Exploring Growth Variability and Crown Vitality of Sessile Oak (Quercus Petraea) in the Czech Republic

Assmann E, 1970. The Principles of Forest Yield Study: Studies in the Organic Production, Structure, Increment and Yield of Forest Stands. Pergamon Press, Oxford: 506pp. 10.1016/B978-0-08-006658-5.50004-2Search in Google Scholar

Barbaroux C and Bréda N, 2002. Contrasting distribution and seasonal dynamics of carbohydrate reserves in stem wood of adult ring-porous sessile oak and diffuse-porous beech trees. Tree Physiology 22: 1201-1210, DOI 10.1093/treephys/22.17.1201. 10.1093/treephys/22.17.120112464573Search in Google Scholar

Becker M, Nieminen TM and G1érémia F, 1994. Short-term variations and long-term changes in oak productivity in northeastern France. The role of climate and atmospheric CO2. Annals of Forest Sci-ence 51: 477-492. 10.1051/forest:19940504Search in Google Scholar

Bergès L, Nepveu G and Franc A, 2008. Effects of ecological factors on radial growth and wood density components of sessile oak (Quer-cus petraea Liebl.) in Northern France. Forest Ecology and Management 255(3-4): 567-579, DOI 10.1016/j.foreco.2007.09.027. 10.1016/j.foreco.2007.09.027Search in Google Scholar

Biondi F and Waikul K, 2004. DendroClim2002: AC++ program for statistical calibration of climate signals in tree ring chronologies. Computers & Geosciences 30: 303-311, DOI 10.1016/j.cageo.2003.11.004. 10.1016/j.cageo.2003.11.004Search in Google Scholar

Bréda N and Granier A, 1996. Intra and inter-annual variation of transpiration, leaf area index and radial growth of a sessile oak stand. Annals of Forest Science 53: 521-536. 10.1051/forest:19960232Search in Google Scholar

Bronisz A, Bijak S, Bronisz K and Zasada M, 2012. Climate influence on radial increment of oak (Quercus SP.) in central Poland. Geo-chronometria 39(4): 276-284, DOI 10.2478/s13386-012-0011-7. 10.2478/s13386-012-0011-7Search in Google Scholar

Büntgen U, Trouet V, Frank D, Leuschner HH, Friedrichs D, Luter-bacher J and Esper J, 2010. Tree-ring indicators of German sum-mer drought over the last millennium. Quaternary Science Reviews 29: 1005-1016, DOI 10.1016/j.quascirev.2010.01.003. 10.1016/j.quascirev.2010.01.003Search in Google Scholar

Cedro A, 2007. Treering chronologies of downy oak (Quercus pu-bescens), pedunculate oak (Q. robur) and sessile oak (Q. petraea) in the Bielinek Nature Reserve: Comparison of the climatic deter-minants of tree-ring width. Geochronometria 26: 39-45, DOI 10.2478/v10003-007-0005-2. 10.2478/v10003-007-0005-2Search in Google Scholar

Cudlín P, Novotný R, Moravec I and Chmelíková E, 2001. Retrospec-tive evaluation of the response of montane forest ecosystems to multiple stress. Ekológia 20: 108-124. Search in Google Scholar

Čejková A and Poláková S, 2012. Growth responses of sessile oak to climate and hydrological regime in the Zbytka nature reserve, the Czech Republic. Geochronometria 39(4): 285-294, DOI 10.2478/s13386-012-0017-1. 10.2478/s13386-012-0017-1Search in Google Scholar

Doležal J, Mazůrek P, Klimešová J, 2010. Oak decline in southern Moravia: the association between climate change and early and late wood formation in oaks. Preslia 82(3): 289-306 Search in Google Scholar

Drobyshev I, Linderson H and Sonesson K, 2007. Relationship Between Crown Condition and Tree Diameter Growth in Southern Swedish Oaks. Environmental Monitoring and Assessment 128(1-3): 61-73, DOI 10.1007/s10661-006-9415-2.10.1007/s10661-006-9415-217171283Search in Google Scholar

Eckstein D and Bauch J, 1969. Beitrag zur Rationalisierung eines dendrochronologischen Verfahrens und zur Analyse seiner Aussa-gesicherheit. Forstwissenschaftliches Centralblatt 88: 230-250.10.1007/BF02741777Search in Google Scholar

