This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Beguería S, Vicente Serrano SM, Reig-Gracia F and Latorre Garcés B, 2023. SPEIbase v.2.9 [Dataset]; DIGITAL.CSIC; Version 2.9. WEB site: <https://doi.org/10.20350/digitalCSIC/15470>. Accessed 2023 October 06.BegueríaSVicente SerranoSMReig-GraciaFLatorre GarcésB2023SPEIbase v.2.9 [Dataset]; DIGITAL.CSIC; Version 2.9WEB site: <https://doi.org/10.20350/digitalCSIC/15470>. Accessed 2023 October 06.Search in Google Scholar
Blunden J, Arndt DS, and Baringer MO, 2011. State of the climate in 2010. Bulletin of the American Meteorological Society 92(6): 1–236.BlundenJArndtDSBaringerMO2011State of the climate in 2010Bulletin of the American Meteorological Society9261236Search in Google Scholar
Boczoń A, Kowalska A, Dudzińska M and Wróbel M, 2016. Drought in Polish forests in 2015. Polish Journal of Environmental Studies 25(5): 1857–1862.BoczońAKowalskaADudzińskaMWróbelM2016Drought in Polish forests in 2015Polish Journal of Environmental Studies25518571862Search in Google Scholar
Bokwa A, Klimek M, Krzaklewski P and Kukułka W, 2021. Drought trends in the Polish carpathian mountains in the years 1991–2020. Atmosphere 12(10): 1259.BokwaAKlimekMKrzaklewskiPKukułkaW2021Drought trends in the Polish carpathian mountains in the years 1991–2020Atmosphere12101259Search in Google Scholar
Bridge M, 2003. Tree rings and climate by HC Fritts. Blackburn Press: Caldwell 2001. (567). ISBN 1 930665 39 3. Journal of Quaternary Science 19(1): 99. WEB site: <https://doi.org/10.1002/jqs.796>. Accessed 2023 October 06.BridgeM2003Tree rings and climate by HC Fritts. Blackburn Press: Caldwell 2001. (567). ISBN 1 930665 39 3Journal of Quaternary Science19199WEB site: <https://doi.org/10.1002/jqs.796>. Accessed 2023 October 06.Search in Google Scholar
Bryukhanova M and Fonti P, 2013. Xylem plasticity allows rapid hydraulic adjustment to annual climatic variability. Trees 27: 485–496.BryukhanovaMFontiP2013Xylem plasticity allows rapid hydraulic adjustment to annual climatic variabilityTrees27485496Search in Google Scholar
Bunn AG, 2010. Statistical and visual crossdating in R using the dplR library. Dendrochronologia 28(4): 251–258.BunnAG2010Statistical and visual crossdating in R using the dplR libraryDendrochronologia284251258Search in Google Scholar
Burke EJ, Brown SJ and Christidis N, 2006. Modeling the recent evolution of global drought and projections for the twenty-first century with the Hadley Centre climate model. Journal of Hydrometeorology 7(5): 1113–1125.BurkeEJBrownSJChristidisN2006Modeling the recent evolution of global drought and projections for the twenty-first century with the Hadley Centre climate modelJournal of Hydrometeorology7511131125Search in Google Scholar
Dario MB, Beeckman H and Canellas I, 2013. Influence of drought on tree rings and tracheid features of Pinus nigra and Pinus sylvestris in a mesic Mediterranean forest. European Journal of Forest Research 132: 33–45.DarioMBBeeckmanHCanellasI2013Influence of drought on tree rings and tracheid features of Pinus nigra and Pinus sylvestris in a mesic Mediterranean forestEuropean Journal of Forest Research1323345Search in Google Scholar
Durło GB, Małek S and Socha J, 2015. Extreme precipitation events in the forest promotion complex of Silesian Beskid. WEB site: <https://depot.ceon.pl/handle/123456789/7577>. Accessed 2023 October 12.DurłoGBMałekSSochaJ2015Extreme precipitation events in the forest promotion complex of Silesian BeskidWEB site: <https://depot.ceon.pl/handle/123456789/7577>. Accessed 2023 October 12.Search in Google Scholar
Eckstein D and Bauch J, 1969. Beitrag zur Rationalisierung eines dendrochronologischen Verfahrens und zur Analyse seiner Aussagesicherheit (Contribution to the rationalization of a dendrochronological method and to the analysis of its reliability). Forstwissenschaftliches Centralblatt 88: 230–250 (in German).EcksteinDBauchJ1969Beitrag zur Rationalisierung eines dendrochronologischen Verfahrens und zur Analyse seiner Aussagesicherheit (Contribution to the rationalization of a dendrochronological method and to the analysis of its reliability)Forstwissenschaftliches Centralblatt88230250(in German).Search in Google Scholar
