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Data from: A set of plastid loci for use in multiplex fragment length genotyping for intraspecific variation in Pinus (Pinaceae)
负责人:
关键词:
Pinus resinosa;Pinus torreyana torreyana;Pinus taeda;Pinus albicaulis;discriminant analysis of principal components;Pinus cembroides;Pinus johannis;Pinus elliottii;Pinus heldreichii;Pinus rigida;Pinus massoniana;Pinus rzedowskii;Pinus ponderosa benthamiana;microsatellites;Pinus pseudostrobus var. apulcensis;Pinus bungeana;Pinus morrisonicola;Pinus chihuahuana;Pinus longaeva;Pinus Edulis;Pinus canariensis;Pinus leiophylla;Pinus attenuata;Pinus pinea;Pinus hartwegii subsp. donnell-smithii;Pinus montezumae;Pinus devoniana;Pinus lawsonii;Pinus pinaster;Pinus ponderosa var. benthamiana;Pinus douglasiana;Pinus yecorensis;plastid;Pinus arizonica;Pinus amamiana;Pinus pumila;Pinus kesiya;Pinus hartwegii;Pinus gerardiana;Pinus monticola;Pinus culminicola;Pinus muricata;Pinus sibirica;Pinus virginiana;Pinus oaxacana;Intraspecific Taxonomy;Pinus echinata;Pinus wallichiana;Pinus monophylla;Pinus serotina;Pinus densata;Pinus remota;Pinus caribea;Pinus squamata;Pinus dabeshanensis;Pinus strobus;Pinus pungens;Pinus taiwanensis;Pinus yunnanensis;Pinus clausa;Pinus koraiensis;Pinus pseudostrobus;Pinus nigra;Pinus densiflora;Pinus thunbergii;Pinus strobiformis;Pinus radiata;Pinus banksiana;Pinus dalatensis;Pinus jeffreyi;Pinus mugo;Pinus ponderosa scopulorum;Pinus palustris;Pinus ponderosa;Pinus glabra;Pinus ponderosa ponderosa;Pinus torreyana insularis;Pinus engelmannii;Pinus roxburghii;Pinus parviflora;Pinus tropicalis;Pinus cubensis;Pinus coulteri;Pinus lumholtzii;Pinus nelsonii;Pinus Krempfii;Pinus sabiniana;Pinus occidentalis;Pinus ponderos var. scopulorum;Pinus hwangshanensis;Pinus peuce;Pinus flexilis;Pinus contorta;Pinus sylvestris;Pinus ayacahuite;Pinus patula;Pinus pinceana;Pinus gregii;Pinus maximartinezii;Pinus quadrifolia;Pinus chiapensis;Pinus armandii;Pinus wangii;Pinus aristata;Pinus halepensis;Pinus cooperi;Pinus lambertiana;Pinus donnell smithii;Pinus pringlei;Pinus merkusii;Pinus brutia;Pinus discolor;Pinus latteri;Pinus fragilissima
DOI:
doi:10.5061/dryad.5nc25
摘要:
Premise of the study: Recently released Pinus plastome sequences support characterization of 15 plastid Simple Sequence Repeat (ptSSR) loci
Pinus taeda growth areas allocated to mesozones
负责人:
South African Environmental Observation Network
关键词:
agriculture biomass growth areas mesozones pinus taeda yield estimation Agriculture Commercial forestry Forestry distribution
DOI:
doi:10.15493/bea.data.10000014
摘要:
*The dataset shows climatically optimum growth areas and yield estimates of Pinus taeda allocated to mesozones. Yield estimates were derived from
Data from: Association genetics of growth and adaptive traits in loblolly pine (Pinus taeda L.) using whole-exome-discovered polymorphisms
负责人:
关键词:
Exome Capture;local adaptation;Exome SNP;SNP;Pinus taeda L.;association mapping;loblolly pine
DOI:
doi:10.5061/dryad.269126c
摘要:
in a clonally tested loblolly pine (Pinus taeda L.) population. Over 2.8 million single nucleotide polymorphism (SNP) markers detected from exome sequencing wer
Data from: Genetically determined fungal pathogen tolerance and soil variation influences ectomycorrhizal traits of loblolly pine
负责人:
关键词:
Rhizopogon;Cenococcum;Pinus taeda;ectomycorrhizae;loblolly pine;Wicoxina;fusiform rust;pine decline;Thelephora
DOI:
doi:10.5061/dryad.n13h839
摘要:
s within loblolly pine (Pinus taeda L.) by determining how ectomycorrhizal (EM) colonization relates to pathogen susceptibility. 3. We detected interactions bet
Data from: Plant host and soil origin influence fungal and bacterial assemblages in the roots of woody plants
负责人:
关键词:
fungal and bacterial communities;Populus deltoides;Quercus phellos;Pinus taeda;454 pyrosequencing;Populus trichocarpa;Root microbiome;Endophytes
DOI:
doi:10.5061/dryad.2b2dj
摘要:
and bacterial communities we designed a trap-plant bioassay experiment. Replicate Populus, Quercus, and Pinus plants were grown in three soils originating from alternate
Data from: The contribution of dominance to phenotype prediction in a pine breeding and simulated population
负责人:
Kirst, Matias
关键词:
DOI:
doi:10.5061/dryad.3126v
摘要:
(height) and oligogenic (fusiform rust resistance) traits in a structured breeding population of loblolly pine (Pinus taeda L.). Models were largely sim
