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Crossability of Pinus sibirica and P. pumila with their hybrids

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ARNOLD, M. L., M. R. BULGER, J. M. BURKE, A. L. HEMPEL and J. H. WILLIAMS (1999): Natural hybridization: how low can you go and still be important? Ecology 80: 371-381.10.1890/0012-9658(1999)080[0371:NHHLCY]2.0.CO;2Search in Google Scholar

AVROV, F. D. (1983): Crossability of different larch species in collection maternal plantation in Siberia. Lesovedenie 5: 23-30. (In Russian)Search in Google Scholar

BANNIKOVA, V. P. (1986): Interspecies incompatibility of plants. Naukova dumka, Kiev. (In Russian)Search in Google Scholar

BLADA, I. (1994): Interspecific hybridization of Swiss stone pine (Pinus cembra L.). Silvae Genet. 43: 14-20.Search in Google Scholar

CHEN, J., C. G. TAUER, G. BAI, Y. HUANG, M. E. PAYTON and A. G. HOLLEY (2004): Bidirectional introgression between Pinus taeda and Pinus echinata: evidence from morphological and molecular data. Can. J. For. Res. 34: 2508-2516.Search in Google Scholar

CRITCHFIELD, W. B. (1966): Crossability and relationships of the closed-cone pines. Silvae Genet. 16: 89-97.Search in Google Scholar

CRITCHFIELD, W. B. (1975): Interspecific hybridization in Pinus: a summary review, pp. 99-105. In: Symp. on Interspecific and Interprovenance Hybridization in Forest Trees, edited by D. P. FOWLER, C. Y. YEATMAN. Proc. 14th Meeting, Canad. Tree Improv. Assoc., Part II.Search in Google Scholar

CRITCHFIELD, W. B. (1985): The late Quaternary history of lodgepole and jack pines. Can. J. For. Res. 15: 749-772.Search in Google Scholar

CRITCHFIELD, W. B. and E. L. LITTLE (1966): Geographic Distribution of the pines of the world. USDA Forest Service, Washington, DC. Miscellaneous Publication 991. 10.5962/bhl.title.66393Search in Google Scholar

FERGUSON, M. C. (1901): The development of the egg and fertilization in Pinus strobus L. Ann. Bot. 15: 435-479.Search in Google Scholar

FERNANDO, D. D., S. M. LONG and R. A. SNIEZKO (2005): Sexual reproduction and crossing barriers in white pines: the case between Pinus lambertiana (sugarpine) and P. monticola (western white pine). Tree Genetics and Genomes 1: 143-150.10.1007/s11295-005-0015-zSearch in Google Scholar

FLORA of USSR by editing V. L. KOMAROV (1934): USSR Academy of Science, Leningrad. 302 p. (In Russian) Search in Google Scholar

FOWLER, D. P. (1987): The hybrid white×Sitka spruce: species crossability. Can. J. For. Res. 17: 413-417.Search in Google Scholar

GALAZIY, G. I. (1954): Timberline flora in the mountains of Eastern Siberia and its dynamics. Proceedings of Botanical Institute, USSR Academy of Science 3(9): 210-329. (In Russian)Search in Google Scholar

GOROSHKEVICH, S. N. (2004): Natural hybridization between Russian stone pine (Pinus sibirica) and Japanese stone pine (Pinus pumila), pp. 169-171. In: Breeding and genetic resources of five-needle pines: growth, adaptability, and pest resistance. Proceedings of the IUFRO Five-Needle Pines Working Party Conference, July 23-27, 2001, Medford, Oregon, USA. Search in Google Scholar

GOROSHKEVICH, S. N. (1999): On the possibility of natural hybridization between Pinus sibirica and Pinus pumila in the Baikal Region. Botanicheskij Journal 84(9): 48-57. (In Russian)Search in Google Scholar

GOROSHKEVICH, S. N. and O.V. KHUTORNOY (1996): Intrapopulation diversity of Pinus sibirica Du Tour cone and seed. Report 1. Level and character of trait variability. Rastitelnye resursy 32(3): 1-12. (In Russian)Search in Google Scholar

GOROSHKEVICH, S. N., A. G. POPOV and G.V. VASILIEVA (2008): Ecological and morphological studies in the hybrid zone between Pinus sibirica and Pinus pumila. Ann. For. Res. 51: 43-52. (a)Search in Google Scholar

