References
- ANAMTHAWAT-JÓNSSON, K. (2001): Molecular cytogenetics of introgressive hybridization in plants. Methods in Cell Science 23: 139-148.
- ANAMTHAWAT-JÓNSSON, K. (2003): Preparation of chromosomes from plant leaf meristems for karyotype analysis and in situ hybridisation. Methods in Cell Science 25: 91-95.10.1007/s11022-004-5620-y
- ANAMTHAWAT-JÓNSSON and J. S. HESLOP-HARRISON (1995): Molecular cytogenetics of Icelandic birch species: physical mapping by in situ hybridisation and rDNA polymorphism. Canadian Journal of Forest Research 25: 101-108.10.1139/x95-012
- ANAMTHAWAT-JÓNSSON, K., T. SCHWARZACHER, A. R. LEITCH, M. D. BENNETT and J. S. HESLOP-HARRISON (1990): Discrimination between closely related Triticeae species using genomic DNA as a probe. Theoretical and Applied Genetics 79: 721-728.
- BELLAROSA, R., M. C. SIMEONE, A. PAPINI and B. SCHIRONE (2005): Utility of ITS sequence data for phylogenetic reconstruction of Italian Quercus spp. Molecular Phylogenetics and Evolution 34: 355-370.10.1016/j.ympev.2004.10.014
- BENNETT, M. D. (2004): Perspectives on polyploidy in plants - ancient and neo. Biological Journal of the Linnean Society 82: 411-423.10.1111/j.1095-8312.2004.00328.x
- BLAKESLEY, D., G. PAKKAD, C. JAMES, F. TORRE and S. ELLIOTT (2004): Genetic diversity of Castanopsis acuminatissima (Bl.) A.DC. in northern Thailand and the selection of seed trees for forest restoration. New Forests 27: 89-100.10.1023/A:1025016331835
- BRIGGS, D. and S. M. WALTERS (1997): Plant Variation and Evolution, 3rd edition. Cambridge University Press, Cambridge.
- BROWN, G. R. and J. E. CARLSON (1997): Molecular cytogenetics of the genes encoding 18S-5.8S-26S rRNA and 5S rRNA in two species of spruce (Picea). Theoretical and Applied Genetics 95: 1-9.
- CANON, C. H. and P. S. MANOS (2003): Phylogeography of the Southeast Asian stone oaks (Lithocarpus). Journal of Biogeography 30: 211-226.10.1046/j.1365-2699.2003.00829.x
- CARR, G. D. and C. MCPHERSON (1986): Chromosome number of New Caledonian plants. Annals of the Missouri Botanical Garden 73: 486-489.
- CHENG, Y.-P., S.-Y. HWANG and T.-P. LIN (2005): Potential refugia in Taiwan revealed by the phylogeographical study of Castanopsis carlesii Hayata (Fagaceae). Molecular Ecology 14: 2075-2085.10.1111/j.1365-294X.2005.02567.x
- CHENGJIU, H., Z. YONGTIAN and B. BARTHOLOMEW (1999): Fagaceae. Flora of China 4: 314-400.
- CHUNG, M. Y., K.-J. KIM, J.-H. PAK, C.-W. PARK, B.-Y. SUN, E. R. MYERS and M. G. CHUNG (2005): Inferring establishment histories in populations of Quercus dentate (Fagaceae) from the analysis of spatial genetic structure. Plant Systematics and Evolution 250: 231-242.
- CORREDOR, E., M. ROMAN, E. GARCIA, E. PERERA, P. ARUS and T. NARANJO (2004): Physical mapping of rDNA genes establishes the karyotype of almond. Annals of Applied Biology 144: 219-222.
- D’EMERICO, S., P. BIANCO, P. MEDAGLI and B. SCHIRONE (1995): Karyotype analysis in Quercus spp. (Fagaceae). Silvae Genetica 44: 66-70.
- DARLINGTON, C. D. and A. P. WYLIE (1955): Chromosome Atlas of Flowering Plants. George Allen and Unwin, London.
- DOW, B. D. and M. V. ASHLEY (1996): Microsatellite analysis of seed dispersal and parentage of saplings in bur oak, Quercus macrocarpa. Molecular Ecology 5: 615-627.10.1111/j.1365-294X.1996.tb00357.x
- DUMOLIN-LAPEGUE, S., B. DEMESURE, S. FINESCHI, V. LE CORRE and R. J. PETIT (1997): Phylogeographic structure of white oaks throughout the European continent. Genetics 146: 1475-1487.
