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naukowo-technicznego pt. "Odbudowa lasów w Sudetach", Szklarska Poręba, 1-2 października 1998. Mejnartowicz L. 2004 a. Genetic Analysis of Silver-fir Populations in the North Carpathian and Sudeten Mountains. Acta Societatis Botanicorum Poloniae , 73 (4): 285-292. Mejnartowicz L. 2004 b. North-Carpathians and Sudeten Silver-fir Genetic Variation and Diversity. Mitteilungen aus der Forshungsanstalt für Waldökologie und Forstwirtschaft Rheinland-Pfalz , 52 : 169-180. Skrzyszewska K. 1999. Wartość genetyczno-hodowlana jodły pospolitej ( Abies alba Mill

/90. Zeszyty Naukowe Akademii Rolniczej w Krakowie , 88: 121-128. Skrzyszewska K. 2006. Zmienność wewnątrzgatunkowa jodły pospolitej w doświadczeniach proweniencyjnych. w: Sabor J. (red.) Elementy genetyki i hodowli selekcyjnej drzew leśnych. CILP, Warszawa: 171-180. ISBN 9788388478215. Szeligowski H. 2006. Analysis of selected attributes of Silver fir different provenances at experimental trial in Forest Experimental Station in Rogów at the age of 21 years. Annals of Warsaw Agricultural University - Forestry and Wood Technology , 60: 95-104. Tarasiuk S., Bellon S. Gunia S

References Barzdajn W. 2009. Adaptacja różnych pochodzeń jodły pospolitej ( Abies alba Mill.) do warunków Sudetów. Leśne Prace Badawcze 70(1): 49–58. Barzdajn W. 2010. Provenance and family variation of Silver fir ( Abies alba Mill.) in the experiment established in the Siemianice Forest Experimental Station in 1996. Annals of Warsaw University of Life Sciences – SGGW, Forestry and Wood Technology 73: 51–64. Bednarek A. 1993. Warunki fizjograficzn – klimat, w: Warunki przyrodnicze lasów doświadczalnych SGGW w Rogowie (red. R. Zielony). SGGW, Warszawa, 24

References Bijak S. 2010. Tree-ring chronology of silver fir and its dependence on climate of the Kaszubskie Lakeland (Northern Poland). Geochronometria, 35: 91-94. Bernadzki E. 2003. Struktura wieku i zagrożenie zgnilizną drewna starych drzewostanów sosnowych. Sylwan, 5: 3-12. Chomicz E., Niemtur S. 2008. Występowanie zgnilizny odziomkowej w wybranych drzewostanach świerkowych Karpat Zachodnich. Leśne Prace Badawcze, 69(3): 233-241. Ciscar J. C. (editor) 2014. Climate Impacts in Europe. The JRC PESETA II project. Publications Office of the European Union

References Boys J., Cherry M., Dayanandan S. 2005. Microsatellite analysis reveals genetically distinct populations of red pine (Pinus resinosa Pinaceae). American Journal of Botany, 92, 833-841, doi: 10.3732/ ajb.92.5.833. Breitenbach-Dorfer M., Konnert M., Pinsker W., Starlingen F., Geburek T. 1997. The contact zone between two migration routes of silver fir, Abies alba (Pinaceae), revealed by allozyme studies. Plant Systematics and Evololution, 206, 259-272. Celiński K., Pawlaczyk E.M., Wojnicka-Półtorak A., Chudzińska E., Prus-Głowacki W. 2013. Crossspecies

markers. Plant Syst. Evol. 277: 197-205. Echt C. S., Deverno L. L., Anzidei M. & Vendramin G. G. 1998. Chloroplast Microsatellites Reveal Population Genetic Diversity in Red Pine, Pinus resinosa Ait Mol. Ecol. 7: 307-316. Excoffier L., Laval G. & Schneider S. 2005. Arlequin ver. 3.0: An integrated software package for population genetics data analysis. Evolutionary Bioinformatics Online 1: 47-50. Goncharenko G. G. & Savitsky B. P. 2000. Population and genetic resources of silver fir in Belarus. 121 pp. National Academy of Science of Belarus, Forest Institute, Gomel

References Assmann E. 1968. Nauka o produkcyjności lasu. Warszawa, PWRiL. Borowski M. 1974. Przyrost drzew i drzewostanów. Warszawa, PWRiL. Bruchwald A. 1993. Uniform height curves for silver-fir stands. Annals of Warsaw Agricultural University Forestry and Wood Technology , 44: 3-5. Bruchwald A., Dudzińska T., Dudek A., Michalak K., Wróblewski L. 1985. Wstępne wyniki badań nad produkcyjnością drzewostanów świerkowo-sosnowych północnowschodniej Polski. Sylwan , 129 (9): 1-12. Burkhart H. E., Tham A. 1992. Predictions from growth and yield models of the

Abstract

Existing knowledge of the Ukrainian foresters related to the historical changes and current state of silver fir forests, as well as on the various methods of restoration of such forests in the Ukrainian Carpathians were discussed. Forest cover of fir stands in this region has been diminishing in the last two centuries. Only in the period from 1947 to 1956, the area of fir stands in Ukrainian Carpathians decreased by 38.8%. Currently, the restoration of fir stands in these areas are crucial for Ukrainian forestry. Therefore, the natural as well as artificial regeneration using seeds obtained from seed orchards are currently used. Thus, improving the forest stands’ conditions mostly composed of single-spruce plantations need to be improved through changing the species compositions. However, the restoration of fir stands is time and labour-intensive, and require a long-term strategy.

inheritance, Heredity 10, 31-50. GRIFFING, B. (1956b): Concept of general and specific combining ability in relation to diallel crossing systems. Aust J Biol Sci 9, 463-493. HODGE, G. R., P. W. VOLKER and B. M. POTTS (1996): A comparison of genetic information from open-pollinated and control-pollinated progeny tests in two eucalypt species. Theor Appl Genet 92, 53-63. HOLLAND, J. B. (2001): Epistasis and plant breeding. In: Plant breeding reviews, JANICK, J. (editor), 21. HUSSENDORFER, E. (1999): Genetic variation of silver fir populations (Abies alba Mill.) in Switzerland

References Battipaglia G., Saurer M., Cherubini P., Siegwolf R., Cotrufo M. 2009. Tree rings indicate different drought resistance of a native ( Abies alba Mill.) and a nonnative ( Picea abies (L.) Karst.) species co-occurring at a dry site in Southern Italy. Forest Ecology and Management , 257: 820-828. Becker B., Giertz-Siebenlist V. 1970. Eine über 1100 jahrige mitteleuropaische Tannenchronologie. Flora , 159: 310-346. Bert D. 1992. Silver fir ( Abies alba Mill.) shows an increasing long term trend in the Jura mountains, w: Tree rings and environment (ed