GOROSHKEVICH, S. N., G.V. VASILYEVA and A. G. POPOV (2008): On hybridization Siberian stone pine and Siberian dwarf pine in the western part of Stanovoe nagorye. Lesnoe khozyaystvo 6: 25-27. (In Russian) (b)Search in Google Scholar

GRANT, V. (1981): Plant speciation. Columbia University Press, New York.10.7312/gran92318Search in Google Scholar

HAGMAN, M. and L. MIKKOLA (1963): Observations on cross-, self- and interspecific pollinations in in Pinus peuce Griseb. Silvae Genet. 12: 73-79.Search in Google Scholar

JASIŃSKA, A. K., W. WACHOWIAK, E. MUCHEWICZ, K. BORATIN´SKA, J. M. MONTSERRAT and A. BORATINSKI (2010): Cryptic hybrids between Pinus uncinata and P. sylvestris. Botanical Journal of the Linnean Society 163: 473-485.10.1111/j.1095-8339.2010.01065.xSearch in Google Scholar

JOHNSON, N. A. (2010): Hybrid incompatibility genes: remnantsof a genomic battlefield? Trends in Genetics 26: 317-325. 10.1016/j.tig.2010.04.005Search in Google Scholar

KÄRKKÄINEN, K., O. SAVOLAINEN and V. KOSKI (1999): Why do plants abort so many developing seeds: bad offspring or bad maternal genotypes? Evolutionary Ecology 13: 305-317.10.1023/A:1006746900736Search in Google Scholar

KORMUTÁK, A., S.-W. LEE, K.-N. HONG, B.-H. YANG and Y.-P. HONG (2008): Crossability relationships between Korean firs Abies koreana, A. nephrolepis and A. holophylla and some other representatives of the genus Abies. Biologia. Section Botany 63: 94-99.10.2478/s11756-008-0008-0Search in Google Scholar

KORMUTÁK, A., M. OSTROLUCKÁ, B. VOOKOVÁ, A. PRET˘OVÁ and M. FEC˘KOVÁ (2005): Artificial hybridization of Pinus sylvestris L. and Pinus mugo Turra. Acta Biologica Cracoviensia. Series Botanica 47: 129-134.Search in Google Scholar

KOROPACHINSKIY, I.YU. (1992): Botanical, geographical and forestry aspects of natural hybridization of woody plants. Lesovedenie 2: 3-10. (In Russian)Search in Google Scholar

KOROPACHINSKIY, I.YU. and L. I. MILYUTIN (1979): Natural hybridization of forest trees in USSR and it economic importance. Izvestia SB of USSR Academy of Sciences. Seria biologicheskih nauk 1: 29-36. (In Russian)Search in Google Scholar

KOROPACHINSKIY, I.YU. and L. I. MILYUTIN (2006): Natural hybridization of woody plants. Geo, Novosibirsk. (In Russian)Search in Google Scholar

KRIEBEL, H. B. (1972): Embryo development and hybridity barriers in the white pines (Section Strobus). Silvae Genet. 21: 39-44.Search in Google Scholar

LEDIG, F. T. (1998): Genetic variation in Pinus, pp. 251-280 in Ecology and Biogeography of Pinus, edited by D.M. Richardson, Cambridge University Press.Search in Google Scholar

LEWANDOWSKI, A. and M. WIS´NIEWSKA (2006): Short note: crossability between Pinus uliginosa and its putative parental species Pinus sylvestris and Pinus mugo. Silvae Genet. 55: 52-54.10.1515/sg-2006-0008Search in Google Scholar

LISTON, A., M. PARKER-DEFENIKS, J.V. SYRING, A. WILLYARD and R. CRONN (2007): Interspecific phylogenetic analysis enhances intraspecific phylogeographical inference: a case study in Pinus lambertiana. Mol. Ecol. 16: 3926-3937.Search in Google Scholar

MAJOR, J. E., A. MOSSELER, K. H. JOHNSEN, O. P. RAJORA, D. C. BARSI, K.-H. KIM, J.-M. PARK and M. CAMPBELL (2005): Reproductive barriers and hybridity in two spruces, Picea rubens and Picea mariana, sympatric in eastern North America. Can. J. Bot. 83: 163-175.Search in Google Scholar

MATOS, J. A. and B. A. SCHAAL (2000): Chloroplast evolution in the Pinus montezumae complex: a coalescent approach to hybridization. Evolution 54: 1218-1233.10.1111/j.0014-3820.2000.tb00556.xSearch in Google Scholar

MCWILLIAM, J. R. (1959): Interspecific incompatibility in Pinus. Amer. J. Bot. 46: 425-433.10.1002/j.1537-2197.1959.tb07033.xSearch in Google Scholar

