Genetics and Improvement of Forest Trees
English[eng]
9783040000000
early selection||stomatal characteristics||water stress||water relations||specific leaf area||Eucalyptus clones||LTR-retrotransposon||Ty3-gypsy||Ty1-copia||IRAP||molecular markers||bamboo||Phyllostachys||genetic diversity||populations structure||AMOVA||central-marginal hypothesis||cline||Pinaceae||trailing edge population||Sakhalin fir||sub-boreal forest||gibberellin||male strobilus induction||transcriptome||conifer||Cryptomeria japonica||linkage map||male sterility||marker-assisted selection||C. fortunei||differentially expressed genes||phenylpropanoid metabolism||candidate genes||Camellia oleifera||leaf senescence||transcriptome analysis||senescence-associated genes||physiological characterization||cpDNA||next generation sequencing||northern limit||nucleotide diversity||phylogeny||In/Del||SNP||SSR||Chinese fir||heartwood||secondary metabolites||widely targeted metabolomics||flavonoids||amplicon sequencing||AmpliSeq||genomic selection||Japanese cedar (Cryptomeria japonica)||multiplexed SNP genotyping||spatial autocorrelation error||pine wood disease||resistance to pine wood nematode||inoculation test||multisite||cumulative temperature||Pinus thunbergii||Thujopsis dolabrata||EST-SSR markers||varieties||population structure||pine wilt disease||Bursaphelenchus xylophilus||genotype by environment interaction||Japanese black pine||variance component||local adaptation||silviculture||seed zone||tree improvement program||breeding||genotype × environment interaction||mast seeding||seed production||thinning||forest tree breeding||high-throughput phenotyping||epigenetics||genotyping||genomic prediction models||quantitative trait locus||breeding cycle||Cryptomeria japonica var. sinensis||demographic history||RAD-seq||ancient tree||conservation||infrared thermography||chlorophyll fluorescence||cumulative drought stress||genetic conservation||genetic management||pine wood nematode||pine wood nematode-Pinus thunbergii resistant trees||n/a