Eilmann B, Zweifel R, Buchmann N, Graf Pannatier E and Rigling A, 2011. Drought alters timing, quantity, and quality of wood formation in Scots pine. Journal of Experimental Botany 62(8): 2763–2771.EilmannBZweifelRBuchmannNGraf PannatierERiglingA2011Drought alters timing, quantity, and quality of wood formation in Scots pineJournal of Experimental Botany62827632771Search in Google Scholar
Holmes RL, 1983. Computer–assisted quality control in tree–ring dating and measurement. Tree Ring Bull 43: 69–78.HolmesRL1983Computer–assisted quality control in tree–ring dating and measurementTree Ring Bull436978Search in Google Scholar
Kalbarczyk R and Kalbarczyk E, 2022. Research into meteorological drought in Poland during the growing season from 1951 to 2020 using the standardized precipitation index. Agronomy 12(9): 2035.KalbarczykRKalbarczykE2022Research into meteorological drought in Poland during the growing season from 1951 to 2020 using the standardized precipitation indexAgronomy1292035Search in Google Scholar
Lasy Państwowe, 2023. Bank Danych o Lasach (Forest Data Bank). WEB site: <https://www.bdl.lasy.gov.pl/portal/>. Accessed 2023 October 11 (in Polish).Lasy Państwowe2023Bank Danych o Lasach (Forest Data Bank)WEB site: <https://www.bdl.lasy.gov.pl/portal/>. Accessed 2023 October 11 (in Polish).Search in Google Scholar
Leonelli G, Battipaglia G, Cherubini P, Saurer M, Siegwolf RT, Maugeri M and Pelfini M, 2017. Larix decidua δ18O tree-ring cellulose mainly reflects the isotopic signature of winter snow in a high-altitude glacial valley of the European Alps. Science of the Total Environment 579: 230–237.LeonelliGBattipagliaGCherubiniPSaurerMSiegwolfRTMaugeriMPelfiniM2017Larix decidua δ18O tree-ring cellulose mainly reflects the isotopic signature of winter snow in a high-altitude glacial valley of the European AlpsScience of the Total Environment579230237Search in Google Scholar
Leonelli G, Pelfini M, Panseri S, Battipaglia G, Vezzola L and Giorgi A, 2014. Tree-ring stable isotopes, growth disturbances and needles volatile organic compounds as environmental stress indicators at the debris covered Miage Glacier (Monte Bianco Massif, European Alps). Geografia Fisica e Dinamica Quaternaria 37: 101–111.LeonelliGPelfiniMPanseriSBattipagliaGVezzolaLGiorgiA2014Tree-ring stable isotopes, growth disturbances and needles volatile organic compounds as environmental stress indicators at the debris covered Miage Glacier (Monte Bianco Massif, European Alps)Geografia Fisica e Dinamica Quaternaria37101111Search in Google Scholar
Lindner M, Maroschek M, Netherer S, Kremer A, Barbati A, Garcia-Gonzalo J, Seidl R, Delzon S, Corona P, Kolström M, Lexer MJ and Marchetti M, 2010. Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems. Forest Ecology and Management 259(4): 698–709.LindnerMMaroschekMNethererSKremerABarbatiAGarcia-GonzaloJSeidlRDelzonSCoronaPKolströmMLexerMJMarchettiM2010Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystemsForest Ecology and Management2594698709Search in Google Scholar
Marini F, Battipaglia G, Manetti MC, Corona P and Romagnoli M, 2019. Impact of climate, stand growth parameters, and management on isotopic composition of tree rings in chestnut coppices. Forests 10(12): 1148.MariniFBattipagliaGManettiMCCoronaPRomagnoliM2019Impact of climate, stand growth parameters, and management on isotopic composition of tree rings in chestnut coppicesForests10121148Search in Google Scholar
Meteomodel, 2023. Dane meteorologiczne (Meteorological data). WEB site: <https://meteomodel.pl>. Accessed 2023 April 24 (in Polish).Meteomodel2023Dane meteorologiczne (Meteorological data)WEB site: <https://meteomodel.pl>. Accessed 2023 April 24 (in Polish).Search in Google Scholar
