Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
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Emerging New Crop Pests: Ecological Modelling and Analysis of the South American Potato Psyllid Russelliana solanicola (Hemiptera: Psylloidea) and Its Wild RelativesModeling Hawaiian ecosystem degradation due to invasive plants under current and future climates.Lantana camara L. (Verbenaceae) invasion along streams in a heterogeneous landscape.Propagule pressure and climate contribute to the displacement of Linepithema humile by Pachycondyla chinensis.Quantifying invasion resistance: the use of recruitment functions to control for propagule pressure.Native and Non-Native Supergeneralist Bee Species Have Different Effects on Plant-Bee NetworksClimate and Human Pressure Constraints Co-Explain Regional Plant Invasion at Different Spatial ScalesInvasive plant species in the West Indies: geographical, ecological, and floristic insights.A modeling framework for the establishment and spread of invasive species in heterogeneous environments.The native-exotic species richness relationship varies with spatial grain of measurement and environmental conditions.Predicting the spread of all invasive forest pests in the United States.Quantifying levels of biological invasion: towards the objective classification of invaded and invasible ecosystems.The effects of landscape history and time-lags on plant invasion in Mediterranean coastal habitatsDisentangling the four demographic dimensions of species invasivenessContrasting historical and current land-use correlation with diverse components of current alien plant invasions in Mediterranean habitatsTesting alien plant distribution and habitat invasibility in mountain ecosystems: growth form mattersDo Landscape Structure and Socio-Economic Variables Explain the Solidago Invasion?Prioritizing species, pathways, and sites to achieve conservation targets for biological invasionIdentifying hotspots of alien plant naturalisation in Australia: approaches and predictionsShaping up model transferability and generality of species distribution modeling for predicting invasions: implications from a study on Bythotrephes longimanusPlant invasions are context-dependent: multiscale effects of climate, human activity and habitatPredicting the invadedness of protected areasInvasion syndromes: hypotheses on relationships among invasive species attributes and characteristics of invaded sitesThe importance of roads, nutrients, and climate for invasive plant establishment in riparian areas in the northwestern United StatesQuantifying the landscape influence on plant invasions in Mediterranean coastal habitatsInvasion hotspots for non-native plants in Australia under current and future climatesConservation biogeography: what's hot and what's not?What drives Eucalyptus globulus natural establishment outside plantations? The relative importance of climate, plantation and site characteristics
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Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
description
article
@en
im Juni 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2011
@uk
ലേഖനം
@ml
name
Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
@en
Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
@nl
type
label
Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
@en
Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
@nl
prefLabel
Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
@en
Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
@nl
P2093
P2860
P1476
Hotspots of plant invasion predicted by propagule pressure and ecosystem characteristics
@en
P2093
Brendan A. Wintle
Matt D. White
Peter A. Vesk
P2860
P304
P356
10.1111/J.1472-4642.2011.00794.X
P577
2011-06-20T00:00:00Z