[Bałut S., Sabor J. 2002. Inventory provenance test of Norway Spruce (Picea abies ( L.) K arst.) I PTNSIUFRO 1964/68 in Krynica. Part II. Test results of 1968-1984. Geographical variability of traits in the whole range of the species.]Search in Google Scholar
[Bergmann F., Gregorius H.R. 1979. Comparison of the genetic diversities of various populations of Norway spruce (Picea abies). In: Proceedings of the Conference on Biochemical Genetics of Forest Trees (ed.: F. Rudin). Umeå, 99-107. ]Search in Google Scholar
[Bergmann F., Scholz F. 1985. Effects of selection pressure by SO2 pollution on genetic structure of Norway spruce (Picea abies). Lecture Notes in Biomathematics, 60, 267-275.]Search in Google Scholar
[Brown A.H.D., Weir B.S. 1983. Measuring genetic variability in plant populations. In: Isozymes in Plant Genetic and Breeding. Part A (eds.: S.D. Tranksley, T.J. Orton). Elsevier Science Publ. Amsterdam, 219-239.]Search in Google Scholar
[Bush R.M., Smouse P.E. 1992. Evidence for the adaptive significance of allozymes in forest trees. New Forest, 6, 179-196.]Search in Google Scholar
[Collignon A.M., van de Sype H., Farve J.M. 2002. Geographical variation in random amplified polymorphic DNA and quantitative traits in Norway spruce. Canadian Journal of Forest Research, 32 (2), 266-282.]Search in Google Scholar
[Danusevičius, D. Gavrilavičius, R. 2001. Variation in growth rhythm among Picea abies provenances from the Baltic States and the adjacent regions. Scandinavian Journal of Forest Research, 16, 305-317.]Search in Google Scholar
[Durel C.E., Bertin P., Kremer A. 1996. Relationship between inbreeding depression and inbreeding coefficient in maritime pine (Pinus pinaster). Theoretical and Applied Genetics, 92, 347-356. DOI: 10.1007/BF00223678.10.1007/BF00223678]Search in Google Scholar
[Giertych M. 1989. Doskonalenie składu genetycznego populacji drzew leśnych. Wyd. SGGW-AR, Warszawa. ]Search in Google Scholar
[Giertych M. 2002. Troska o bioróżnorodność. Sesja naukowa nt. Zagospodarowanie oraz wartość genetyczna populacji drzew gatunków domieszkowych i introdukowanych w aspekcie stabilizacji ekosystemów leśnych Karpat. Zeszyty Naukowe Akademii Rolniczej w Krakowie, 394, 289-301.]Search in Google Scholar
[Gömöry D. 1992. Effect of stand origin on the genetic diversity of Norway spruce (Picea abies Karst.) populations. Forest Ecology and Management, 54, 215-223.]Search in Google Scholar
[Holzer K. 1966. Die Vererbung von physiologischen und morphologischen Eigenschaften der Fichte. I. Sämlingsuntersuchungen. Mitt. Forstl. Bundesversuchsanst. Mariabrunn, 71, 1-185.]Search in Google Scholar
[Hosius B., Leinemann L., Konnert M., Bergman F. 2006. Genetic aspects of forestry in the Central Europe. European Journal of Forest Research, 125, 407-417.]Search in Google Scholar
[Konnert M., Ruetz W. 2001. Genetic variation of beech (Fagus sylvatica L.) provenances in an international beech provenance trial. Forest Genetics, 8 (3), 173-184.]Search in Google Scholar
[Konnert M., Ruetz W. 2003. Influence of nursery on the genetic structure of beech (Fagus sylvatica L.) seedling populations. Forest Ecology and Management, 184, 193-200. http://dx.doi.org/10.1016/S0378-1127(03)00206-8.10.1016/S0378-1127(03)00206-8]Search in Google Scholar
[Kraj W., Sztorc A. 2001. Genetic structure and variability of phenological forms in the European beech (Fagus sylvatica L.). Annals of Forest Science, 66, 1-7.]Search in Google Scholar
