国际农业科学数据导航库-农业专业知识服务系统

Data from: Accuracy of genomic selection models in a large population of open-pollinated families in white spruce

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关键词：: Picea glauca;wood and growth traits;SNP;Genomic selection;Holocene

DOI：: doi:10.5061/dryad.6rd6f

摘要：: g breeding cycles such as for boreal trees. In this study, we assessed the effectiveness of marker-aided selection in an undomesticated white spruce (Picea glauca

Data from: Fine root dynamics in lodgepole pine and white spruce stands along productivity gradients in reclaimed oil sands sites

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关键词：

DOI：: doi:10.5061/dryad.m1s46

摘要：: coring and ingrowth core methods in lodgepole pine (Pinus contorta Dougl.) and white spruce (Picea glauca (Moench.) Voss) stands. The pi

Data from: Adaptive limitations of white spruce populations to drought imply vulnerability to climate change in its western range

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关键词：: Boreal forest;drought resilience;Picea glauca;provenance trials;Picea glauca (Moench) Voss;Dendroecology;Ecological Genetics;1983-2016;Holocene;climate change

DOI：: doi:10.5061/dryad.n42p4k7

摘要：: to retrospectively investigate drought response and the adaptive capacity of white spruce populations across their boreal range. Relying on dendrochronologic

Data from: Reproduction as a bottleneck to treeline advance across the circumarctic forest tundra ecotone

负责人：

关键词：: Abies balsamea;range expansion;Picea glauca;Larix laricina;Abies lasiocarpa;Betula pubescens ssp. tortuosa;tree reproduction;Pinus sylvestris;Picea mariana;treeline ecotone

DOI：: doi:10.5061/dryad.m58sp14

摘要：: gs between increasingly favourable environmental conditions and treeline ecotone movement is reproductive limitations caused by low seed availa

Data from: Within-season synchrony of a masting conifer enhances seed escape

负责人：: Archibald, Devan W.

关键词：: Ecology: evolutionary Interactions: plant/animal Interactions: plant/herbivore Interactions: predation Reproduction: strategies Selection: natural

DOI：: doi:10.5061/dryad.8b2q1v1d

摘要：: (Picea glauca) increased seed escape from their primary predispersal seed predator, North American red squirrels (Tamiasciurus hudsonicus). Trees with cones tha

Data from: Shade tolerance and the functional trait - demography relationship in temperate and boreal forests

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关键词：: structural equation modelling;Nothofagus solandri;Quercus rubra;Metrosideros umbellata;Fagus grandifolia;Pinus banksiana;Populus trichocarpa;Tilia japonica;Acer saccharum;functional ecology;SORTIE;Betula ermanii;Tsuga heterophylla;Betula pendula;Abies alba;Acer pensylvanicum;Acer campestre;temperate forests;Tsuga canadensis;Betula papyrifera;Acer mono;Populus balsamifera;boreal forests;Nothofagus menziesii;trait spectra;Dacrydium cupressinum;Quercus robur;Weinmannia racemosa;Podocarpus hallii;Pinus sylvestris;Acer rubrum;Thuja occidentalis;Abies amabilis;Crataegus monogyna;Picea engelmanii;Thuja plicata;Corylus avellana;Quercus crispula;tree life-histories;Abies balsamea;Populus tremuloides;Acer pseudoplatanus;Picea glauca;Abies sachalinensis;Fraxinus excelsior;demographic performance;Prunus serotina;Prumnopitys ferruginea;Betula alleghaniensis;Fraxinus americana;Acer spicatum;Pinus strobus;Abies lasiocarpa;Pinus contorta ssp. latifolia;Pinus uncinata;Fagus sylvatica

DOI：: doi:10.5061/dryad.12b0h

摘要：: in the literature and were significantly related to measures of demography. However, our results support the existence of a divergence between evergreen and deciduous

Data from: Low photosynthesis of treeline white spruce is associated with limited soil nitrogen availability in the Western Brooks Range, Alaska

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关键词：: sink limitation;Picea glauca;source limitation;Arctic treeline;snow;Winter;microbe;Holocene

DOI：: doi:10.5061/dryad.s5c8k

摘要：: rgely untested. 2. To improve our understanding of the relationships between temperature and performance of white spruce near the Arctic treeline, we mad

diversity of white spruce

负责人：

关键词：: Picea glauca;association genomics;Tree breeding;selection intensity;Sample size;conifer;linkage disequilibrium

