[BERG, E. E. and J. L. HAMRICK (1995): Fine-scale genetic structure of a turkey oak forest. Evolution 49: 110-120.10.1111/j.1558-5646.1995.tb05963.x28593662]Search in Google Scholar
[BUCCI, G., M. ANZIDEI, A. MADAGHIELE, C. SPERISEN and G. G. VENDRAMIN (1998): Detection of haplotypic variation and natural hybridisation in halepensis-complex pine species using chloroplast simple sequence repeat (SSR) markers. Mol Ecol 7: 1633-1643.10.1046/j.1365-294x.1998.00466.x]Search in Google Scholar
[CORANDER, J. and J. TANG (2007): Bayesian analysis of population structure based on linked molecular information. Mathematical Biosciences 205 (1): 19-31.10.1016/j.mbs.2006.09.01517087977]Search in Google Scholar
[CHEN, X.Y. and Y. C. SONG (1997): Temporal genetic structure of a Cyclobalanopsis glauca population in Huangshan. J East China Normal Univ (Nat Sci) (4): 79-84.]Search in Google Scholar
[CHUNG, M.Y., B. K. EPPERSON and M. G. CHUNG (2003): Genetic structure of age classes in Camellia japonica (Theaceae). Evolution 57 (1): 62-73.10.1111/j.0014-3820.2003.tb00216.x12643568]Search in Google Scholar
[ECHT, C. S., L. L. DEVERNO, M. ANZIDEI and G. G. VENDRAMIN (1998): Chloroplast microsatellites reveal population genetic diversity in red pine, Pinus resionsa, Ait. Mol Ecol 7: 307-316.10.1046/j.1365-294X.1998.00350.x]Search in Google Scholar
[ENNOS, R. A., W. T. SINCLAIR, X-S. HU and A. LANGDON (1999): Using organelle markers to elucidate the history, ecology and evolution of plant populations. In: Molecular Systematics and Evolution. Edited by P. M. BATEMAN and R. J. GORNALL. Taylor & Francis Ltd., London, pp. 1-19.10.1201/9781439833278.ch1]Search in Google Scholar
[EXCOFFIER, L., P. E. SMOUSE and J. M. QUATRO (1992): Analysis of molecular variance inferred from metric distancesamong DNA haplotypes: application to human mitochondrial DNA restriction sites. Genetics 131: 479-491.10.1093/genetics/131.2.47912050201644282]Search in Google Scholar
[GEBUREK, T. (1997): Isozymes and DNA markers in gene conservation of forest trees. Biodivers Conserv 6: 1639-1654.10.1023/A:1018330906758]Search in Google Scholar
[HAMRICK, J. L., M. J. W. GODT and S. L. SHERMAN-BROYLES (1992): Factor influencing levels of genetic diversity in woody plant species. New Forests 6: 95-124.10.1007/BF00120641]Search in Google Scholar
[HÖHN, M., P. ABRAN and G. G. VENDRAMIN (2005): Genetic analysis of Swiss stone pine populations (Pinus cembra L. subsp. cembra) from Carpathians using chloroplast microsatellites. Acta Silv Lign Hung 1: 39-47.]Search in Google Scholar
[KITAMURA, K., K. SHIMADA, K. NAKASHIMA and S. KAWANO (1997): Demographic genetics of the Japanese beech, Fagus crenata, Japan. II. Genetic substructuring among size-classes in local populations. Plant Species Biol 12: 137-155.10.1111/j.1442-1984.1997.tb00163.x]Search in Google Scholar
[KITAMURA, K., H. TAKASU, S. HAGIWARA, K. HOMMA, J. O’NEILL, D. F. WHIGHAM and S. KAWANO (2008): Demographic genetics of American beech (Fagus grandifolia Ehrh.) IV. Development of genetic variability and gene flow during succession in a coastal plain forest in Maryland. Plant Species Biology 23 (1): 159-173.]Search in Google Scholar
[KORCZYK, A. F. (1994): Preservation of more than 200 year old Scots pine trees gene resources in the Białowiez·a Primeval Forest (in Polish and Beylarussian sides). Proc. of the IUFRO Symposium Lithuania 1994: Scots pine breeding and genetics: 101-103.]Search in Google Scholar
[KORCZYK, A. F. (2008): The stock-taking of old trees and threatened trees species in the Białowiez·a Primeval Forest. Forest Research Papers 69 (2): 117-126.]Search in Google Scholar
