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Data from: Chronic phosphorus enrichment and elevated pH suppresses Quercus spp. leaf litter decomposition in a temperate forest
负责人:
关键词:
Quercus alba;liming;Quercus rubra;microbial mining hypothesis;nutrient limitation;Quercus prinus;mean residence time;biogeochemistry;Holocene;Quercus velutina
DOI:
doi:10.5061/dryad.nh57s00
摘要:
rs, Quercus spp. leaf litter bags were deployed and harvested at least every year for three years for temporal replication. After three years, elevating pH
Data from: Phenological responsiveness to climate differs among four species of Quercus in North America
负责人:
关键词:
phenology;Quercus rubra;flowering;USA National Phenology Network;citizen science data;2009-2014;breaking leaf buds;Quercus lobata;Plant\u2013climate interactions;phenophase onset;Quercus alba;Quercus;Quercus agrifolia
DOI:
doi:10.5061/dryad.qb70g
摘要:
vations of four species of Quercus contributed to the USA National Phenology Network database from 2009-2014 to investigate how responses to climate (temper
Data from: Fire increases drought vulnerability of Quercus alba juveniles by altering forest microclimate and nitrogen availability
负责人:
关键词:
Microclimate;Quercus alba;drought;nitrogen;fire;resprouting;temperate deciduous forest;ontogeny
DOI:
doi:10.5061/dryad.56t8j52
摘要:
. 2. Using rainout shelters, we imposed summer drought on natural and planted populations of Quercus alba juveniles located in periodically burned
Data from: Influence of late Quaternary climate change on present patterns of genetic variation in valley oak, Quercus lobata Née
负责人:
关键词:
Quercus lobata;Niche Modelling;Late Pleistocene;Quercus alba;climate change;phylogeography;Holocene;Angiosperms;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.g645d
摘要:
(Quercus alba L.). Coast Range and Sierra Nevada foothill populations diverged in the late Pleistocene before the LGM [104 ka (28–1622)] and have occupied somewha
Data from: Towards a common methodology for developing logistic tree mortality models based on ring-width data
负责人:
关键词:
mixed-effect;Nothofagus dombeyi;logistic model;Abies alba;survival;sampling;Tree mortality;tree-ring;Growth;Quercus petraea
DOI:
doi:10.5061/dryad.1bv6n
摘要:
-ring datasets from Abies alba (13 different sites), Nothofagus dombeyi (one site), and Quercus petraea (one site). Our approach is based on a constant sampling
Data from: Phylogenetic diversity patterns in Himalayan forests reveal evidence for environmental filtering of distinct lineages
负责人:
关键词:
Terminalia bellirica;Machilus kurzii;Sarcochlamys pulcherrima;Eurya acuminata;Cyathea spinulosa;Melastoma malabathricum;Castanopsis indica;Walsura robusta;Erythrina stricta;trees;Tsuga dumosa;Elatostema platyphyllum;Toona sureni var. sureni;Altingia excelsa;Macaranga denticulata;filtering;Azadirachta indica;Community Ecology;Lyonia ovalifolia;Angiopteris evecta;Exbucklandia populnea;Grewia optiva;Zanthoxylum armatum;Daphne papyracea;Elaeagnus parvifolia;Bhesa robusta;Aglaia spectabilis;Dendrocalamus hamiltonii;Spondias pinnata;Dysoxylum binectariferum;Quercus leucotrichophora;Toona ciliata;Garuga pinnata;Pyrus communis;Albizia lucidior;Bambusa tulda;Breonia chinensis;Phoebe cooperiana;Gmelina arborea;Acacia sp.;Prunus cerasoides;Syzygium cumini;Terminalia myriocarpa;Dipterocarpus retusus;Gymnocladus assamicus;Tectona grandis;Juglans regia;Alstonia scholaris;Juniperus sp.;Callicarpa arborea;Michelia champaca;Baccaurea ramiflora;Ficus auriculata;Rhododendron barbatum;Casearia vareca;Duabanga grandiflora;Senna siamea;Hovenia dulcis var. dulcis;Gleditsia assamica;Aralia sp;Morus laevigata;Ostodes paniculata;Ricinus communis;Artocarpus heterophyllus;Pinus roxburghii;Berberis leschenaultii;Syzygium jambos;Lagerstroemia speciosa;Phlogacanthus thyrsiflorus;Garcinia cowa;Illicium griffithii;Meyna laxiflora;Tetrameles nudiflora;Bombax ceiba;Rhododendron maddenii;Bambusa balcooa;Acer campbellii;Ficus glaberrima;Smilax sp.;Rhododendron wallichii;Bauhinia ungulata;beta diversity;Litsea