Free Access
Ann. For. Sci.
Volume 63, Number 3, April 2006
Page(s) 267 - 274
Published online 04 April 2006
References of Ann. For. Sci. 63 267- 274
  1. Barbero M., Loisel R., Quézel P., Richardson D.M., Roman F., Pines of Mediterranean basin, in: Richardson D.M. (Ed.), Ecology and biogeography of Pinus, University Press, Cambridge, 1998, 153-170.
  2. Bogunic F., Muratovic E., Brawn S.C., Siljak-Yakovlev S., Genome size of five Pinus species from Balkan region, Plant Cell Rep. 22 (2003) 59-63 [CrossRef] [PubMed].
  3. Borzan Z., Contribution to the karyotype analysis of the European black pine (Pinus nigra Arn.), Ann. Forest. 8 (1977) 29-50.
  4. Borzan Z., Karyotype analysis from the endosperm of European black pine and Scots pine, Ann. Forest. 10 (1981) 1-42.
  5. Borzan Z., Papes D., Karyotype analysis in Pinus: A contribution to standardization of the karyotype analysis and review of some applied techniques, Silvae Genet. 27 (1977) 144-150.
  6. Bou Dagher-Kharrat M., Grenier G., Bariteau M., Brown S.C., Siljak-Yakovlev S., Savouré A., Karyotype analysis reveals interspecific differentiation in the genus Cedrus despite genome size and base composition constancy, Theor. Appl. Genet. 103 (2001) 846-854 [CrossRef].
  7. Cesca G., Perruzi L., Pinus laricio Poir. and P. leucodermis Antoine: karyotype analysis in Calabrian populations (southern Italy), Caryologia 55 (2002) 21-25.
  8. Conger A.D., Fairchild L.M., A quick-freeze method for making smear slides permanent, Stain Technol. 28 (1953) 107-112.
  9. Doudrick R.L., Heslop-Harrison J.S., Nelson C.D., Schmidt T., Nance W.L., Schwarzacher T., Karyotype of slash pine (Pinus elliottii var. elliottii) using patterns of in situ hybridization and fluorochrome banding, J. Hered. 86 (1995) 289-296.
  10. Ferre de Y., Sistematska pripadnost vrste Pinus leucodermis Antoine (Pinus heldreichii var. leucodermis (Ant.) Markgraff) prema strukturi klijavaca. Simpozijum o munici, Pec 4-7. IX, 1975, pp. 385-389.
  11. Feulgen R., Rossenbeck H., Mikroskopisch-chemischer Nachweis einer Nucleinsäure vom Typus der Thymonucleinsäure und die darauf beruhende elektive Färbung von Zellkernen in mikroskopi-schen Präparaten, Physiol. Chem. 135 (1925) 203-248.
  12. Fukarek P., Savremeni pogledi na taksonomiju i nomenklaturu bjelokorog bora-munike (Pinus leucodermis Ant. i P. heldreichii Christ.), Glas. zemaljskog muzeja N.S. XVIII (1979) 63-87.
  13. Fukarek P., Vidakovic M., Espèces de pins hybrides ou de transition sur le mont Prenj, en Herzegovine (Pinus × nigradermis Fuk. et Vid.), Naucno drustvo Bosne i Hercegovine, Radovi, Odjeljenje privredno-tehnickih nauka XXVIII, 8 (1965) 68-87.
  14. Gaussen H., Gymnospermes actuelles et fossils, Fasc. VI. Chap. XI Toulouse, 1960.
  15. Gaussen H., Webb D.A., Heywood V.H., Genus Pinus, in: Tutin T.G., Heywood V.H., Burges N.A., Moore D.M., Valentine D.H., Walters S.M., Webb D.A. (Eds.), Flora Europaea, University Press, Cambridge, 1993, 1, pp. 40-44.
  16. Geber G., Schweizer D., Cytochemical heterochromatin differentiation in Sinapis alba (Cruciferae) using a simple air-drying technique for producing chromosome spreads, Plant Syst. Evol. 158 (1988) 97-106 [CrossRef].