Eichhorn J, Roskams P, Ferretti M, Mues V, Szepesi A and Durrant D, 2010. Visual Assessment of Crown Condition and Damaging Agents. 49 pp. Manual Part IV. In: Manual on methods and criteria for harmonized sampling, assessment, monitoring and analysis of the effects of air pollution on forests. UNECE ICP Forests Pro-gramme Co-ordinating Centre, Hamburg. ISBN: 978-3-926301-03-1. [http://www.icp-forests.org/Manual.htm] Search in Google Scholar

Fajvan MA, Rentch J and Gottschalk K, 2008. The effects of thinning and gypsy moth defoliation on wood volume growth in oaks. Trees - Structure and Function 22(2): 257-268.10.1007/s00468-007-0183-6Search in Google Scholar

Fonti P and García-González I, 2008. Earlywood vessel size of oak as a potential proxy for spring precipitation in mesic sites. Journal of Biogeography 35(12): 2249-2257, DOI 10.1111/j.1365-2699.2008.01961.x.10.1111/j.1365-2699.2008.01961.xSearch in Google Scholar

Friedrichs D, Büntgen U, Esper J, Frank D, Neuwirth B and Löffler J, 2009. Complex climate controls on 20th century oak growth in Central-West Germany. Tree Physiol 29: 39-51, DOI 10.1093/treephys/tpn003.10.1093/treephys/tpn00319203931Search in Google Scholar

Fritts HC, Mosimann JE and Bottorff CP, 1969. A Revised Computer Program for Standardizing Tree - Ring Series. Tree Ring Bulletin 29: 15-20.Search in Google Scholar

Fritts HC, 1976. Tree ring and climate. Academic Press. London, New York, San Francisco: 567pp.Search in Google Scholar

Grissino-Mayer HD, Holmes R and Fritts HC, 1992. International tree-ring data bank program library. Version 1.1. Laboratory of Tree-Ring Research, University of Arizona, Tucson.Search in Google Scholar

Hlavinka P, Trnka M and Balek J, 2011. Development and evaluation of the SoilClim model for water balance and soil climate estimates. Agricultural Water Management 98(8): 1249-1261, DOI 10.1016/j.agwat.2011.03.011.10.1016/j.agwat.2011.03.011Search in Google Scholar

Holmes RL, Adams RK and Fritts HC, 1986. Tree-Ring Chronologies of Western North America: California, Eastern Oregon and North-ern Great Basin with Procedures Used in the Chronology Devel-opment Work Including Users Manuals for Computer programs Cofecha and Arstan. - Chronology Series VI. Laboratory of Tree - Ring Research, University of Arizona, Tuscon, AZ, USA: 50-56.Search in Google Scholar

Horáček P, Šlezingerová J and Gandělová L, 2003. Analysis of cambial activity and formation of wood in Quercus robur L. under condi-tions of a floodplain forest. Journal of Forest Science 49(9): 412-418.10.17221/4714-JFSSearch in Google Scholar

Kienast F, Schweingruber FH, Bräker OU and Schär E, 1987. Tree ring studies on conifers along ecological gradients and the potential of single-year analyses. Canadian Journal of Forest Research 17: 683-696, DOI 10.1139/x87-111.10.1139/x87-111Search in Google Scholar

Kolář T, Rybníček M and Kyncl T, 2012. Oak chronology development in the Czech Republic and its teleconnection on a European scale. Dendrochronologia 30(3): 243-248, DOI 10.1016/j.dendro.2012.02.002.10.1016/j.dendro.2012.02.002Search 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: 361-372, DOI 10.1051/forest:2004029.10.1051/forest:2004029Search in Google Scholar

Lichtenthaler HK, 2006. The Stress Concept in Plants: An Introduction. Annals of the New York Academy of Sciences 851: 187-198.10.1111/j.1749-6632.1998.tb08993.x9668620Search in Google Scholar

McKee TB, Doesken NJ and Kleist J, 1993. The relationship of drought frequency and duration to time steps. Preprints, 8th Conference on Applied Climatology, Anaheim, January 17-22, 179-184.Search in Google Scholar

Michelot A, Breda N, Damesin C and Dufrene E, 2012. Differing growth responses to climatic variations and soil water deficits of Fagus sylvatica, Quercus petraea and Pinus sylvestris in a temper-ate forest. Forest Ecology and Management 265: 161-171, DOI 10.1016/j.foreco.2011.10.024.10.1016/j.foreco.2011.10.024Search in Google Scholar

Mérian P, Bontemps JD, Bergès L and Lebourgeois F, 2011. Spatial variation and temporal instability in climate-growth relationships of sessile oak (Quercus petraea [Matt.] Liebl.) under temperate conditions. Plant Ecology 212(11): 1855-1871, DOI 10.1007/s11258-011-9959-2.10.1007/s11258-011-9959-2Search in Google Scholar

