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100   $a20150304j201408    ua             0
101 0 $aeng
135   $aurcn|||||||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aMulti-mission system analysis for planetary entry (M-SAPE) version 1 /$fJamshid Samareh [and thirteen others]
210  1$aHampton, Virginia :$cNational Aeronautics and Space Administration, Langley Research Center,$dAugust 2014.
215   $a1 online resource (x, 124 pages) $ccolor illustrations
225 1 $aNASA/TM ;$v2014-218507
300   $aTitle from title screen (viewed March 4, 2015).
300   $a"August 2014."
320   $aIncludes bibliographical references (pages 74-75).
517   $aMulti-mission system analysis for planetary entry 
606   $aSample return missions$2nasat
606   $aAtmospheric entry$2nasat
606   $aAerodynamic stability$2nasat
606   $aSystems analysis$2nasat
606   $aSystems integration$2nasat
606   $aFlight mechanics$2nasat
615  7$aSample return missions.
615  7$aAtmospheric entry.
615  7$aAerodynamic stability.
615  7$aSystems analysis.
615  7$aSystems integration.
615  7$aFlight mechanics.
700   $aSamareh$b Jamshid$01393023
712 02$aLangley Research Center,
712 02$aUnited States.$bNational Aeronautics and Space Administration,
801  0$bGPO
801  1$bGPO
906   $aBOOK
912   $a9910703588303321
996   $aMulti-mission system analysis for planetary entry (M-SAPE) version 1$93448614
997   $aUNINA

LEADER 05243nam  2201561z- 450 
001 9910557345103321
005 20220111
035   $a(CKB)5400000000042439
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/76699
035   $a(oapen)doab76699
035   $a(EXLCZ)995400000000042439
100   $a20202201d2021      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aGenetics and Improvement of Forest Trees
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 online resource (328 p.)
311 08$a3-0365-1242-X 
311 08$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 and information: general$2bicssc
610   $aAMOVA
610   $aamplicon sequencing
610   $aAmpliSeq
610   $aancient tree
610   $abamboo
610   $abreeding
610   $abreeding cycle
610   $aBursaphelenchus xylophilus
610   $aC. fortunei
610   $aCamellia oleifera
610   $acandidate genes
610   $acentral-marginal hypothesis
610   $aChinese fir
610   $achlorophyll fluorescence
610   $acline
610   $aconifer
610   $aconservation
610   $acpDNA
610   $aCryptomeria japonica
610   $aCryptomeria japonica var. sinensis
610   $acumulative drought stress
610   $acumulative temperature
610   $ademographic history
610   $adifferentially expressed genes
610   $aearly selection
610   $aepigenetics
610   $aEST-SSR markers
610   $aEucalyptus clones
610   $aflavonoids
610   $aforest tree breeding
610   $agenetic conservation
610   $agenetic diversity
610   $agenetic management
610   $agenomic prediction models
610   $agenomic selection
610   $agenotype × environment interaction
610   $agenotype by environment interaction
610   $agenotyping
610   $agibberellin
610   $aheartwood
610   $ahigh-throughput phenotyping
610   $aIn/Del
610   $ainfrared thermography
610   $ainoculation test
610   $aIRAP
610   $aJapanese black pine
610   $aJapanese cedar (Cryptomeria japonica)
610   $aleaf senescence
610   $alinkage map
610   $alocal adaptation
610   $aLTR-retrotransposon
610   $amale sterility
610   $amale strobilus induction
610   $amarker-assisted selection
610   $amast seeding
610   $amolecular markers
610   $amultiplexed SNP genotyping
610   $amultisite
610   $an/a
610   $anext generation sequencing
610   $anorthern limit
610   $anucleotide diversity
610   $aphenylpropanoid metabolism
610   $aPhyllostachys
610   $aphylogeny
610   $aphysiological characterization
610   $aPinaceae
610   $apine wilt disease
610   $apine wood disease
610   $apine wood nematode
610   $apine wood nematode-Pinus thunbergii resistant trees
610   $aPinus thunbergii
610   $apopulation structure
610   $apopulations structure
610   $aquantitative trait locus
610   $aRAD-seq
610   $aresistance to pine wood nematode
610   $aSakhalin fir
610   $asecondary metabolites
610   $aseed production
610   $aseed zone
610   $asenescence-associated genes
610   $asilviculture
610   $aSNP
610   $aspatial autocorrelation error
610   $aspecific leaf area
610   $aSSR
610   $astomatal characteristics
610   $asub-boreal forest
610   $athinning
610   $aThujopsis dolabrata
610   $atrailing edge population
610   $atranscriptome
610   $atranscriptome analysis
610   $atree improvement program
610   $aTy1-copia
610   $aTy3-gypsy
610   $avariance component
610   $avarieties
610   $awater relations
610   $awater stress
610   $awidely targeted metabolomics
615  7$aResearch and 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