MOLOZHNIKOV, V. N. (1975): Siberian dwarf pine in mountain landscape of Northern Baikal region. Moscow, Nauka. 203 p. (In Russian)Search in Google Scholar

NEKRASOVA, T. P. (1972): Biological foundation of Siberian stone pine seed bearing. Nauka, Novosibirsk. (In Russian) Search in Google Scholar

OWENS, J. N. and M. MOLDER (1977): Seed-cone differentiation and sexual reproduction in western white pine (Pinus monticola). Can. J. Bot. 55: 2574-2590.Search in Google Scholar

PETROVA, E. A., S. N. GOROSHKEVICH, D.V. POLITOV, M. M. BELOKON, A. G. POPOV and G.V. VASILYEVA (2007): Seed production and genetic structure of populations in natural hybrid zone of Siberian stone pine and Siberian dwarf pine. Khvoynyye borealnoy zony 24: 329-335. (In Russian)Search in Google Scholar

POZDNYAKOV, L. K. (1952): Tree form of Siberian dwarf pine. Botanicheskij Journal 37(5): 688-691. (In Russian)Search in Google Scholar

POLITOV, D.V., M. M. BELOKON, O. P. MALUCHENKO, Y. S. BELOKON, V. N. MOLOZHNIKOV, L. E. MEJNARTOWICZ and K.V. KRUTOVSKY (1999): Genetic evidence of natural hybridization between Pinus sibirica Du Tour and P. pumila (Pall.) Regel. For. Genet. 6: 41-48.Search in Google Scholar

RIESEBERG, L. H. (2001) Chromosomal rearrangements and speciation. Trends in ecology and evolution 16: 351-358.10.1016/S0169-5347(01)02187-5Search in Google Scholar

RIESEBERG, L. H. (1997): Hybrid origins of plant species. Ann. rev. ecol. syst. 28: 359-389.Search in Google Scholar

RIESEBERG, L. H. and S. E. CARNEY (1998): Plant hybridization. New Phytol. 140: 599-624.10.1046/j.1469-8137.1998.00315.x33862960Search in Google Scholar

SENJO, M., K. KIMURA, Y. WATANO, K. UEDA and T. SHIMIZU (1999): Extensive mitochondrial introgression from Pinus pumila to P. parviflora var. pentaphylla (Pinaceae). J. Plant Res. 112: 97-105.10.1007/PL00013867Search in Google Scholar

SHCHERBAKOVA, M. A. (1965): Detection of quality conifer seed by X-ray analysis. Forest and Timber Institute SB of USSR Academy of Sciences, Krasnoyarsk. (In Russian)Search in Google Scholar

TITOV, E.V. (1977): Trial in crossing Pinus sibirica with other pines in the NE Altai. Lesovedenie 4: 81-87. (In Russian) Search in Google Scholar

VASILYEVA, G.V., E. A. ZHUK and A. G. POPOV (2010): Flowering phenology of the Siberian stone pine (Pinus sibirica Du Tour), Japanese stone pine (Pinus pumila (Pall.) Regel.) and their ybrids. Vestnik Tomskogo gosudarstvennogo universiteta. Biologia 1(9): 61-67. (In Russian)Search in Google Scholar

VASILYEVA, G.V., S.N. GOROSHKEVICH and A. G. POPOV (2006): Natural hybridization between Siberian stone pine and Siberian dwarf pine in the Northern Pribaikalye (delta of the Upper Angara River): occurrence of hybrids and their cone bearing, pp. 195-199. In: Forest ecosystems of Northern-Eastern Asia and their dynamics. Proceeding of international conference, 22-26 august 2006. Dalnauka, Vladivostok. (In Russian)Search in Google Scholar

UTKIN, A. I., A. A. PRYAZHNIKOV and D.V. KARELIN (2001): Ecology of Siberian dwarf pine from a position of carbon cycle. Lesovedenie 3: 52-62. (In Russian)Search in Google Scholar

WACHOWIAK, W., A. LEWANDOSWKI and W. PRUS-GL⁄ OWACKI (2005): Reciprocal controlled crosses between Pinus sylvestris and P. mugo verified by a species-specific cpDNA marker. J. Appl. Genet. 46: 41-43.Search in Google Scholar

WIENS, D. (1984): Ovule survivorship, brood size, life history, breeding systems, and reproductive success in plants. Oecologia 64: 47-53.10.1007/BF0037754228311637Search in Google Scholar

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