[1]
|
白嘉雨. 中国热带地区桉属树种的遗传改良回顾[M]//洪菊生, 王豁然. 澳大利亚阔叶树研究. 北京: 中国林业出版社, 1993: 33-48
|
[2]
|
Clarke C R E. Are Eucalyptus clones advantageous for the pulp mill? [J]. South African Forestry Journal, 2001, 190: 61-65 |
[3]
|
Byrne M, Murrell J C, Owen J V, et al. Identification and mode of action of quantitative trait loci affecting seedling height and leaf area in Eucalyptus nitens [J]. Theoretical and Applied Genetics, 1997, 94: 674-681 |
[4]
|
Verhaegen D, Plomion C, Gion J-M, et al. Quantitative trait dissection analysis in Eucalyptus 1. Detection of QTL in interspecific hybrid progeny, stability of QTL expression across different ages [J]. Theoretical and Applied Genetics, 1997, 95: 597-608 |
[5]
|
Bundock P C, Potts B M, Vaillancourt R E. Detection and stability of quantitative trait loci (QTL) in Eucalyptus globulus[J]. Tree Genetics and Genomes, 2008, 4: 85-95 |
[6]
|
Grattagapglia D, Bertolucci F L G, Penchel R, et al. Genetic mapping of quantitative trait loci controlling growth and wood quality traits in Eucalyptus grandis using a maternal half-sib family and RAPD markers[J]. Genetics, 1996, 144: 1205-1214 |
[7]
|
Freeman J, Whittock S, Potts B, et al. QTL influencing growth and wood properties in Eucalyptus globulus[J]. Tree Genetics and Genomes, 2009, 5: 713-722 |
[8]
|
Thamarus K, Groom K, Bradley A, et al. Identification of quantitative trait loci for wood and fibre properties in two full-sib pedigrees of Eucalyptus globulus [J]. Theoretical and Applied Genetics, 2004, 109: 856-864 |
[9]
|
Thumma B R, Southerton S G, Bell J C, et al. Quantitative trait locus (QTL) analysis of wood quality traits in Eucalyptus nitens [J]. Tree Genetics and Genomes, 2010, 6: 305-317 |
[10]
|
Byrne M, Murrel J C, Owen J V, et al. Mapping of quantitative trait loci influencing frost tolerance in Eucalyptus nitens [J]. Theoretical and Applied Genetics, 1997, 95: 975-979 |
[11]
|
Henery M L, Moran G F, Wallis I R, et al. Identification of quantitative trait loci influencing foliar concentrations of terpenes and formylated phloroglucinol compounds in Eucalyptus nitens [J]. New Phytologist, 2007, 176: 82-95 |
[12]
|
Shepherd M, Chaparro J X, Teasdale R. Genetic mapping of monoterpene composition in an interspecific eucalypt hybrid [J]. Theoretical and Applied Genetics, 1999, 99: 1207-1215 |
[13]
|
Grattapaglia D, Bertolucci F, Sederoff R. Genetic mapping of QTLs controlling vegetative propagation in Eucalyptus grandis and E. urophylla using a pseudo-testcross strategy and RAPD markers [J]. Theoretical and Applied Genetics, 1995, 90: 937-947 |
[14]
|
Marques C M, Vasquez-Kool J, Carocha V J, et al. Genetic dissection of vegetative propagation traits in Eucalyptus tereticornis and E. globulus [J]. Theoretical and Applied Genetics, 1999, 99: 936-946 |
[15]
|
Marques C M, Carocha V J, de sa Pereira A R, et al. Verification of QTL linked markers for propagation traits in Eucalyptus [J]. Tree Genetics and Genomes, 2005, 1: 103-108 |
[16]
|
Gan S, Shi J, Li M, et al. Moderate-density molecular maps of Eucalyptus urophylla S. T. Blake and E. tereticornis Smith genomes based on RAPD markers [J]. Genetica, 2003, 118: 59-67 |
[17]
|
张照远, 甘四明, 李发根, 等. EST-CAPS标记在尾叶桉和细叶桉遗传图谱构建中的应用[J]. 林业科学研究, 2007, 20(2): 230-234
|
[18]
|
甘四明, 李 梅, 吴坤明, 等. 尾叶桉(细叶桉杂种无性系扦插生根和生长性状的研究[J]. 林业科学研究, 2006, 19(2): 135-140
|
[19]
|
Lander E S, Botstein D. Mapping Mendelian factors underlying quantitative traits using RFLP linkage maps [J]. Genetics, 1989, 121: 185-199 |
[20]
|
Haldane J B S. The combination of linkage values and the calculation of distance between the loci of linked factors [J]. Journal of Genetics, 1919, 8: 299-309 |
[21]
|
宋 婉, 陈晓阳, 续九如, 等. 林木遗传图谱构建研究进展与发展方向[J]. 遗传, 2003, 25(6): 749- 756
|