- FORMAN, L. L. (1964): Trigonobalanus, a new genus of Fagaceae. Kew Bulletins 17: 381-396.
- GARDNER, S., P. SIDISUMTHORN and V. ANUSARNSUNTHORN (2000): A Field Guide to Forest Trees of Northern Thailand. Kobfai Publishing Project, Bangkok.
- GERLACH, W. L. and J. R. BEDBROOK (1979): Cloning and characterization of ribosomal genes from wheat and barley. Nucleic Acids Research 7: 1869-1885.10.1093/nar/7.7.1869
- GERLACH, W. L. and T. A. DYER TA (1980): Sequence organization of the repeating units in the nucleus of wheat which contain 5S rRNA genes. Nucleic Acids Research 8: 4851-4865.
- GOMORY, D., I. YAKOVLEV, P. ZHELEV, J. JEDINAKOVA and L. PAULE (2001): Genetic differentiation of oak populations within the Quercus robur/Quercus petraea complex in Central and Eastern Europe. Heredity 86: 557-563.10.1046/j.1365-2540.2001.00874.x
- HUANG, S.-F., Z.-F. ZHAO, Z.-Y. CHEN, S.-J. CHEN and X.-X. HUANG (1989): Chromosome counts on one hundred species and intraspecific taxa. Acta Botanica Austro Sinica 5: 161-176.
- KANNO, M., J. YOKOYAMA, Y. SUYAMA, M. OHYAMA, T. ITOH and M. SUZUKI (2004): Geographical distribution of two haplotypes of chloroplast DNA in four oak species (Quercus) in Japan. Journal of Plant Research 117: 311-317.
- KATO, A., J. M. VEGA, F. HAN, J. C. LAMB and J. A. BIRCHLER (2005): Advances in plant chromosome identification and cytogenetic techniques. Current Opinion in Plant Biology 8: 148-154.
- LANG, P., F. DANE and T. L. KUBISIAK (2006): Phylogeny of Castanea (Fagaceae) based on chloroplast trnT-L-F sequence data. Tree Genetics and Genomes 2: 132-139.10.1007/s11295-006-0036-2
- LAVANIA, U. C. (2002): Chromosome diversity in population: Defining conservation units and their micro-identification through genomic in situ painting. Current Science 83: 124-127.
- LEVAN, A., K. FREDGA and A. A. SANDBERG (1964): Nomencluture for centromeric position of chromosomes. Hereditas 52: 201-220.
- LIU, Z.-L., D. ZHANG, D.-Y. HONG and X.-R. WANG (2003): Chromosomal localization of 5S and 18S-5.8S-25S ribosomal DNA sites in five Asian pines using fluorescence in situ hybridization. Theoretical and Applied Genetics 106: 198-204.
- MAGRI, D., G. G. VENDRAMIN, B. COMPS, I. DUPANLOUP, T. GEBUREK, D. GÖMÖRY, M. LATAL⁄ OWA, T. LITT, L. PAULE, J. M. ROURE, I. TANTAU, W. O. VAN DER KNAAP, R. J. PETIT and J.-L. DE BEAULIEU (2006): A new scenario for the Quaternary history of European beech populations: palaeobotanical evidence and genetic consequences. New Phytologist 171: 199-221.
- MANOS, P. S., Z. ZHOU and C. H. CANNON (2001): Systematics of Fagaceae: phylogenetic tests of reproductive trait evolution. Journal of Plant Science 162: 1361-1379.
- MEHRA, P. N., A. S. HANS and T. S. SAREEN (1972): Cytomorphology of Himalayan Fagaceae. Silvae Genetica 21: 102-109.
- MUIR, G., C. C. FLEMING and C. SCHLÖTTERER (2001): Three divergent rDNA clusters predate the species divergence in Quercus petraea (Matt.) Liebl. and Quercus robur L. Molecular Biology and Ecology 18: 112-119.