  17. Godelle B., Cartier D., Marie D., Brown C.S., Siljak-Yakovlev S., Heterochromatin study demonstrating the non-linearity of fluorometry useful for calculations genomic base composition, Cytometry 14 (1993) 618-626 [CrossRef] [PubMed].
  18. Guerra M., Patterns of heterochromatin distribution in plant chromosomes, Genetics and molecular biology 23 (2000) 1029-1041.
  19. Hall K.J., Parker J.S., Stable chromosome fission associated with rDNA mobility, Chromosome Res. 3 (1995) 417-422 [CrossRef] [PubMed].
  20. Hall S.E., Dvorak J.S., Johnston H.J., Price H.J., Williams C.G., Flow cytometric analysis of DNA content for tropical and temperate New World pines, Ann. Bot. 86 (2000) 1081-1086 [CrossRef].
  21. Hizume M., Karyomorphological studies in the family Pinaceae, Mem. Fac. Educ. Ehime Univ. Nat. Sci. 8 (1988) 1-108.
  22. Hizume M., Kondo T., Relationships between fluorescent chromosome bands and DNA sequences in conifers, in: Guttenberger H. et al. (Eds.), Cytogenetic studies of forest trees and shrubs, Reviews, present status and outlook on the future, Proceedings of the second IUFRO cytogenetics working party, S2.04.08 Symposium September 6-12, 1998, Graz, Austria, 2000, pp. 71-79.
  23. Hizume M., Oghiku A., Tanaka A., Chromosome banding in the genus Pinus. I. Identification of chromosomes of P. nigra by fluorescent banding method, Bot. Mag. Tokyo 96 (1983) 273-276.
  24. Hizume M., Oghiku A., Tanaka A., Chromosome banding in the genus Pinus. II. Interspecific variation of fluorescent banding patterns in P. densiflora and P. thunberghii, Bot. Mag. Tokyo 102 (1989) 25-36.
  25. Hizume M., Arai M., Tanaka A., Chromosome banding in the genus Pinus. III. Fluorescent banding pattern of P. luchuensis and its relationships among the Japanese diploxylon pines, Bot. Mag. Tokyo 103 (1990) 103-111.
  26. Hizume M., Ishida M.F., Murata M., Multiple locations of ribosomal RNA genes in chromosomes of pines, P. densiflora and P. thunberghii, Jpn. J. Genet. 67 (1992) 389-396.
  27. Hizume M., Kondo K., Yang Q., Hong D., Wang F., Tanaka R., Fluorescent chromosome banding in six Chinese Pinaceae species: Abies faxoniana, Larix principis-rupprechtii, Picea asperata, Picea wilsonii, Pinus tabuleaformis and Pinus bungeana, in: Tanaka R. (Ed.), Karyomorphological and cytogenetical studies in plants common to Japan and China, Hiroshima University, Hiroshima, 1994, pp. 33-54.
  28. Hizume M., Shibata F., Matsuki Y., Garajova M., Chromosome identification and comparative analysis of four Pinus species, Theor. Appl. Genet. 105 (2002) 491-497 [CrossRef] [PubMed].
  29. Joyner K.L., Wang X.R., Johnston J.S., Price J.H., Williams C.G., DNA content for Asian pines parallels New World relatives, Can. J. Bot. 79 (2001) 192-196 [CrossRef].
  30. Kaya Z., Ching K.K., Stafford S.G., A statistical analysis of karyotypes of European black pine (Pinus nigra Arnold) from different sources, Silvae Genet. 34 (1985) 148-156.
  31. Kondo T., Hizume M., Banding for the chromosomes of Cryptomeria japonica D. Don., J. Jpn. For. Soc. 64 (1982) 356-358.
  32. Levan A., Fredga K., Sandberg A.A., Nomenclature for centromeric position on chromosomes, Hereditas 52 (1964) 201-220.
