[Badeck F.W., Bondeau A., Böttcher K., Doktor D., Lucht W., Schaber J., Sitch S. 2004. Responses of spring phenology to climate change. New Phytologist,162 (2), 295-309.]Search in Google Scholar
[Brendel O., Pot D., Plomion C., Rozenberg P., Guehl J.M. 2002. Genetic parameters and QTL analysis of δ13C and ring width in maritime pine. Plant Cell and Environment, 25 (8), 945-954. doi: 10.1046/j.1365-3040.2002.00872.x.10.1046/j.1365-3040.2002.00872.x]Search in Google Scholar
[Brown G.R., Bassoni D.L., Gill G.P., Fontana J.R., Wheeler N.C., Megraw R.A., Davis M.F., Sewell M.M., Tuskan G.A., Neale D.B. 2003. Identification of quantitative trait loci influencing wood property traits in loblolly pine (Pinus taeda L.). III. QTL Verification and candidate gene mapping. Genetics, 164 (4), 1537-1546.10.1093/genetics/164.4.1537146264612930758]Search in Google Scholar
[Cato S.A., Corbett G.E., Richardson T.E. 1999. Evaluation of AFLP for genetic mapping in Pinus radiata D. Don. Molecular Breeding, 5, 275-281.]Search in Google Scholar
[Cervera M.T., Remington, D., Frigerio J.M., Storme V., Ivens B., Boerjan,W., Plomion C. 2000. Imprved AFLP analysis of tree species. Canadian Journal of Forest Research, 30 (10), 1608-1616. http://dx.doi.org/10.1139/x00-085.10.1139/x00-085]Search in Google Scholar
[Costa P., Pot D., Dubos C., Frigerio J.M., Pionneau C., Bodenes C., Bertocchi E., Cervera M.T., Remington D.L., Plomion C. 2000. A genetic map of Maritime pine based on AFLP, RAPD and protein markers. Theoretical and Applied Genetics, 100, 39-48.]Search in Google Scholar
[Groover A., Devey M., Fiddler T., Lee J., Megraw R., Mitchel-Olds T., Sherman B., Vujcic S., Williams C., Neale D. 1994. Identification of quantitative trait loci influencing wood specific gravity in an outbred pedigree of loblolly pine. Genetics, 138 (4), 1293-1300.]Search in Google Scholar
[Hannrup B., Danell O., Ekberg I., Moëll M. 2001. Relationships between wood density and tracheid dimensions in Pinus sylvestris L. Wood Fiber Science, 33, 173-181.]Search in Google Scholar
[Hurme P., Sillanpää M.J., Arjas E., Repo T., Savolainen O. 2000. Genetic basis of climatic adaptation in Scots pine by Bayesian QTL analysis. Genetics, 156, 1309-1322.]Search in Google Scholar
[Jermstad K.D., Bassoni D.L., Jech K.S., Ritchie G.A., Wheeler N.C., Neale D.B. 2003. Mapping of quantitative trait loci controlling adaptive traits in coastal Douglas fir. III. Quantitative trait loci-by-environment interactions. Genetics, 165 (3), 1489-1506.]Search in Google Scholar
[Jermstad K.D., Bassoni D.L., Jech K.S., Wheeler N.C., Neale D.B. 2001a. Mapping of quantitative trait loci controlling adaptive traits in coastal Douglas-fir. I.10.1007/s001220000505]Search in Google Scholar
[Timing of vegetative bud flush. Theoretical and Applied Genetics, 102 (8), 1142-1151.]Search in Google Scholar
[Jermstad K.D., Bassoni D.L., Wheeler N.C., Anekonda T.S., Aitken S.N., Adams W.T., Neale D.B. 2001b.]Search in Google Scholar
[Mapping of quantitative trait loci controlling adaptive traits in coastal Douglas-fir. II. Spring and fall cold-hardiness. Theoretical and Applied Genetics, 102 (8), 1152-1158.10.1007/s001220000506]Search in Google Scholar
[Kuramoto N., Kondo T., Fujisawa Y., Nakata R., Hayashi E., Goto Y. 2000. Detection of quantitative trait loci for wood strength in Cryptomeria japonica.Canadian Journal of Forest Research, 30 (10), 1525-1533.]Search in Google Scholar