Data from: Loci under selection during multiple range expansions of an invasive plant are mostly population-specific, but patterns ar
负责人:
关键词:
gene-level invasions genotype-environment interactions invasion genetics rapid evolution
DOI:
doi:10.5061/dryad.tm8d0
摘要:
s in Brazil where Pinus taeda (loblolly pine) was introduced at the same time, in the same numbers, from the same seed sources, and has formed naturalized
Data from: Using branch-and-bound algorithms to optimize selection of a fixed-size breeding population under a relatedness constraint
负责人:
关键词:
breeding populations;mixed integer quadratically constrained optimization;selection;branch-and-bound;selection;Pinus taeda;genetic gain;Pinus sylvestris;Restricted selection;MIQCO;relatedness
DOI:
doi:10.5061/dryad.4r1f0
摘要:
optimizing selection of breeding populations for Scots pine and loblolly pine illustrate the superiority of the BB solution compared with selection from ranked
Data from: The mechanisms affecting seedling establishment in restored savanna understories are seasonally dependent
负责人:
关键词:
Scleria ciliata;Commelina erecta;Parthenocissus quinquefolia;Gymnopogon ambiguus;Pinus taeda;root competition;Aristida purpurascens var. tenuispica;Liatris virgata;Erigeron strigosus;Packera anonyma;Tephrosia virginiana;Hypericum gentianoides;Vaccinium arboreum;establishment limitation;Prunus umbellata;Sericocarpus tortifolius;Paspalum setaceum;Tragia urticifolia;Rubus argutus;Saccharum alopecuroides;plant life stage;Dichanthelium commutatum;Rhynchosia reniformis;Desmodium obtusum;Andropogon sp.;Rubus cuneifolius;Cornus florida;Stipulicida setacea;Lespedeza repens;Desmodium paniculatum var. paniculatum;Rhus copallinum;Land-use legacies;Potentilla canadensis;Quercus coccinea;Gelsemium sempervirens;Gamochaeta purpurea;Aristida tuberculosa;Cyperus plukenetii;Lactuca graminifolia;Dichanthelium sp.;Dioscorea villosa;Desmodium ciliare;Pityopsis graminifolia;Tragia urens;Silphium compositum;Lespedeza virginica;Callicarpa americana;Vernonia angustifolia;Carya tomentosa;Centrosema virginianum;Asclepias amplexicaulis;Viola sororia;Croton glandulosus;Desmodium strictum;Quercus velutina;Vitis rotundifolia;land-use history;Cyperus retrorsus;Smilax smallii;Helianthemum canadense;Eragrostis spectabilis;Carya;Elephantopus tomentosus;Gaylussacia dumosa;Aristolochia serpentaria;Pseudognaphalium obtusifolium;Lechea mucronata;Quercus laevis;Desmodium lineatum;Lonicera sempervirens;Desmodium marilandicum;Croptilon divaricatum;Chamaecrista fasciculata;Coreopsis major;Crataegus sp.;Ionactis linariifolia;Quercus laurifolia;belowground competition;Quercus margarettiae;Calystegia sp.;Cyperus filiculmis;Lespedeza hirta;Wahlenbergia marginata;Chimaphila maculata;Crocanthemum rosmarinifolium;Linaria canadensis;Liquidambar styraciflua;Tephrosia florida;Stylosanthes biflora;canopy thinning;Smilax glauca;Solidago odora;Clitoria mariana;Pinus palustris;Rubus flagellaris;Bonamia patens;Pteridium aquilinum;Helianthus divaricatus;Eupatorium compositifolium;Lespedeza cuneata;Vitis aestivalis;Viola sp.;Diospyros virginiana;Sassafras albidum;Sericocarpus asteroides;Polypremum procumbens;Euphorbia ipecacuanhae;Quercus incana;Piptochaetium avenaceum;Ilex vomitoria;Hieracium gronovii;Morella cerifera;Paspalum boscianum;Rhexia mariana;Robinia pseudoacacia;Styrax grandifolius;Quercus falcata;Solidago nemoralis;Euphorbia pubentissima;Aristida lanosa;Acalypha gracilens;Desmodium canescens;Carex;Vaccinium stamineum;Erechtites hieraciifolius;Conyza canadensis;Celtis tenuifolia;Chrysopsis gossypina;Symphyotrichum concolor;Toxicodendron pubescens;Campsis radicans;Liatris sp.;Acer rubrum;Solanum ptychanthum;Carya pallida;Eupatorium rotundifolium;Longleaf pine savanna;Eupatorium album;Liatris elegans;Galium sp. (pilosum\/hispidulum);Smilax bona-nox;Aristida condensata;Quercus stellata;Anthropocene;Quercus marilandica;Bulbostylis ciliatifolia;Dyschoriste oblongifolia;Dichanthelium sp.3;Ilex opaca;Prunus serotina;Digitaria cognata;Danthonia sericea;Galium pilosum;dispersal limitation;Chamaecrista nictitans subsp. nictitans;Eupatorium glaucescens;Quercus nigra;Penstemon australis;Ipomoea pandurata;Nyssa sylvatica;Eupatorium capillifolium;Hypericum hypericoides
DOI:
doi:10.5061/dryad.6450hv3
摘要:
of plant communities sharply differ in their structure and composition after agricultural impacts, yet the mechanisms underpinning these dramatic changes are po

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