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This book is a collection of fundamental and applied research on the plant root response to environmental clues. In particular, the continued adaptation of both fine and coarse roots to modifications due to natural and anthropogenic causes were investigated from different viewpoints. Additionally, specific root traits were investigated as an optimal indicator of responses to the environment at the whole-plant level. Aspects such as an innovative methodological approach, the root morphology, gene expression, and primary and secondary metabolite concentrations were at the center of the investigations conducted in this collection.
Research & information: general --- Biology, life sciences --- TIFY --- Populus trichocarpa --- protein interaction network --- phytohormone treatment --- abiotic stress --- bioengineering --- Carpinus betulus --- Fagus orientalis --- tensile force --- Acer pseudoplatanus --- competition below ground --- extracellular enzymes --- Fagus sylvatica --- intraspecific and interspecific competition --- toot economic spectrum --- toot respiration --- tree root traits --- soil compaction --- N loading --- fine root --- root morphology --- ectomycorrhizal fungi --- forest gap --- forest management --- fine roots --- morphology --- lignin --- carbon --- nitrogen --- hydro-fluctuation zone --- Three Gorges Dam Reservoir --- winter submergence --- Taxodium distichum --- Salix matsudana --- organic acids --- phosphorus deficiency --- T.‘Zhongshanshan’ --- root foraging ability for phosphorus --- anchorage --- coarse root --- measurement method --- Pinus thunbergii --- root cross-sectional area --- root system architecture --- morphological attributes --- physiological analysis --- Populus euramericana --- reforestation --- n/a --- T.'Zhongshanshan'
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This book is a collection of fundamental and applied research on the plant root response to environmental clues. In particular, the continued adaptation of both fine and coarse roots to modifications due to natural and anthropogenic causes were investigated from different viewpoints. Additionally, specific root traits were investigated as an optimal indicator of responses to the environment at the whole-plant level. Aspects such as an innovative methodological approach, the root morphology, gene expression, and primary and secondary metabolite concentrations were at the center of the investigations conducted in this collection.
TIFY --- Populus trichocarpa --- protein interaction network --- phytohormone treatment --- abiotic stress --- bioengineering --- Carpinus betulus --- Fagus orientalis --- tensile force --- Acer pseudoplatanus --- competition below ground --- extracellular enzymes --- Fagus sylvatica --- intraspecific and interspecific competition --- toot economic spectrum --- toot respiration --- tree root traits --- soil compaction --- N loading --- fine root --- root morphology --- ectomycorrhizal fungi --- forest gap --- forest management --- fine roots --- morphology --- lignin --- carbon --- nitrogen --- hydro-fluctuation zone --- Three Gorges Dam Reservoir --- winter submergence --- Taxodium distichum --- Salix matsudana --- organic acids --- phosphorus deficiency --- T.‘Zhongshanshan’ --- root foraging ability for phosphorus --- anchorage --- coarse root --- measurement method --- Pinus thunbergii --- root cross-sectional area --- root system architecture --- morphological attributes --- physiological analysis --- Populus euramericana --- reforestation --- n/a --- T.'Zhongshanshan'
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Forest 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.
Research & information: general --- 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 --- 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
Choose an application
Forest 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.
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
Choose an application
This book is a collection of fundamental and applied research on the plant root response to environmental clues. In particular, the continued adaptation of both fine and coarse roots to modifications due to natural and anthropogenic causes were investigated from different viewpoints. Additionally, specific root traits were investigated as an optimal indicator of responses to the environment at the whole-plant level. Aspects such as an innovative methodological approach, the root morphology, gene expression, and primary and secondary metabolite concentrations were at the center of the investigations conducted in this collection.
Research & information: general --- Biology, life sciences --- TIFY --- Populus trichocarpa --- protein interaction network --- phytohormone treatment --- abiotic stress --- bioengineering --- Carpinus betulus --- Fagus orientalis --- tensile force --- Acer pseudoplatanus --- competition below ground --- extracellular enzymes --- Fagus sylvatica --- intraspecific and interspecific competition --- toot economic spectrum --- toot respiration --- tree root traits --- soil compaction --- N loading --- fine root --- root morphology --- ectomycorrhizal fungi --- forest gap --- forest management --- fine roots --- morphology --- lignin --- carbon --- nitrogen --- hydro-fluctuation zone --- Three Gorges Dam Reservoir --- winter submergence --- Taxodium distichum --- Salix matsudana --- organic acids --- phosphorus deficiency --- T.'Zhongshanshan' --- root foraging ability for phosphorus --- anchorage --- coarse root --- measurement method --- Pinus thunbergii --- root cross-sectional area --- root system architecture --- morphological attributes --- physiological analysis --- Populus euramericana --- reforestation --- TIFY --- Populus trichocarpa --- protein interaction network --- phytohormone treatment --- abiotic stress --- bioengineering --- Carpinus betulus --- Fagus orientalis --- tensile force --- Acer pseudoplatanus --- competition below ground --- extracellular enzymes --- Fagus sylvatica --- intraspecific and interspecific competition --- toot economic spectrum --- toot respiration --- tree root traits --- soil compaction --- N loading --- fine root --- root morphology --- ectomycorrhizal fungi --- forest gap --- forest management --- fine roots --- morphology --- lignin --- carbon --- nitrogen --- hydro-fluctuation zone --- Three Gorges Dam Reservoir --- winter submergence --- Taxodium distichum --- Salix matsudana --- organic acids --- phosphorus deficiency --- T.'Zhongshanshan' --- root foraging ability for phosphorus --- anchorage --- coarse root --- measurement method --- Pinus thunbergii --- root cross-sectional area --- root system architecture --- morphological attributes --- physiological analysis --- Populus euramericana --- reforestation
Listing 1 - 5 of 5 |
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