[Krutzsch P. 1968. Die Pflanzschulenergebnisse eines inventierenden Fichten herunftsversuches (Picea abies Karst und Picea obovata Ledeb.). Forst genetischen Institut Konigliche Hochschule, Stockholm. ]Search in Google Scholar
[Lewandowski A., Burczyk J. 2002. Allozyme variation of Picea abies in Poland. Scandinavian Journal of Forest Research, 17, 487-494.]Search in Google Scholar
[Maghuly F., Nittinger F., Pinsker W., Praznik W., Fluch S. 2006. Differentiation among Austrian populations of Norway spruce [Picea abies (L.) Karst.] assayed by mitochondrial DNA markers. Tree Genetics and Genomes, 3, 199-206.]Search in Google Scholar
[Marshal F., Allard R.W. 1970. Maintenance of isozyme polymorphism in natural populations of Avena barbata. Genetics, 66, 393-399.]Search in Google Scholar
[Masternak K. 2015. Genetic variability of phonological forms in selected provenances of Norway spruce of IPTNS-IUFRO 1964/68 experiment test in Poland. Austrian Journal of Forest Research, 3, 169-184.]Search in Google Scholar
[Masternak K., Sabor J. 2013. Polimorfizm izoenzymowy świerka pospolitego z wybranych regionów Krutzscha testowanych w doświadczeniu IPTNS− IUFRO 1964/68 w Krynicy. Sylwan, 157(1), 47-53.]Search in Google Scholar
[Masternak K., Zielińska M., Sabor J. 2011. Polimorfizm izoenzymów i wzrost wybranych pochodzeń świerka pospolitego [Picea abies (L.) Karst.] doświadczenia IPTNS-IUFRO 1964/68 w Krynicy. Leśne Prace Badawcze, 72 (1), 65-75.]Search in Google Scholar
[Modrzyński J. 1995. Altitudinal adaptation of Norway spruce (Picea abies (L.) Karst.) progeniens indicates small role of introduced populations in the Karkonosze Mountains. Silvae Genetica, 44, 70-75.]Search in Google Scholar
[Modrzyński J., Eriksoon G. 2002. Response of Picea abies populations from elevational transects in the Polish Sudety and Carpathian Mountains to simulated drought stress. Forest Ecology and Management, 165, 105-116. DOI: 10.1016/S0378- 1127(01)00651-X]Search in Google Scholar
[Modrzyński J., Prus-Głowacki W. 1998. Isoenzymatic variability in some of the Polish populations of Norway Spruce (Picea abies) in the IUFRO 1972 provenance trial. Acta Societatis Botanicorum Poloniae, 67, 75-82.]Search in Google Scholar
[Nei M., Roychoundry A.K. 1974. Sampling variances of heterozygosity and genetic distance. Genetics, 76, 379-390.]Search in Google Scholar
[Nowakowska J. 2007. Zmienność genetyczna polskich wybranych populacji sosny zwyczajnej (Pinus sylvestris L.) na podstawie analiz polimorfizmu DNA. Prace Instytutu Badawczego Leśnictwa. Rozprawy i monografie. Nr 9.]Search in Google Scholar
[Nowakowska J., Bieniek J., Jabłonowski S. 2006. RAPD polymorphism of Norway spruce (Picea abies L. Karst.) populations in Poland. Folia Forestalia Polonica, Ser. A - Forestry, 48, 27-44.]Search in Google Scholar
[Peakall R., Smouse P.E. 2006. Gen Alex 6: genetic analysis in Excel. Population genetic software for teaching and research. Molecular Ecology Notes, 6, 288-295. DOI: 10.1093/bioinformatics/bts460.10.1093/bioinformatics/bts460346324522820204]Search in Google Scholar
[Polak-Berecka M. 2000. Rola zmienności genetycznej drzewostanów w programie zachowania leśnych zasobów genowych. Sylwan, 1, 53-58.]Search in Google Scholar