MZe ČR, 2012. Zpráva o stavu lesa a lesního hospodářství České republiky v roce 2011(Report on Forest Management of the Czech Republic in 2011). MZe ČR, Praha: 138pp (in Czech).Search in Google Scholar

Palmer WC, 1965. Meteorological Drought. Office of Climatology Research Paper 45. U.S. Weather Bureau, Washington, 65pp.Search in Google Scholar

Petráš R and Mecko J, 2011. Effect of climatic factors on the dynamics of radial increments of Norway spruce, European beech and Ses-sile oak. Journal of Forest Science 57 (7): 293-302.10.17221/49/2010-JFSSearch in Google Scholar

Popa I, Leca S, Crăciunescu A, Sidor C and Badea O, 2013. Dendrocli-matic Response Variability of Quercus species in the Romanian Intensive Forest Monitoring Network. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 41 (1): 326-332.10.15835/nbha4119015Search in Google Scholar

Rybníček M, Čermák P, Kolář T and Žid T, 2010. Radial Growth and Health Condition of Norway Spruce (Picea abies (L.) Karst.) Stands in Relation to Climate (Silesian Beskids, Czech Republic). Geochronometria 36(1): 9-16, DOI 10.2478/v10003-010-0017-1.10.2478/v10003-010-0017-1Search in Google Scholar

Rybníček M, Čermák P, Hadaš P, Žid T and Kolář T, 2012. Dendro-chronological Analysis and Habitual Stress Diagnostic Assessment of Norway Spruce (Picea abies) Stands in the Drahany Highlands. Wood Res-Slovakia 57 (2): 189-206.Search in Google Scholar

Schweingruber FH, Eckstein D, Serre-Bachet F and Bräker OU, 1990. Identification, presentation and interpretation of event years and pointer years in dendrochronology. Dendrochronologia 8: 9-38.Search in Google Scholar

Schweingruber FH, 1996. Tree Rings and Environment Dendroecology. Birmensdorf, Swiss Federal Institute for Forest, Snow and Land-scape Research, Bern, Stuttgart, Vienna, 609pp.Search in Google Scholar

Spiecker H, 1991. Zur Steuerung des Dickenwachst ums und der Astrei-nigung von Stiel- und Traubeneichen (Quercus petraea (MATT.) LIEBL. und Quercus robur L.). Schriftenreihe der Landesforstver-waltung Baden-Württemberg Band 72 Stuttgart, Selbstverlag der Landesforstverwaltung Baden-Württemberg, 155pp.Search in Google Scholar

Štěpánek P, 2007. ProClimDB - software for processing climatological datasets. CHMI, regional office Brno. WEB site: <http://www.climahom.eu/ProcData.html> Search in Google Scholar

Tegel W, Vanmoerkerke J and Büntgen U, 2010. Updating historical tree-ring records for climate reconstruction. Quaternary Science Reviews 29: 1957-1959, DOI 10.1016/j.quascirev.2010.05.018.10.1016/j.quascirev.2010.05.018Search in Google Scholar

Trnka M, Olesen JE, Kersebaum KC, Skjelvag AO, Eitzinger J, Seguin B, Peltonen-Sainio P, Rötter R, Iglesias A, Orlandini S, Dubrovsky M, Hlavinka P, Balek J, Eckersten H, Cloppet E, Calanca P, Gobin A, Vucetic V, Nejedlik P, Kumar S, Lalic B, Mestre A, Rossi F, Kozyra J, Alexandrov V, Semeradova D and Žalud Z, 2012. Agro-climatic conditions in Europe under climate change. Global Change Biology 17(7): 2298-2318, DOI 10.1111/j.1365-2486.2011.02396.x.10.1111/j.1365-2486.2011.02396.xSearch in Google Scholar

Vavrčík H and Gryc V, 2012. Analysis of the annual ring structure and wood density relations in English oak and Sessile oak. Wood Res-Slovakia 57 (4): 573-580.Search in Google Scholar

Vicente-Serrano SM, Beguería S and López-Moreno JI, 2010. A Multi-scalar drought index sensitive to global warming: The Standard-ized Precipitation Evapotranspiration Index - SPEI. J Climate 23: 1696-1718, DOI 10.1175/2009JCLI2909.1.10.1175/2009JCLI2909.1Search in Google Scholar

Viewegh J, Kusbach A and Mikeska M, 2003. Czech forest ecosystem classification. Journal of Forest Science 49(2): 85-93. 10.17221/4682-JFSSearch in Google Scholar