DOI：: doi:10.5061/dryad.np8708k2

摘要：: ial selection for height growth on the genetic diversity of white spruce. Two case populations of different sizes simulating different family selection intensities (K = 13

Data from: Spatial correlations between browsing on balsam fir by white-tailed deer and the nutritional value of neighboring winter forage

负责人：

关键词：: Abies balsamea;neighbourhood effect;cervid;nutritional value;Spatial analyses;chemical composition;deer browsing;Odocoileus virginianus

DOI：: doi:10.5061/dryad.f4245

摘要：: s up to 1,000 m. Balsam fir and white spruce (Picea glauca) fiber content and dry matter in vitro true digestibility were correlated with fir browsing rate

Data from: Globally, functional traits are weak predictors of juvenile tree growth, and we do not know why

负责人：

关键词：: Anacardium excelsum;Shorea beccariana;Pouteria grandiflora;Current-day;Inga punctata;Quercus rubra;Pentaspadon motleyi;Pachira flaviflora;Bernoullia flammea;Mansonia altissima;Swartzia simplex;Vitex pinnata;functional ecology;Shorea xanthophylla;Albizia saman;Inga auristellae;Licania macrophylla;Hierarchical models;Terminalia amazonia;Inga lopadadenia;Albizia adinocephala;Eschweilera sagotiana;Inga pezizifera;Protium unifoliolatum;Schizolobium amazonicum;Goupia glabra;Calophyllum longifolium;Quercus ilex;Acer campestre;Simarouba amara;Shorea laxa;Betula papyrifera;Luehea seemannii;Inga sinacae;FunDivEUROPE;Hieronyma alchorneoides;Sextonia rubra;Tocoyena pittieri;plant population and community dynamics;Beilschmiedia pendula;Nephelium lappaceum;Ocotea cymosa;Cedrela odorata;Qualea rosea;Xylosma spiculifera;Anisoptera grossivenia;Castanospora alphandii;Castanea henryi;Shorea leprosula;Dipterocarpus palembanicus;Shorea ovalis;Dipteryx oleifera;Schizolobium parahyba;Diospyros kaki;Cojoba arborea;Picea glauca;Larix decidua;Fraxinus excelsior;Sorbus aucuparia;Guarea guidonia;Lansium domesticum;Dicorynia guianensis;Jacaranda copaia;Enterolobium cyclocarpum;Randia armata;Pinus strobus;Lithocarpus glaber;Prunus avium;Swartzia grandifolia;Vatairea lundellii;Eschweilera grandiflora;Licania heteromorpha;Quercus myrsinifolia;Eriotheca globosa;Heliocarpus appendiculatus;Stephanostegia capuronii;Sclerolobium densiflorum;Virola surinamensis;Populus tremula;Larix sibirica;Castanopsis sclerophylla;Coussarea curvigemma;Protium sagotianum;Handroanthus guayacan;Colubrina glandulosa;Maquira guianensis;Cordia megalantha;Swartzia panacoco;Toxicodendron succedaneum;Alphitonia petriei;Phyllanthus salviifolius;Acer platanoides;Sorbus torminalis;Albizia zygia;Amburana cearensis;Lafoensia punicifolia;Artocarpus heterophyllus;Eugenia nesiotica;Swartzia polyphylla;Faramea occidentalis;Tilia cordata;Calycophyllum candidissimum;Eschweilera chartaceifolia_aff;Rinorea sylvatica;Spondias mombin;Eschweilera coriacea;Pachira aquatica;rgr;Picea abies;Terminalia oblonga;Protium opacum;Ochroma pyramidale;Phoebe microphylla;Parashorea malaanonan;Prunus buxifolia;Quercus robur;Lonchocarpus sericeus;Ficus pleurocarpa;Dipterocarpus acutangulus;Lophira alata;Poulsenia armata;Shorea faguetiana;Artocarpus integer;Cordia alliodora;Erythrina poeppigiana;Eperua grandiflora;Thuja occidentalis;Protium gallicum;Shorea gibbosa;Vatica nitens;Cardwellia sublimis;Protium meridionale;Gliricidia sepium;Albizia tomentosa;Posoqueria latifolia;Swartzia benthamiana;Terminalia ivorensis;Artocarpus incisus;Aspidosperma spruceanum;Diospyros cathayensis;Quercus pyrenaica;Swietenia macrophylla;Inga edulis;Virola koschnyi;Milicia excelsa;Fagus sylvatica;Khaya ivorensis;Baillonella toxisperma;Ceiba pentandra;Pinus resinosa;Pericopsis elata;Pachira brevipes;Parashorea tomentella;Aegiphila bogotensis;Guapira myrtiflora;Tarrietia utilis;Hopea dryobalanoides;Dalbergia retusa;Inga stipularis;Eperua falcata;Recordoxylon