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Data from: Assembly and ecological function of the root microbiome across angiosperm plant species
负责人:
Fitzpatrick, Connor
关键词:
host microbiome plant microbiome plant soil feedback root microbiome plant drought
DOI:
doi:10.5061/dryad.5p414
摘要:
bial taxa in the endosphere and rhizosphere potentially affecting competitive interactions among plant species. Drought also shifts the composition of root
Data from: Above and belowground responses of four tundra plant functional types to deep soil heating and surface soil fertilization
负责人:
关键词:
Carex bigelowii;Rhododendron tomentosum;climate warming;competition;Plant functional types;Eriophorum vaginatum;vegetation composition;Betula nana;active layer thickness;Arctic tundra;Calamagrostis holmii;accelerating thawing;Vaccinium vitis-idaea;root biomass;vertical root distribution;Holocene;Arctagrostis latifolia;nutrient availability
DOI:
doi:10.5061/dryad.vd129
摘要:
e competitive in rapidly changing environments. We conclude that root vertical distribution strategies are important for vegetation responses to climate-induced
Data from: Soil-mediated eco-evolutionary feedbacks in the invasive plant Alliaria petiolata
负责人:
关键词:
soil root feedback;Ecology;sinigrin;reciprocal feedbacks;eco-evo;Evolution;eco-evolutionary feedbacks;Alliaria petiolata
DOI:
doi:10.5061/dryad.dn433
摘要:
under interspecific, but disfavored under intraspecific, competition. We show that population stochastic growth rates (?S) and plant densities ar
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:
ng the recovery process. In particular, belowground competition for resources in soils impacted by former agricultural uses may play an especially important ro
Data from: Effects of increased N and P availability on biomass allocation and root carbohydrate reserves differ between N?fixing and non?N?fixing
负责人:
关键词:
nutrient deposition;tree seedlings;Tropical dry forest;Savanna
DOI:
doi:10.5061/dryad.09h8p8d
摘要:
?form competition, and disturbances such as fire. Enhanced nutrient availability resulting from anthropogenic nitrogen (N) and phosphorus (P) depositi
Data from: Vertical root distribution of individual species in a mountain grassland community: does it respond to neighbours?
负责人:
关键词:
DOI:
doi:10.5061/dryad.0v346
摘要:
and to the predominantly symmetric nature of belowground competition.
Data from: Process-based simulation of prairie growth
负责人:
Zilverberg, Cody
关键词:
APEX root:shoot ratio biomass simulation water stress interspecific competition
DOI:
doi:10.5061/dryad.h3fj0
摘要:
to water stress, competition for soil water, and regrowth of herbaceous perennials. Sensitivity analysis demonstrated that simulated biomass responded to change
Data from: C4 photosynthesis and the economic spectra of leaf and root traits independently influence growth rates in grasses
负责人:
关键词:
Plant development and life-history traits;Functional traits;ecological strategy;leaf economic spectrum;root economic spectrum;Resource Acquisition;Resource conservation;Poaceae;relative growth rate;C4<\/sub> photosynthesis
DOI:
doi:10.5061/dryad.xwdbrv1b1
摘要:
economic traits act independently to further enhance growth. The fast growth of C4 grasses promotes a competitive advantage under hot, sunny conditions.
Data from: Biomass responses to elevated CO2, soil heterogeneity and diversity: an experimental assessment with grassland assemblages
负责人:
关键词:
Plantago lanceolata;soil heterogeneity;global change;microcosm;root foraging;resource heterogeneity;Lolium perenne;Holcus lanatus;Holocene
DOI:
doi:10.5061/dryad.3488j
摘要:
While it is well-established that the spatial distribution of soil nutrients (soil heterogeneity) influences the competitive ability and survival
Data from: Positive shrub-tree interactions facilitate woody encroachment in boreal peatlands
负责人:
关键词:
boreal forests;peatbog;Pinus sylvestris L.;ecosystem shift;tree seedling establishment;competition;decades;facilitation;critical transition;resilience;positive interactions;climate change
DOI:
doi:10.5061/dryad.jf2n3
摘要:
and manipulated both shrub canopy and root competition. We monitored seedling emergence, growth and survival for up to four growing seasons and assessed

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