[Lerceteau E., Plomion C., Andersson B. 2000. AFLP mapping and detection of quantitative trait loci (QTLs) for economically important traits in Pinus sylvestris: a preliminary study. Molecular Breeding, 6, 451-458.]Search in Google Scholar
[Lerceteau E., Szmidt A.E., Andersson B. 2001. Detection of quantitative trait loci in Pinus sylvestris L. across years. Euphytica, 121, 117-122.]Search in Google Scholar
[Moraczewski I. 2005. Digishape - program do automatycznej morfometrii. Cortex Nova, Bydgoszcz.]Search in Google Scholar
[Pelgas B., Bousquet J., Meirmans P.G., Ritland K., Isabel N. 2011. QTL mapping in white spruce: gene maps and genomic regions underlying adaptive traits across pedigrees, years and environments.Genomics, 12, 145.10.1186/1471-2164-12-145306811221392393]Search in Google Scholar
[Pot D., Rodrigues J.C., Rozenberg P., Chantre G., Tibbits J., Cahalan C., Pichavant F., Plomion C. 2006.]Search in Google Scholar
[QTLs and candidate genes for wood properties in maritime pine (Pinus pinaster Ait.). Tree Genetics and Genomes, 2, 10-24. doi: 10.1007/s11295-005-0026-9.10.1007/s11295-005-0026-9]Search in Google Scholar
[Sewell M.M., Bassoni D.L., Megraw R.A., Wheeler N.C., Neale D.B. 2000. Identification of QTLs influencing wood property traits in loblolly pine (Pinus taeda L.). I. Physical wood properties. Theoretical and Applied Genetics, 101 (8), 1273-1281.]Search in Google Scholar
[Sewell M.M., Davis M.F., Tuskan G.A., Wheeler N.C., Elam C.C., Bassoni D.L., Neale D.B. 2002. Identification of QTLs influencing wood property traits in loblolly pine (Pinus taeda L.). II. Chemical wood properties. Theoretical and Applied Genetics, 104 (2/3), 214-222.]Search in Google Scholar
[Sillapää M.J., Arjas E. 2000. Bayesian mapping of multiple quantitative trait loci from incomplete inbred line cross data. Genetics, 148, 11373-1388.]Search in Google Scholar
[Szyp-Borowska I., Ukalska J., Simińska J. 2011. Random amplified polymorphic DNA markers linked to quantitative traits loci in Scots pine (Pinus sylvestris L.). Forest Research Papers, 72 (3), 205-211.]Search in Google Scholar
[Ukrainetz N.K., Ritland K., Mansfiled S.D. 2008. Identification of quantitative trait loci for wood quality and growth across eight full-sib coastal Douglas-fir families. Tree Genetics and Genomes, 4, 159-170. doi: 10.1007/s11295-007-0097-x.10.1007/s11295-007-0097-x]Search in Google Scholar
[Van Buijtenen J.P. 2001. Genomics and quantitative genetics. Canadian Journal of Forest Research, 31, 617-622.]Search in Google Scholar
[Wheeler N., Jermstad K., Krutovsky K., Aitken S., Howe G., Krakowski J., Neale D. 2005. Mapping of quantitative trait loci controlling adaptive traits in coastal Douglas-Fir. IV. Cold-hardiness QTL verification and candidate genemapping. Molecular Breeding, 15 (2), 145-156.]Search in Google Scholar
[Yazardi R., Yeh F.C., Rimsha J. 1995. Genomic mapping of Pinus sylvestris using random amplified polimorphic DNA markers. Forest Genetics, 2, 109-116.]Search in Google Scholar
[Yin M.T., Wang X.R., Anderson B., Larceteau-Köhler E. 2003. Nearly complete genetic maps of Pinus sylvestris constructed by AFLP marker analysis in a full-sib familiy. Theoretical and Applied Genetics, 106, 1075-1083.]Search in Google Scholar
[Yoshimaru H., Ohba K., Tsurumi K., Tomaru N., Murai M., Mukai Y., Suyama Y., Tsumura Y., Kawahara T., Sakamaki Y. 1998. Detection of quantitative trait loci for juvenile growth, flower bearing and rooting ability based on a linkage map of sugi (Cryptomeria japonica D Don). Theoretical and Applied Genetics, 97 (1/2), 45-50. ]Search in Google Scholar