LEADER 05202nam 2201537z- 450 001 9910557345103321 005 20231214133652.0 035 $a(CKB)5400000000042439 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/76699 035 $a(EXLCZ)995400000000042439 100 $a20202201d2021 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aGenetics and Improvement of Forest Trees 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021 215 $a1 electronic resource (328 p.) 311 $a3-0365-1242-X 311 $a3-0365-1243-8 330 $aForest tree improvement has mainly been implemented to enhance the productivity of artificial forests. However, given the drastically changing global environment, improvement of various traits related to environmental adaptability is more essential than ever. This book focuses on genetic information, including trait heritability and the physiological mechanisms thereof, which facilitate tree improvement. Nineteen papers are included, reporting genetic approaches to improving various species, including conifers, broad-leaf trees, and bamboo. All of the papers in this book provide cutting-edge genetic information on tree genetics and suggest research directions for future tree improvement. 606 $aResearch & information: general$2bicssc 610 $aearly selection 610 $astomatal characteristics 610 $awater stress 610 $awater relations 610 $aspecific leaf area 610 $aEucalyptus clones 610 $aLTR-retrotransposon 610 $aTy3-gypsy 610 $aTy1-copia 610 $aIRAP 610 $amolecular markers 610 $abamboo 610 $aPhyllostachys 610 $agenetic diversity 610 $apopulations structure 610 $aAMOVA 610 $acentral-marginal hypothesis 610 $acline 610 $aPinaceae 610 $atrailing edge population 610 $aSakhalin fir 610 $asub-boreal forest 610 $agibberellin 610 $amale strobilus induction 610 $atranscriptome 610 $aconifer 610 $aCryptomeria japonica 610 $alinkage map 610 $amale sterility 610 $amarker-assisted selection 610 $aC. fortunei 610 $adifferentially expressed genes 610 $aphenylpropanoid metabolism 610 $acandidate genes 610 $aCamellia oleifera 610 $aleaf senescence 610 $atranscriptome analysis 610 $asenescence-associated genes 610 $aphysiological characterization 610 $acpDNA 610 $anext generation sequencing 610 $anorthern limit 610 $anucleotide diversity 610 $aphylogeny 610 $aIn/Del 610 $aSNP 610 $aSSR 610 $aChinese fir 610 $aheartwood 610 $asecondary metabolites 610 $awidely targeted metabolomics 610 $aflavonoids 610 $aamplicon sequencing 610 $aAmpliSeq 610 $agenomic selection 610 $aJapanese cedar (Cryptomeria japonica) 610 $amultiplexed SNP genotyping 610 $aspatial autocorrelation error 610 $apine wood disease 610 $aresistance to pine wood nematode 610 $ainoculation test 610 $amultisite 610 $acumulative temperature 610 $aPinus thunbergii 610 $aThujopsis dolabrata 610 $aEST-SSR markers 610 $avarieties 610 $apopulation structure 610 $apine wilt disease 610 $aBursaphelenchus xylophilus 610 $agenotype by environment interaction 610 $aJapanese black pine 610 $avariance component 610 $alocal adaptation 610 $asilviculture 610 $aseed zone 610 $atree improvement program 610 $abreeding 610 $agenotype × environment interaction 610 $amast seeding 610 $aseed production 610 $athinning 610 $aforest tree breeding 610 $ahigh-throughput phenotyping 610 $aepigenetics 610 $agenotyping 610 $agenomic prediction models 610 $aquantitative trait locus 610 $abreeding cycle 610 $aCryptomeria japonica var. sinensis 610 $ademographic history 610 $aRAD-seq 610 $aancient tree 610 $aconservation 610 $ainfrared thermography 610 $achlorophyll fluorescence 610 $acumulative drought stress 610 $agenetic conservation 610 $agenetic management 610 $apine wood nematode 610 $apine wood nematode-Pinus thunbergii resistant trees 615 7$aResearch & information: general 700 $aIde$b Yuji$4edt$01303370 702 $aIde$b Yuji$4oth 906 $aBOOK 912 $a9910557345103321 996 $aGenetics and Improvement of Forest Trees$93026958 997 $aUNINA