TY - BOOK ID - 134292067 TI - Genetic and Phenotypic Variation in Tree Crops Biodiversity PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Research & information: general KW - Biology, life sciences KW - Microbiology (non-medical) KW - Camellia sinensis KW - genetic diversity KW - population structure KW - SSR KW - bark phenotype KW - bark scale KW - Norway spruce KW - resonance wood KW - sonic tomography KW - conifer adaptation KW - phenotypic plasticity KW - comparative proteomics KW - stress response KW - Hainan Province KW - endemic species KW - conservation KW - codon usage KW - sequence divergence KW - phylogeny KW - Acer KW - sect. Platanoidea KW - chloroplast genome KW - structural variation KW - phylogenetics KW - nSSR KW - cpDNA KW - Magnoliaceae KW - conservation genetics KW - fragmentation KW - agroforestry KW - domestication KW - Inga edulis KW - amazon forest KW - microsatellite markers KW - Paeonia rockii (flare tree peony) germplasm accessions KW - phenotypic traits KW - EST-SSR markers KW - chloroplast DNA sequences KW - tree improvement KW - evergreen oak KW - phenotypic selection KW - selection criteria KW - seed orchard KW - generalized value KW - genetic differentiation KW - natural regeneration KW - cultivated population KW - semi-domesticated population KW - growth trait KW - wood property KW - cytosine methylation KW - epimarker KW - candidate gene KW - gene expression KW - color mutation KW - pigment metabolism KW - chlorophyll KW - anthocyanin KW - mutation mechanism KW - RNA-seq KW - Castanopsis × kuchugouzhui KW - natural hybrid KW - molecular identification KW - chloroplast DNA sequence KW - microsatellite KW - Ilex species KW - Aquifoliaceae KW - morphological traits KW - DNA C-value KW - plastid genome KW - S-genotyping KW - S-locus KW - P. communis KW - P. pyrifolia KW - P. amygdaliformis KW - genetic structure KW - n/a UR - https://www.unicat.be/uniCat?func=search&query=sysid:134292067 AB - Recently, there has been a dramatic increase in the use of DNA-derived data and innovative phenotyping to obtain insights into the causative genes underlying traits of agronomical interest or to characterize tree genetic resources. The latter, in particular, could represent an important source of genetic diversity that can be readily used to enhance the adaptability to limiting environmental factors and resistance to biotic stresses or to promote novel genotypes with improved agronomic traits. On the whole, the studies collected in this book report on tree crop biodiversity characterization that could provide the essential building blocks to ensure future improvements in production and quality, as well as for innovations in tree crop development and utilization. ER -