[1] 白嘉雨. 中国热带地区桉属树种的遗传改良回顾[A]. 见:洪菊生,王豁然. 澳大利亚阔叶树研究[M]. 北京:中国林业出版社,1993: 33~48
[Z]. Whitehead Institute, CambridgeMA: Research Technical, 1992
[3] 吴坤明,吴菊英,甘四明,等. 桉树种间杂种的比较和选择研究[J]. 林业科学研究, 2002, 15 (1) : 1~6
[4] 徐建民,白嘉雨,甘四明. 尾叶桉家系综合选择研究[J]. 林业科学研究, 1996, 9 (6) : 561~567
[5] 李光友,徐建民,陆钊华,等. 尾叶桉二代测定林家系的综合评选[J]. 林业科学研究, 2005, 18 (1) : 57~61
[6] 徐建民,陆钊华,李光友,等. 细叶桉种源—家系综合选择的研究[J]. 林业科学研究, 2003, 16 (1) : 1~7
[7] Grattapaglia D, Sederoff R. Genetic linkage map s of Eucalyptus grandis and Eucalyptus urophylla using a p seudo-testcrossmapp ing strategy and RAPD markers [J]. Genetics, 1994, 137: 1127~1137
[8] Verhaegen D, Plomion C. Genetic mapp ing in Eucalyptus urophyllaand Eucalyptus grandis using RAPD markers [J]. Genome, 1996,39: 1051~1061
[9] Brondani R P V, Brondani C, Tarchini R, et al. Development, characterization and mapp ing of microsatellite markers in Eucalyptusgrandis and Eucalyptus urophylla [J]. Theor App l Genet, 1998, 97:816~827
[10] Byrne M,Murrell J C, Allen B, et al. An integrated genetic linkagemap for Eucalyptus using RFLP, RAPD and isozyme markers [J].TheorApp l Genet, 1995, 91: 869~875
[11] Margues CM,Araujo J A, Ferreira J G, et al. AFLP genetic map s ofEucalyptus globulus and E. tereticornis[J]. Theor App l Genet, 1998,96: 727~737
[12] Bundock P C, HaydenM,Vaillancourt R E. Linkage map s of Eucalyptus globulus using RAPD and microsatellite markers [J]. SilvaeGenetica, 2000, 49: 223~232
[13] Thamarus KA, Groom K,Murrell J, et al. A genetic linkage map forEucalyptus globulus with candidate loci for wood, fibre, and floraltraits [J]. TheorApp l Genet, 2002, 104: 379~387
[14] Gan S, Shi J,LiM, et al. Moderate-densitymolecularmap s of Eucalyptus urophylla S. T. Blake and E. tereticornis Smith genomes basedon RAPD markers [J]. Genetica, 2003, 118: 59~67
[15] Agrama H A, George T L, Salah S F. Construction of genome mapfor Eucalyptus cam aldulensis Dehn [J]. Silvae Genetica, 2002, 51:201~206
[16] Tragoonrung S, Kanazin V, Hayes PM, et al. Sequence-tagged-sitefacilitated PCR for barley genome mapp ing [J]. Theor App l Genet,1992, 84: 1002~1008
[17] Konieczny A, Ausubel F M. A p rocedure for mapp ing A rabidopsismutations using codominant ecotype-specific PCR-based markers[J]. Plant J, 1993, 4: 403~410
[18] Nikaido AM,Ujino T, Iwata H, et al. AFLP and CAPS linkagemap sof Cryptom eria japonica [J]. Theor App l Genet, 2000, 100: 825~831
[19] Tani N, Takahashi T, Iwata H, et al. A consensus linkage map forsugi (Cryptom eria japonica) from two pedigrees based on microsatellites and exp ressed sequence tags [J]. Genetics, 2003, 165: 1551~1568
[20] Temesgen B,Brown G R, Harry D E, et al. Genetic mapp ing of exp ressed sequence tag polymorphism ( ESTP) markers in loblolly p ine( Pinus taeda L. ) [J]. TheorApp l Genet, 2001, 102: 664~675
[21] AcheréV, Rampant P F, Jeandroz S, et al. A full saturated linkagemap of Picea abies including AFLP, SSR, ESTP, 5S rDNA and morphologicalmarkers [J]. TheorApp l Genet, 2004, 108: 1602~1613
[22] Doyle J J,Doyle J L. Isolation of p lant DNA from fresh tissue [J].Focus, 1990, 12: 13~14
[23] Lincoln S E, Daly M J, Lander E S. Constructing genetic linkagemap swithMAPMAKER /EXP 3. 0
[24] Voorrip s R E. MapChart: software for the graphical p resentation oflinkage map s and QTLs [J]. J Hered, 2002, 93: 77~78
[25] Strabala T J. Exp ressed sequence tag databases from forestry treespecies [A]. In: Kumar S, Fladung M. Molecular Genetics andBreeding of Forest Trees [C]. New York: Food Products Press,2004: 19~51
[26] Carmargo L E. The FORESTs genome p roject in perspective [A].Eucalyp t GenomicMeeting, Hobart, Tasmania, Australia, 2004
[27] HarryD E, Temesgen B,Neale D B. Codominant PCR2based markers for Pinus taeda developed from mapped cDNA clones[J]. TheorApp l Genet, 1998, 97: 327~336
[28] Tsumura Y, Tomaru N. Genetic diversity of Cryptom eria japonica using co-dominantDNA markers based on sequenced tagged sites[J].TheorApp l Genet, 1999, 98: 396~404
[29] Plomion C, Hurme P, Frigerio JM, et al. Develop ing SSCP markers in two Pinus species [J]. Mol Breed, 1999, 5: 21~31