Michalski J, Starzyk JR, Kolk A and Grodzki W, 2004. Threat of Norway spruce caused by the bark beetle Ips typographus (L.) in the stands of the forest promotion complex “Puszcza Balowieska” in 2000–2002. Lesne Prace Badawcze (Forest Research Papers) 3: 5–30.MichalskiJStarzykJRKolkAGrodzkiW2004Threat of Norway spruce caused by the bark beetle Ips typographus (L.) in the stands of the forest promotion complex “Puszcza Balowieska” in 2000–2002Lesne Prace Badawcze (Forest Research Papers)3530Search in Google Scholar
Niccoli F, Pacheco-Solana A, Delzon S, Kabala JP, Asgharinia S, Castaldi S and Battipaglia G, 2023. Effects of wildfire on growth, transpiration and hydraulic properties of Pinus pinaster Aiton forest. Dendrochronologia 79: 126086.NiccoliFPacheco-SolanaADelzonSKabalaJPAsghariniaSCastaldiSBattipagliaG2023Effects of wildfire on growth, transpiration and hydraulic properties of Pinus pinaster Aiton forestDendrochronologia79126086Search in Google Scholar
Niccoli F, Pelleri F, Manetti MC, Sansone D and Battipaglia G, 2020. Effects of thinning intensity on productivity and water use efficiency of Quercus robur L. Forest Ecology and Management 473: 118282.NiccoliFPelleriFManettiMCSansoneDBattipagliaG2020Effects of thinning intensity on productivity and water use efficiency of Quercus robur LForest Ecology and Management473118282Search in Google Scholar
Opała M, 2012. A 409-year precipitation record derived from Upper Silesian pine chronologies. Dendrosymposium 2011: 41.OpałaM2012A 409-year precipitation record derived from Upper Silesian pine chronologiesDendrosymposium201141Search in Google Scholar
Opała M, 2015. The 443-year tree-ring chronology for the Scots pine from Upper Silesia (Poland) as a dating tool and climate proxy. Geochronometria 42(1): 41–52.OpałaM2015The 443-year tree-ring chronology for the Scots pine from Upper Silesia (Poland) as a dating tool and climate proxyGeochronometria4214152Search in Google Scholar
Pacheco A, Camarero JJ and Carrer M, 2016. Linking wood anatomy and xylogenesis allows pinpointing of climate and drought influences on growth of coexisting conifers in continental Mediterranean climate. Tree Physiology 36(4): 502–512.PachecoACamareroJJCarrerM2016Linking wood anatomy and xylogenesis allows pinpointing of climate and drought influences on growth of coexisting conifers in continental Mediterranean climateTree Physiology364502512Search in Google Scholar
Pacheco A, Camarero JJ, Ribas M, Gazol A, Gutierrez E and Carrer M, 2018. Disentangling the climate-driven bimodal growth pattern in coastal and continental Mediterranean pine stands. Science of the Total Environment 615: 1518–1526.PachecoACamareroJJRibasMGazolAGutierrezECarrerM2018Disentangling the climate-driven bimodal growth pattern in coastal and continental Mediterranean pine standsScience of the Total Environment61515181526Search in Google Scholar
Pellizzari E, Camarero JJ, Gazol A, Sangüesa-Barreda G and Carrer M, 2016. Wood anatomy and carbon-isotope discrimination support long-term hydraulic deterioration as a major cause of drought-induced dieback. Global Change Biology 22(6): 2125–2137.PellizzariECamareroJJGazolASangüesa-BarredaGCarrerM2016Wood anatomy and carbon-isotope discrimination support long-term hydraulic deterioration as a major cause of drought-induced diebackGlobal Change Biology22621252137Search in Google Scholar
Polish Institute of Meteorology and Water Management (IMGW-PIB), 2022. WEB site: <https://danepubliczne.imgw.pl>. Accessed 2022 March 12.Polish Institute of Meteorology and Water Management (IMGW-PIB)2022WEB site: <https://danepubliczne.imgw.pl>. Accessed 2022 March 12.Search in Google Scholar
Puchi PF, Camarero JJ, Battipaglia G and Carrer M, 2021. Retrospective analysis of wood anatomical traits and tree-ring isotopes suggests site-specific mechanisms triggering Araucaria araucana drought-induced dieback. Global Change Biology 27(24): 6394–6408.PuchiPFCamareroJJBattipagliaGCarrerM2021Retrospective analysis of wood anatomical traits and tree-ring isotopes suggests site-specific mechanisms triggering Araucaria araucana drought-induced diebackGlobal Change Biology272463946408Search in Google Scholar
