Access the full text.
Sign up today, get DeepDyve free for 14 days.
M. Heschel, K. Paige (1995)
Inbreeding Depression, Environmental Stress, and Population Size Variation in Scarlet Gilia (Ipomopsis aggregata)Conservation Biology, 9
Charles Williams (1994)
GENETIC CONSEQUENCES OF SEED DISPERSAL IN THREE SYMPATRIC FOREST HERBS. II. MICROSPATIAL GENETIC STRUCTURE WITHIN POPULATIONSEvolution, 48
D. Swofford, R. Selander (1981)
BIOSYS-1: a FORTRAN program for the comprehensive analysis of electrophoretic data in population genetics and systematicsJournal of Heredity, 72
(2003)
Geneticheskie protsessy v populyatsiyakh (Genetic Processes in the Populations)
K. Shea (1990)
Genetic variation between and within populations of Engelmann spruce and subalpine fir.Genome, 33
D. Politov, K. Krutovsky (2004)
Phylogenetics, Genogeography and Hybridization of Five-Needle Pines in Russia and Neighboring Countries
A. Schnabel, J. Hamrick (1995)
UNDERSTANDING THE POPULATION GENETIC STRUCTURE OF GLEDITSIA TRIACANTHOS L.: THE SCALE AND PATTERN OF POLLEN GENE FLOWEvolution, 49
M. Conkle, G. Schiller, C. Grunwald (1988)
Electrophoretic Analysis of Diversity and Phylogeny of Pinus brutia and Closely Related TaxaSystematic Botany, 13
N. Ouborg, R. Vantreuren (1995)
Variation in Fitness-Related Characters among Small and Large Populations of Salvia-PratensisJournal of Ecology, 83
L.A. Zhivotovsky (1991)
Populyatsionnaya biometriya
(1991)
Populyatsionnaya biometriya (Population Biometry)
(1978)
Lesoobrazuyushchie khvoinye SSSR (Forest-Forming Coniferous Species of the Soviet Union)
M. Nei (1976)
Molecular population genetics and evolution.Frontiers of biology, 40
(2000)
Genetic Variation of Crimean Pine Pinus pallasiana D . Don along an Altitudinal Profile in Mountain Crimea , Dokl
(2004)
Dinamika populyatsionnykh genofondov pri antropogennykh vozdeistviyakh
Yu.P. Altukhov (2003)
Geneticheskie protsessy v populyatsiyakh
(2000)
Genetic Variation of Crimean Pine Pinus pallasiana D. Don along an Altitudinal Profile in Mountain Crimea
A.I. Kolesnikov (1963)
Sosna pitsundskaya
M. Nei (1972)
Genetic Distance between PopulationsThe American Naturalist, 106
J. Hamrick, H. Blanton, K. Hamrick (1989)
GENETIC STRUCTURE OF GEOGRAPHICALLY MARGINAL POPULATIONS OF PONDEROSA PINEAmerican Journal of Botany, 76
B. Davis (1964)
DISC ELECTROPHORESIS – II METHOD AND APPLICATION TO HUMAN SERUM PROTEINS *Annals of the New York Academy of Sciences, 121
T. Boyle, C. Liengsiri, C. Piewluang (1990)
Genetic structure of black spruce on two contrasting sitesHeredity, 65
G. Goncharenko, S. Bolsun, E. Nevo, A. Zakhavi (1998)
Genetic and taxonomic relationships between Pinus pithyusa, Pinus stankewiczii, and Pinus brutia.Doklady Biological Sciences, 359
(1998)
II . Methods and Application to Human Serum Proteins
Yu.P. Altukhov, L.I. Korochkin, Yu.G. Rychkov (1996)
Hereditary Biochemical Diversity in Evolution and DevelopmentRus. J. Genet., 32
(1940)
Flora of the Countries of the Black Sea Region, Tr
(1992)
Characterization of Gene Pools of Scots Pine Populations on a Set of Isozyme Loci
S. Aitken, W. Libby (1994)
PINUS CONTORTA ACROSS AN ECOLOGICAL STAIRCASE
(1996)
Chervona kniga Ukraini. Roslinnii svit
M. Konnert (1991)
Vergleich der genetischen Struktur verschiedener Generationen zweier matürlich verjüngter Fichtenbestände des SchwarzwaldesSilvae Genetica, 40
S.N. Aitken, W.J. Libby (1994)
Evolution of the Pygmy-Forest Edaphic Subspecies of Pinus contorta across an Ecological StaircaseEvolution, 48
(1988)
Genetic Taxonomic Relationships between Pinus pityusa , Pinus stankewiczii , and Pinus brutia , Dokl . Akad
E.G. Bobrov (1978)
Lesoobrazuyushchie khvoinye SSSR
C. Xie, P. Knowles (1991)
Spatial genetic substructure within natural populations of jack pine (Pinus banksiana)Botany, 69
F. Rossum, X. Vekemans, P. Meerts, E. Gratia, C. Lefébvre (1997)
Allozyme variation in relation to ecotypic differentiation and population size in marginal populations of Silene nutansHeredity, 78
I. Korshikov, E. Skidan, V. Koba (2002)
[Genetic control of allozymes of Pinus pityusa Stev. in natural Crimean populations].TSitologiia i genetika, 36 1
S. Wright (1965)
THE INTERPRETATION OF POPULATION STRUCTURE BY F‐STATISTICS WITH SPECIAL REGARD TO SYSTEMS OF MATINGEvolution, 19
K. Diebel, P. Feret (1991)
Isozyme variation within the fraser fir (Abies fraseri (Pursh) Poir.) population on Mount Rogers, Virginia : lack of microgeographic differentiationSilvae Genetica, 40
In order to analyze the genetic structure, subdivision and differentiation within and between two small isolated populations of the Crimea relict endemic, Pinus stankewiczii (Sukacz.) Fomin, electrophoretic analysis of the isozyme variation at nine enzymatic systems was carried out using 183 oldest trees. It was demonstrated that in populations of P. stankewiczii, 80% of the genes were in polymorphic state. Each tree was heterozygous at 19.1% loci, and at 21.6% loci in artificial 50-year-old plantation. The genetic structure of two populations was less differentiated (D N = 0.006), compared to their individual localities (D N = 0.008−0.009). Within-population subdivision of the diffusely dispersed populations was higher (F ST -G ST = 1.8–2.0%) than that of the populations themselves (0.8%).
Russian Journal of Genetics – Springer Journals
Published: Jun 16, 2006
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.