  33. Little E.R. Jr., Critchfield W.B., Subdivisions of the genus Pinus (Pines), USDA Forest Service Miscelaneous Publication 1144, Washington, 1960.
  34. Liu Z.L., Zhang D., Hong D.Y., Wang X.R., Chromosomal localization of 5S and 18S-5.8S-25S ribosomal DNA sites in five Asian pines using fluorescence in situ hybridization, Theor. Appl. Genet. 106 (2003) 198-204 [PubMed].
  35. Lopez G.G., Kamiya K., Harada K., Phylogenetic relationships of Dyploxylon pines (subgenus Pinus) based on plastid sequence data, Int. J. Plant Sci. 163 (2002) 737-747 [CrossRef].
  36. Machperson P., Filion W.G., Karyotype analysis and distribution of constitutive heterochromatin in five species of Pinus, J. Hered. 72 (1981) 193-198.
  37. Martin J., Hesemann C.U., Evaluation of improved Giemsa C- and fluorochrome banding-techniques in rye chromosome, Heredity 6 (1988) 459-467.
  38. Mirov N.T., The genus Pinus, Ronald Press Company, New York, 1967.
  39. Murray B., Nuclear DNA amounts in gymnosperms, Ann. Bot. 83 (Suppl. A) (1998) 3-15 [CrossRef].
  40. O'Brien I., Smith D., Gardner R., Murray B., Flow cytometric determination of genome size in Pinus, Plant. Sci. 115 (1996) 91-99 [CrossRef].
  41. Pederick L.A., Chromosome relationships between Pinus species, Silvae Genet. 19 (1970) 171-180.
  42. Price R.A., Liston A., Steven S.H., Phylogeny and systematics of Pinus, in: Richardson D.M. (Ed.), Ecology and biogeography of Pinus, University Press, Cambridge, 1998, pp. 49-68.
  43. Saylor L.C., A karyotypic analysis of Pinus group - Lariciones, Silvae Genet. 13 (1964) 167-170.
  44. Schlaurbaum S.E., Tsuchya T., The chromosomes of Cuninghamia konishii, C. lanceolata and Taiwania cryptomeroides (Taxodiaceae), Plant Syst. Evol. 145 (1984) 169-181 [CrossRef].
  45. Schirone B., Piovesan G., Bellarosa R., Pelosi C., A taxonomic analysis of seed proteins in Pinus spp. (Pinaceae), Plant Syst. Evol. 178 (1991) 43-53 [CrossRef].
  46. Schweizer D., Reverse fluorescent chromosome banding with chromomycin and DAPI, Chromosoma 58 (1976) 307-324 [CrossRef] [PubMed].
  47. Siljak-Yakovlev S., Cerbah M., Coulaud J., Stoian V., Brown S.C., Zoldos V., Jelenic S., Papes D., Nuclear DNA content, base composition, heterochromatin and rDNA in Picea omorika and Picea abies, Theor. Appl. Genet. 104 (2002) 505-512 [CrossRef] [PubMed].
  48. Valkonen J.P.T., Nygren M., Ylönen A., Mannonen L., Nuclear DNA content of Pinus sylvestris L. as determined by laser flow cytometry, Genetica 92 (1994) 203-207 [CrossRef].
  49. Vidakovic M., Morphology and variations in Conifers, Grafièki zavod Hrvatske, Zagreb, 1991.
  50. Wakamiya I., Newton R., Johnston J.S., Price H.J., Genome size and environmental factors in the genus Pinus, Am. J. Bot. 80 (1993) 1235-1241.
  51. Wang X.-R., Tsumura Y., Yoshimaru H., Nagasaka K, Szmidt A.E., Phylogenetic relationships of Euroasian pines (Pinus, Pinaceae) based on chloroplast rbcl, matK, rpl20-rps18 spacer, and trnV intron sequences, Am. J. Bot. 86 (1999) 1742-1753 [PubMed].