[Prus-Głowacki W., Bielewicz A., Modrzyński J. 2007. Struktura genetyczna populacji świerka (Picea abies) z dolnego i górnego regla Karpat i Sudetów. Zeszyty Naukowe Akademii Rolniczej im. H. Kołłątaja w Krakowie. Sesja Naukowa, 92, 43-55.]Search in Google Scholar
[Prus-Głowacki W., Godzik S. 1991. Genetic structure of Picea abies trees tolerant and sensitive to industrial pollution. Silvae Genetica, 44 (2/3), 62-65.]Search in Google Scholar
[Prus-Głowacki W., Modrzyński J. 2003. Zmienność izoeznymatyczna niektórych populacji (Picea abies (L.) Karst.) z doświadczenia proweniencyjnego IUFRO-1972. Sylwan, 3, 3-10.]Search in Google Scholar
[Pukacki P.M., Modrzyński J. 1998. The influence of ultraviolet-B radiation onthe growth, pigment production and chlorophyll fluorescence of Norway spruce seedlings. Acta Physiologiae Plantarum, 20 (3), 245-250.]Search in Google Scholar
[Sabor J. 1977. Pędzenie wiosenne świerka pospolitego (Picea abies (L.) Karst.) proweniencji objętych doświadczeniem IPTNS-IUFRO 1964/68 na powierzchni doświadczalnej LZD Krynica w cyklu przyrostowym 1975 roku. Katedra Genetyki, Nasiennictwa i Szkółkarstwa Leśnego. Rozprawa doktorska (maszynopis).]Search in Google Scholar
[Sabor J. 1984. Pędzenie wiosenne świerka pospolitego (Picea abies (L.) Karst.) w rocznym cyklu przyrostowym proweniencji objętych doświadczeniem IPTNS-IUFRO 1964/68 w Krynicy. Acta Agraria et Silvestria, 23, 53-69.]Search in Google Scholar
[Sabor J. 1989. The age x age of spring flushing correlation and the selection of resistant to spring frost Norway spruce provenances of IPTNS-IUFRO 1964/68 experiment in Krynica In: Norway spruce provenances, breeding and genetic conservation (eds.: L.G. Stener, M. Werner). The Institute for Forest Improvement, Uppsala, Rep. 11, 142-152.]Search in Google Scholar
[Sabor J. 1998. Nasiennictwo, szkółkarstwo i selekcja drzew leśnych, cz. III. Podstawy selekcji drzew. Wydawnictwo Akademii Rolniczej, Kraków.]Search in Google Scholar
[Sabor J., Stanuch H. 2009. Assessment of the height growth of Picea abies as related to the geographical regions of Krutzsch (IPTNS-IUFRO 1964/68, years 1969-1988). Dendrobiology, 61, 39-52.]Search in Google Scholar
[Skrøppa T. 1994. Impact of tree improvement on genetic structure and diversity of planted forests. Silva Fennica, 28 (4), 265-274.]Search in Google Scholar
[Søgaard G. Johnsen Ø., Nilsen J., Junttila O. 2008. Climatic control of bud burst in young seedlings of nine provenances of Norway spruce. Tree Physiology, 28, 311-320. DOI: 10.3389/fpls.2014.00691. 10.3389/fpls.2014.00691426049225538722]Search in Google Scholar
[Stat Soft Inc STATISTICA (data analysis software system) version 9,0. www. statsoft.com.. 2010.]Search in Google Scholar
[Tröber U., Brandes E. 2005. Untersuchung genetischer Strukturen in Buchen-Beständen (Fagus sylvatica L.) des mittleren Erzgebirges. Teil 1: Isoenzym- Genmarker. Forst und Holz, 60, 190-193.]Search in Google Scholar
[Wang T.L. 1996. Allozyme variation in populations, full-sib families and selfed lines in Betula pendula Roth. Theoretical and Applied Genetics, 92, 1052-1058.]Search in Google Scholar
[Wright J.W. 1976. Introduction to Forest Genetics. Academic Press, New York, San Fransisco, London. 10.1016/B978-0-12-765250-4.50005-8]Search in Google Scholar
[Żółciak A., Oszako T., Sabor J. 2009. Evaluation of the health status of Picea abies provenances growing on the IUFRO 1964/68 experimental plots. Dendrobiology, 61, 63-68.]Search in Google Scholar