- MÜLLER-STARCK, G., PH. BARADAT and F. BERGMANN (1992): Genetic variation within European tree species. New Forests 6: 23-47.10.1007/BF00120638
- NIXON, K. C. (1997): Fagaceae. pp 436-506 in Flora of North America North of Mexico. Vol 3. Magnoliophyta: Magnoliidae and Hamamelidae, edited by Flora of North America Editorial Committee, Oxford University Press, New York.
- OHRI, D. and M. R. AHUJA (1990): Giemsa C-banded karyotype in Quercus L. (oak). Silvae Genetica 39: 5-6.
- OHRI, D. and M. R. AHUJA (1991): Giemsa C-banding in Fagus sylvatica L., Betula pendula Roth and Populus tremula L. Silvae Genetica 40: 72-75.
- PHENGKLAI, C. (2004): Three new species and a new variety of Fagaceae from Thailand. Thai Forest Bulletin (Botany) 32: 115-122.
- PHENGKLAI, C., T. BOONTHAVIKOON, T. WONGPRASERT, P. PHONSENA and T. JONGANURAK (2005): The complete final report on Fagaceae in Thailand under the auspices of The Biodiversity Research and Training Program (BRT). Project number BRT R-145010.
- SCHWARZ, O. (1964): Quercus L., pp. 61-64 in Flora Europaea, vol. 1, edited by T. G. TUTIN, V. H. HEYWOOD, N. A. BURGES, D. H. VALENTINE, S. M. WALTERS and D. A. WEBB, Cambridge University Press, Cambridge.
- SCHWARZACHER, T. and P. HESLOP-HARRISON (2000): Practical in situ Hybridization. Bios Scientific Publishers, Oxford.
- SCOGGAN, S. J. (1978): The Flora of Canada, Part 3, Fagaceae. National Museum of Natural Sciences, Canada.
- SILJAK-YAKOVLEV, S., M. CERBAH, J. COULAUD, V. STOIAN, S. C. BROWN, V. ZOLDOS, S. JELENIC and D. PAPES (2002): Nuclear DNA content, base composition, heterochromatin and rDNA in Picea omorika and Picea abies. Theoretical and Applied Genetics 104: 505-512.10.1007/s001220100755
- SOEPADMO, E. (1972): Fagaceae, pp. 265-388 in Flora Malesiana, series I, volume 7, edited by C. G. G. J. VAN STEENIS, Noordhoff International Publishing, Leyden.
- SOLTIS, D. E. and P. S. SOLTIS (1999): Polyploidy: recurrent formation and genome evolution. Tree 14: 348-352.
- SOLTIS, D. E., P. S. SOLTIS and J. A. TATE (2003): Advances in the study of polyploidy since Plant speciation. New Phytologist 161: 173-191.
- STEBBINS, G. L. (1971): Chromosome Evolution in Higher Plants. Addison-Wesley Publishing Company, Massachusetts.
- STREIFF, R., T. LABBE, R. BACILIERI, H. STEINKELLNER, J. GLOSSL and A. KREMER (1998): Within-population genetic structure in Quercus robur L. and Quercus petraea (Matt.) Leibl. assessed with isozymes and microsatellites. Molecular Ecology 7: 317-328.10.1046/j.1365-294X.1998.00360.x
- WANG, K.-S. (2003): Genetic diversity and temporal genetic structure in European beech (Fagus sylvatica L.). Silvae Genetica 52: 100-106.
- WANG, L.-M. (1986): A taxonomic study of the deciduous oaks in China by means of cluster and karyotype analysis. Bulletin of Botanical Research 6: 55-69.
- ZOLDOS, V., D. PAPES, S. C. BROWN, O. PANAUD and S. SILJAK-YAKOVLEV (1998): Genome size and base composition of seven Quercus species: inter- and intra-population variation. Genome 41: 162-168.10.1139/g98-006
- ZOLDOS, V., D. PAPES, M. CERBAH, O. PANAUD, V. BESENDORFER and S. SILJAK-YAKOVLEV (1999): Molecular-cytogenetic studies of ribosomal genes and heterochromatin reveal conserved genome organization among 11 Quercus species. Theoretical and Applied Genetics 99: 969-977.
- ZOLDOS, V., S. SILJAK-YAKOVLEV, D. PAPES, A. SARR and O. PANAUD (2001): Representational difference analysis reveals genomic differences between Q. robur and Q. suber: implications for the study of genome evolution in the genus Quercus. Molecular Genetics and Genomics 265: 234-241.