10.1007/s00382-008-0439-x.PopaIKernZ2009Long-term summer temperature reconstruction inferred from tree-ring records from the Eastern CarpathiansClimate Dynamics321107111710.1007/s00382-008-0439-xOpen DOISearch in Google Scholar
Rinn F, 2003. TSAP-Win. Time series analysis and presentation for dendrochronology and related applications. RINNTECH, Heidel-berg.RinnF2003TSAP-WinTime series analysis and presentation for dendrochronology and related applicationsRINNTECHHeidel-bergSearch in Google Scholar
Schweingruber FH, 1983. Der Jahrring. Standort, Methodik, Zeit und Klima in der Dendrochronologie. (Tree-ring, site, methodology, time and climate in dendrochronology). Haupt, Bern: 234pp.SchweingruberFH1983Der Jahrring. Standort, Methodik, Zeit und Klima in der Dendrochronologie. (Tree-ring, site, methodology, time and climate in dendrochronology)HauptBern234Search in Google Scholar
Schweingruber FH, 1988. Tree Rings: Basics and Applications of Dendrochronology. D. Reidel Publishing Co., Dodrecht, the Neth-erlands: 276pp.SchweingruberFH1988Tree Rings: Basics and Applications of DendrochronologyD. Reidel Publishing CoDodrechtthe Neth-erlands27610.1007/978-94-009-1273-1_5Search in Google Scholar
Speer JH, 2010. Fundamentals of tree-ring research. University of Arizona Press, Tucson: 368pp.SpeerJH2010Fundamentals of tree-ring researchUniversity of Arizona PressTucson368Search 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: 201–213, DOI 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 Meteorology2320121310.1175/1520-0450(1984)023<0201:OTAVOC>2.0.CO;2Open DOISearch in Google Scholar
Yamaguchi DK, 1991. A simple method for crossdating increment cores from living trees. Canadian Journal of Forest Research 21: 414–416, DOI 10.1139/x91-053.YamaguchiDK1991A simple method for crossdating increment cores from living treesCanadian Journal of Forest Research2141441610.1139/x91-053Open DOISearch in Google Scholar