[KORSHIKOV, I. I. and E. A. MUDRIK (2006): Age dynamics of genetic variation in an isolated population of Chalk pine Pinus sylvestris var. Cretacea Kalenicz. Ex. Kom. From Donbass. Plant Genetics 42, No 5: 532-538.10.1134/S1022795406050103]Search in Google Scholar
[LEDIG, F. T. (1998): Genetic variation in Pinus. In: RICHARDSON, D. M. (ed) Ecology and biogeography of Pinus: 251-280. Cambridge University Press, Cambridge, UK]Search in Google Scholar
[LEFORT, F., C. ECHT, R. STREIFF and G. G. VENDRAMIN (1999): Microsatellite sequences: a new generation of molecular markers for forest genetics. Forest Genetics 6: 15-20.]Search in Google Scholar
[LINHART, Y. B., J. B. MITTON, K. B. STURGEON and M. L. DAVIS (1981): Genetic variation in space and time in a population of Ponderosa pine. Heredity 46 (3): 407-426.10.1038/hdy.1981.49]Search in Google Scholar
[LITTLE, L. R. and M. R. T. DALE (1999): A method for analyzing spatio-temporal pattern in plant establishment, tested on a Populus balsamifera clone. J Ecol 87: 266-273.10.1046/j.1365-2745.1999.00378.x]Search in Google Scholar
[MAGHULY, F., W. PINSKER, W. PRAZNIK and S. FLUCH (2006): Genetic diversity in managed subpopulations of Norway spruce (Picea abies (L.) Karst.). Forest Ecology and Management 222: 266-271.10.1016/j.foreco.2005.10.025]Search in Google Scholar
[MATRAS, J. (2006): Ochrona les´nych zasobów genowych.In: Elementy genetyki i hodowli selekcyjnej drzew les´nych, SABOR, J. (eds) Centrum Informacyjne Lasów Pan´stwowych, Warszawa, 573-577 (in Polish).]Search in Google Scholar
[MERIMANS, P. G. (2006): Using the AMOVA framework to estimate a standardized genetic differentiation measure. Evolution 60: 2399-2402.10.1111/j.0014-3820.2006.tb01874.x]Search in Google Scholar
[MILLER, M. P. (1997): TFPGA Version 1.3. A Windows program for the analysis of allozyme and molecular population genetic data. Dep. of Biol. Sci. Northern Arizona University.]Search in Google Scholar
[MOSSELER, A., I. THOMPSON and B. A. PENDREL (2003): Overview of old-growth forests in Canada from a science perspective. Environmental Review 11: 1-7.10.1139/a03-018]Search in Google Scholar
[NAMKOONG, G. (1991): Biodiversity-issues in genetics, forestry, and ethics. For Chron 68: 438-444.10.5558/tfc68438-4]Search in Google Scholar
[NEI, M. (1972): Genetic distance between populations. Am Nat 106, 283-292.10.1086/282771]Search in Google Scholar
[NEI, M. (1978): Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89: 583-590.10.1093/genetics/89.3.583121385517248844]Search in Google Scholar
[NIJENSOHN, S. E., P. G. SCHABER, G. J. HAWLEY and D. H. DEHAYES (2005): Genetic subpopulation structuring and its implications in a mature eastern white pine stand. Can J For Res 35: 1041-1052.10.1139/x05-029]Search in Google Scholar
[OKOŁÓW, C. Z., M. KARAS´ and A. BOŁBOT (2009): Białowieski Park Narodowy-poznac´, zrozumiec´, zachowac´. Wydawnictwo BPN (in Polish).]Search in Google Scholar
[PEAKALL, R. and P. E. SMOUSE (2012): GenAlEx 6.5: genetic analysis in Excel. Population genetic software for teaching and research-un update. Bioinformatics 28 (19): 2537-9.]Search in Google Scholar
[POLITOV, D.V., M. M. BELOKON and YU.S. BELOKON (2006): Dynamics of allozyme heterozygosity in Siberian Dwarf pine Pinus pumila (Pall.) Regel populations of the Russian Far East: comparison of embryos and maternal plants. Russian Journal of Genetics 42, 10: 1127-1136.10.1134/S102279540610005X]Search in Google Scholar
[PROVAN, J., N. SORANZO, N. J. WILSON, J.W. MCNICOL, G. I. FOREST, J. COTRELL and W. POWELL (1998): Genepoolvariation in Caledonian and European Scots pine (Pinus sylvestris L.) revealed by chloroplast simplesequence repeats. Proc R Soc Lond Ser B-Biol Sci 265: 1697-1705.10.1098/rspb.1998.0491]Search in Google Scholar