speciosum;Acer saccharum;Diphysa americana;Trichilia tuberculata;Sterculia apetala;Calophyllum brasiliense;Shorea macroptera;Quercus glauca;Paraserianthes falcataria;Picea rubens;Pinus massoniana;Quercus petraea;Platymiscium parviflorum;Aspidosperma megalocarpon;Garcinia intermedia;Dipterocarpus conformis;Harungana madagascariensis;Lacistema aggregatum;Larix laricina;Inga cayennensis;Aralia chinensis;Astronium lecointei;Castilla elastica;Tetragastris panamensis;Lindera limprichtii;Pachira sessilis;Shorea parvifolia;Carpinus betulus;Protium carnosum;Platypodium elegans;Durio zibethinus;Pinus pinaster;Sapindus mukorossi;Gustavia superba;Dysoxylum mollissimum;Pachira insignis;Albizia guachapele;Eriotheca longitubulosa;Garcinia macrophylla;Pouteria reticulata;Genipa americana;Protium aracouchini;Uapaca ferruginea;size-standardized growth rate;Shorea macrophylla;Lindera communis;Erythrina fusca;Brosimum alicastrum;Dipterocarpus globosus;Hura crepitans;Protium heptaphyllum;Cunninghamia lanceolata;Stemmadenia donnell-smithii;Acer pseudoplatanus;Stryphnodendron microstachyum;Heisteria concinna;Homalanthus novoguineensis;Micropholis egensis;Tabebuia rosea;Cecropia ficifolia;Vochysia ferruginea;Ficus yoponensis;Dryobalanops sumatrensis;Tapirira guianensis;Camellia oleifera;Sloanea obtusifolia;Protium decandrum;Tachigali versicolor;Shorea argentifolia;Pseudotsuga menziesii;Virola michelii;Bursera simaruba;Pentadesma butyracea;Hopea beccariana;Betula pendula;Baccaurea motleyana;Inga cf_coruscans;Intsia palembanica;Copaifera lucens;Mangifera indica;Alnus glutinosa;Cecropia obtusifolia;Astronium graveolens;Parkia speciosa;Pachira quinata;Tabernaemontana arborea;Vochysia guatemalensis;Micropholis guyanensis;Ulmus glabra;Licania platypus;Alangium chinense;Ormosia macrocalyx;Dryobalanops lanceolata;Guazuma ulmifolia;Pouteria sapota;Inga thibaudiana;Archidendron jiringa;Hymenaea courbaril;Pinus sylvestris;Hopea sangal;Acer rubrum;Hopea ferruginea;Chrysophyllum cainito;Amphitecna tuxtlensis;Cryptomeria japonica;Swartzia cf_laevicarpa;Dalbergia hupeana;Shorea johorensis;Virola sebifera;Balizia elegans;Dussia mexicana;Peronema canescens;Podocarpus neriifolius;Protium subserratum;Cedrela montana;Abies balsamea;Theobroma speciosum;Eugenia oerstediana;Cecropia sciadophylla;TreeDivNet;Micropholis venulosa;Betula alleghaniensis;Symphonia globulifera;Phoebe zhennan;Rollinia mucosa;Growth;Platymiscium pinnatum

DOI：: doi:10.5061/dryad.h9083

摘要：: 1. Plant functional traits, in particular specific leaf area (SLA), wood density and seed mass, are often good predictors of individual tree

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Data from: Accuracy of genomic selection models in a large population of open-pollinated families in white spruce

Data from: Fine root dynamics in lodgepole pine and white spruce stands along productivity gradients in reclaimed oil sands sites

Data from: Adaptive limitations of white spruce populations to drought imply vulnerability to climate change in its western range

Data from: Reproduction as a bottleneck to treeline advance across the circumarctic forest tundra ecotone

Data from: Within-season synchrony of a masting conifer enhances seed escape

Data from: Shade tolerance and the functional trait - demography relationship in temperate and boreal forests

Data from: Low photosynthesis of treeline white spruce is associated with limited soil nitrogen availability in the Western Brooks Range, Alaska

diversity of white spruce

Data from: Spatial correlations between browsing on balsam fir by white-tailed deer and the nutritional value of neighboring winter forage

Data from: Globally, functional traits are weak predictors of juvenile tree growth, and we do not know why

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