cubeba;Citrus maxima;phylogenetics;Kydia calycina;Coriaria nepalensis;Caryota urens;Schima khasiana;Chukrasia tabularis;Cyathea sp;Leea macrophylla;Schima wallichii;Ficus hispida;Psidium guajava;Oroxylum indicum;Ficus benjamina var. nuda;Wendlandia glabrata;Brassaiopsis mitis;Shorea robusta;Trewia nudiflora;Micromelum integerrimum;Hevea brasiliensis;Calamus sp;Ficus cyrtophylla;Pterospermum acerifolium;Stereospermum chelonoides;Vernonia arborea;Mesua ferrea;Moringa oleifera;Dillenia indica;Eucalyptus sp.;Glochidion heymeanum;Lindera sp.;Styrax sp.;Albizia procera;Maesa indica;Quercus glauca;Carallia brachiata;Magnolia pealiana;Schefflera venulosa;Acer cappadocicum;Eurya japonica;Brucea javanica;Rhododendron thomsonii;Alnus nepalensis;Boehmeria nivea;Rhododendron lanatum;Abroma augusta;Ailanthus integrifolia;Callicarpa macrophylla;Litsea monopetala;Garcinia pedunculata;Bridelia retusa;Zizyphus mauritiana;Gaultheria sp.;Rhododendron fulgens;Hydrangea sp.;Debregeasia saeneb;Viburnum cylindricum;Mallotus philippensis;Toxicodendron griffithii;Phyllanthus emblica;Saurauia nepaulensis;Boehmeria glomerulifera;Pieris formosa;Pinus kesiya;Sterculia villosa;Casuarina sp;Cordia grandis;Boehmeria macrophylla;Cupressus torulosa;Magnolia hodgsonii;Rhododendron arboreum;Ficus hirta;Merrilliopanax alpinus;Pinus wallichiana;Docynia indica;Rhododendron cinnabarinum;species richness;Bischofia javanica;Camellia sinensis;Trevesia palmata;Artocarpus chama;Myrica esculenta;Pandanus furcatus;Melia azedarach;Ficus racemosa;Acer caesium;Cassia fistula;Livistona jenkinsiana;Boehmeria rugulosa;Actinodaphne obovata;Quercus baloot;Pterospermum lanceifolium;Boehmeria platyphylla;Canarium strictum;Beilschmiedia fagifolia;Abies alba;Mangifera indica;Cornus capitata;Dalbergia sissoo;Shorea assamica;Rhododendron falconeri;Loranthus sp;Trema orientalis;Viburnum colebrookeanum;Alangium chinense;Elaeocarpus floribundus;Sambucus adnata;Ardisia macrocarpa;Heteropanax fragrans;Citrus reticulata;Engelhardia spicata;Clerodendrum infortunatum;Ficus semicordata;Persea odoratissima;Rhododendron grande;Albizia lebbeck;Podocarpus neriifolius;elevational gradient;Cinnamomum bejolghota;Rhus chinensis;Aquilaria malaccensis;Litsea salicifolia;Pinus merkusii;Terminalia chebula;Musa sp.
DOI:
doi:10.5061/dryad.1tr7p0k
摘要:
actions. Elevational gradients are particularly useful because they often encompass a large climatic range within a small geographical extent. Here, we analyzed tree communities
Data from: Leafing intensity and the fruit size/number trade-off in woody angiosperms
负责人:
关键词:
Viburnum rafinesquianum Schultes;Juglans nigra L.;fruiting intensity;Aesculus hippocastanum L.;Tilia americana L.;Viburnum alnifolium Marshall;Staphylea trifolia L.;Prunus serotina Ehrh.;Acer saccharum Marshall;Fraxinus americana L.;Prunus virginiana L.;Sambucus canadensis L.;Zanthoxylum americanum Miller;Carpinus caroliniana Walter;Syringa vulgaris L.;Acer spicatum Lam;Cornus racemosa Lam.;Cornus rugosa Lam.;fecundity allocation;Alnus incana (L.) Moench;Acer pensylvanicum L.;Lonicera tatarica L.;reproductive economy;Sorbus americana Marshall;Corylus cornuta Marshall;Quercus alba L.;Betula alleghaniensis Britton;life history traits;Viburnum acerifolium L.;axillary meristems;Carya cordiformis (Wangenh.) K. Koch.;Betula papyrifera Marshall;Quercus macrocarpa Michx.;plant body size;Viburnum trilobum Marshall;Lonicera dioica;Catalpa speciosa Warder;Carya ovata (Miller) K. Koch.;Ribes cynosbati L.;Acer saccharinum L.;Ostrya virginiana (Miller) K. Koch;Ribes americanum (Miller.);Viburnum lentago L.;Robinia pseudoacacia L.;Fagus grandifolia Ehrh.;plant development;fruit size;Rhus typhina L.;Rhamnus cathartica L.;Acer negundo L.;leaf size;Ilex verticillata (L) A. Gray;Quercus rubra L.;Cornus sericea L.;Crataegus L.
DOI:
doi:10.5061/dryad.r80tb
摘要:
fruiting intensity; and species with higher fruiting intensity in turn have generally higher potential fecundity allocation (based on the typical

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