[PROVAN, J., W. POWELL and P. M. HOLLINGSWORTH (2001): Chloroplast microsatellites: new tools for studies in plant ecology and evolution. Trends Ecol Evol 16: 142-147.10.1016/S0169-5347(00)02097-8]Search in Google Scholar
[ROBERDS, J. H. and M. T. CONKLE (1984): Genetic structure in loblolly pine stands: allozyme variation in parents and progeny. For Sci 30: 319-329.]Search in Google Scholar
[SCHNABEL, A. and J. L. HAMRICK (1990): Organization of genetic diversity within and among populations of Gleditsia tricanthos (Leguminosae). Am J Bot 77: 1060-1069.10.1002/j.1537-2197.1990.tb13601.x]Search in Google Scholar
[SCHNEIDER, S., D. ROESSLI and L. EXCOFFIER (2000): ARLEQUIN: a software for population genetics data analysis. University of Geneva. Available from: http://lgb.unige.ch/arlequin/software]Search in Google Scholar
[SCHUELER, S., S. KAPELLER, H. KONRAD, T. GEBUREK, M. MENGL, M. BOZZANO, J. KOSKELA, F. LEFEVRE, J. HUBERT, H. KRAIGHER, R. LONGAUER and D. C. OLRIK (2013): Adaptive genetic diversity of trees for forest conservation in a future climate: a case study on Norway spruce in Austria. Biodivers Conserv 22 (5): 1151-1166.10.1007/s10531-012-0313-3]Search in Google Scholar
[SOLTIS, D. E., P. S. SOLTIS and B. G. MILLIGAN (1992): Intraspecific chloroplast DNA variation: systematics and phylogenic implications. In: Molecular Systematics of Plants. Edited by P. S. SOLTIS, D. E. SOLTIS and J. J. DOYLE. Chapman and Hall, New York, pp. 117-150.]Search in Google Scholar
[TAKENAKA, K., K. KITAMURA, K. FURUBAYASHI and S. KAWANO (2002): Demographic genetics of Siebold’s beech (Fagus crenata) populations on the Tanzawa Mountains, Kanagawa, central Honshu, Japan. I. Genetic substructuring among plots and size classes. J of Field Sci 1: 31-54.]Search in Google Scholar
[VENDRAMIN, G., L. LELLI, P. ROSSI and M. MORGANTE (1996): A set of primers for the amplification of 20 chloroplast microsatellites in Pinaceae. Mol Ecol 5: 595-598.10.1111/j.1365-294X.1996.tb00353.x]Search in Google Scholar
[VENDRAMIN, G. and B. ZIEGENHAGEN (1997): Characterization and inheritance of polymorphic plastid microsatellites in Abies. Genome 40: 857-864.10.1139/g97-8119449797]Search in Google Scholar
[VENDRAMIN, G. G., M. ANZIDEI, A. MADAGHIELE and G. BUCCI (1998): Distribution of genetic diversity in Pinus pinaster Ait. As revealed by chloroplast microsatellites. Theor Appl Genet 97: 456-463.10.1007/s001220050917]Search in Google Scholar
[VENDRAMIN, G. G., B. DEGEN, R. J. PETIT, M. ANZIDEI, A. MADAGHIELE and B. ZIEGENHAGEN (1999): High level of variation at Abies alba chloroplast microsatellite loci in Europe. Mol Ecol 8 (7): 1117-1126.10.1046/j.1365-294x.1999.00666.x10447853]Search in Google Scholar
[VENDRAMIN, G., M. ANZIDEI, A. Madaghiele, C. SPERISENand G. BUCCI (2000): Chloroplast microsatellite analysis reveals the presence of population subdivision in Norway spruce (Picea abies K.). Genome 43: 68-78.10.1139/g99-093]Search in Google Scholar
[WILLIAMS, C. G. and J. L. HAMRICK (1996): Elite populations for conifer breeding and gene conservation. Can J of For Res 26 (3): 453-461.10.1139/x26-051]Search in Google Scholar
[WOJNICKA-PÓŁTORAK, A., W. PRUS-GŁOWACKI, K. CELIN´SKI and A. F. KORCZYK (2013): Genetic aspects of age dynamics of a natural Picea abies (L.) Karst. population in the Białowiez·a Primeval Forest, Poland. New Forests DOI:10.1007/s11056-013-9367-710.1007/s11056-013-9367-7]Search in Google Scholar
[ZIEGENHAGEN, B., F. SCHOLZ, A. MADAGHIELE and G. G. VENDRAMIN (1998): Chloroplast microsatellites as markers for paternity analysis in Abies alba. Can J of For Res 28 (2): 317-321.10.1139/x97-213]Search in Google Scholar