RDLP Katowice, 2022. Ochrona lasów na terenie RDLP w Katowicach (Protection of Forests in the RDLP in Katowice). WEB site: <https://www.katowice.lasy.gov.pl/ochrona-lasu1#.VqXyuFIXukQ>. Accessed 2023 April 14 (in Polish).RDLP Katowice2022Ochrona lasów na terenie RDLP w Katowicach (Protection of Forests in the RDLP in Katowice)WEB site: <https://www.katowice.lasy.gov.pl/ochrona-lasu1#.VqXyuFIXukQ>. Accessed 2023 April 14 (in Polish).Search in Google Scholar
Reichstein M, Bahn M, Ciais P, Frank D, Mahecha MD, Seneviratne SI, Zscheischler J, Beer C, Buchmann N, Frank DC, Papale D, Rammig A, Smith P, Thonicke K, van der Velde M, Vicca S, Walz A and Wattenbach M, 2013. Climate extremes and the carbon cycle. Nature 500(7462): 287–295.ReichsteinMBahnMCiaisPFrankDMahechaMDSeneviratneSIZscheischlerJBeerCBuchmannNFrankDCPapaleDRammigASmithPThonickeKvan der VeldeMViccaSWalzAWattenbachM2013Climate extremes and the carbon cycleNature5007462287295Search in Google Scholar
Scharnweber T, Manthey M, Criegee C, Bauwe A, Schröder C and Wilmking M, 2011. Drought matters–declining precipitation influences growth of Fagus sylvatica L. and Quercus robur L. in north-eastern Germany. Forest Ecology and Management 262(6): 947–961.ScharnweberTMantheyMCriegeeCBauweASchröderCWilmkingM2011Drought matters–declining precipitation influences growth of Fagus sylvatica L. and Quercus robur L. in north-eastern GermanyForest Ecology and Management2626947961Search in Google Scholar
Shestakova TA, Voltas J, Saurer M, Berninger F, Esper J, Andreu-Hayles L and Gutiérrez E, 2019. Spatio-temporal patterns of tree growth as related to carbon isotope fractionation in European forests under changing climate. Global Ecology and Biogeography 28(9): 1295–1309.ShestakovaTAVoltasJSaurerMBerningerFEsperJAndreu-HaylesLGutiérrezE2019Spatio-temporal patterns of tree growth as related to carbon isotope fractionation in European forests under changing climateGlobal Ecology and Biogeography28912951309Search in Google Scholar
Somorowska U, 2016. Changes in drought conditions in Poland over the past 60 years evaluated by the standardized precipitation-evapotranspiration index. Acta Geophysica 64: 2530–2549.SomorowskaU2016Changes in drought conditions in Poland over the past 60 years evaluated by the standardized precipitation-evapotranspiration indexActa Geophysica6425302549Search in Google Scholar
von Arx G and Carrer M, 2014. ROXAS–A new tool to build centuries-long tracheid-lumen chronologies in conifers. Dendrochronologia 32(3): 290–293.von ArxGCarrerM2014ROXAS–A new tool to build centuries-long tracheid-lumen chronologies in conifersDendrochronologia323290293Search in Google Scholar
Wilczyński S and Skrzyszewski J, 2002. Dependence of Scots pine tree rings on climatic conditions in Southern Poland (Carpatian Mountains). EJPAU 5(2): 7. Series Forestry.WilczyńskiSSkrzyszewskiJ2002Dependence of Scots pine tree rings on climatic conditions in Southern Poland (Carpatian Mountains)EJPAU527Series Forestry.Search in Google Scholar
Wilczyński S and Skrzyszewski J, 2003. Dendrochronology of Scots pine (Pinus sylvestris L.) in the mountains of Poland. Journal of Forest Science 49: 95–103.WilczyńskiSSkrzyszewskiJ2003Dendrochronology of Scots pine (Pinus sylvestris L.) in the mountains of PolandJournal of Forest Science4995103Search in Google Scholar
Zang C and Biondi F, 2015. treeclim: an R package for the numerical calibration of proxy-climate relationships. Ecography 38(4): 431–436.ZangCBiondiF2015treeclim: an R package for the numerical calibration of proxy-climate relationshipsEcography384431436Search in Google Scholar
Zespół Ochrony Lasu w Opolu, 2019. Sośniny w dalszym ciągu zagrożone (Sośniny are still under threat). WEB site: <https://www.zolopole.lasy.gov.pl>. Accessed 14 April 2023 (in Polish).Zespół Ochrony Lasu w Opolu2019Sośniny w dalszym ciągu zagrożone (Sośniny are still under threat)WEB site: <https://www.zolopole.lasy.gov.pl>. Accessed 14 April 2023 (in Polish).Search in Google Scholar