scholarly article | Q13442814 |
P819 | ADS bibcode | 2011PLoSO...621725Z |
P356 | DOI | 10.1371/JOURNAL.PONE.0021725 |
P932 | PMC publication ID | 3126854 |
P698 | PubMed publication ID | 21738779 |
P5875 | ResearchGate publication ID | 51476518 |
P50 | author | Katriona Shea | Q27063032 |
Eelke Jongejans | Q41047563 | ||
P2093 | author name string | Rui Zhang | |
P2860 | cites work | The velocity of climate change | Q22122204 |
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Elevated CO2 increases productivity and invasive species success in an arid ecosystem | Q28143969 | ||
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Climate change threats to plant diversity in Europe | Q30990744 | ||
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Modelling species' range shifts in a changing climate: the impacts of biotic interactions, dispersal distance and the rate of climate change | Q31074181 | ||
Frequent long-distance plant colonization in the changing Arctic | Q31115818 | ||
Five potential consequences of climate change for invasive species. | Q31160353 | ||
Favorable climate change response explains non-native species' success in Thoreau's woods | Q33529106 | ||
Demographic compensation and tipping points in climate-induced range shifts | Q33723896 | ||
Spread of North American wind-dispersed trees in future environments | Q33798489 | ||
Something in the way you move: dispersal pathways affect invasion success | Q37380188 | ||
Evaluation of the growth response of six invasive species to past, present and future atmospheric carbon dioxide | Q40614321 | ||
Optimal management strategies to control local population growth or population spread may not be the same. | Q51178685 | ||
Dispersal patterns, dispersal mechanisms, and invasion wave speeds for invasive thistles. | Q51184968 | ||
Increases in air temperature can promote wind-driven dispersal and spread of plants. | Q51658594 | ||
Mechanistic analytical models for long-distance seed dispersal by wind. | Q51962227 | ||
Comparison of the effect of elevated CO2 on an invasive species (Centaurea solstitialis) in monoculture and community settings | Q55869602 | ||
CO2ENRICHMENT REDUCES THE ENERGETIC COST OF BIOMASS CONSTRUCTION IN AN INVASIVE DESERT GRASS | Q55870807 | ||
Dispersal and demography contributions to population spread ofCarduus nutansin its native and invaded ranges | Q56774210 | ||
Running to stand still: adaptation and the response of plants to rapid climate change | Q56865801 | ||
MigClim: Predicting plant distribution and dispersal in a changing climate | Q57014118 | ||
Shipment and storage effects on the terminal velocity of seeds | Q57028302 | ||
The state of plant population modelling in light of environmental change | Q57063684 | ||
Past and future changes in climate and hydrological indicators in the US Northeast | Q58073957 | ||
Adapt or disperse: understanding species persistence in a changing world | Q59599571 | ||
Non-random seed abscission, long-distance wind dispersal and plant migration rates | Q59699850 | ||
Dispersal Patterns, Dispersal Mechanisms, and Invasion Wave Speeds for Invasive Thistles | Q60521946 | ||
Consequences of low mobility in spatially and temporally heterogeneous ecosystems | Q112799015 | ||
Plant reproduction under elevated CO2 conditions: a meta‐analysis of reports on 79 crop and wild species | Q125765346 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
P304 | page(s) | e21725 | |
P577 | publication date | 2011-06-29 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | Warming increases the spread of an invasive thistle | |
P478 | volume | 6 |
Q56434592 | A unifying gravity framework for dispersal |
Q114143752 | Assessing wind and mammals as seed dispersal vectors in an invasive legume |
Q57049308 | Climate Dynamics, Invader Fitness, and Ecosystem Resistance in an Invasion-Factor Framework |
Q56434632 | Covariation in abscission force and terminal velocity of windborne sibling seeds alters long-distance dispersal projections |
Q60254919 | Dispersal and species’ responses to climate change |
Q112768034 | Drivers of Ecological and Evolutionary Disruptions in the Seed Dispersal Process: Research Trends and Biases |
Q30647358 | Eco-evolutionary responses of Bromus tectorum to climate change: implications for biological invasions |
Q118138122 | Effects of Warming, Phosphorous Deposition, and Both Treatments on the Growth and Physiology of Invasive Solidago canadensis and Native Artemisia argyi |
Q30602393 | Evidence of current impact of climate change on life: a walk from genes to the biosphere |
Q38368491 | Genetics of dispersal. |
Q111163088 | In search of Aliens: Factors influencing the distribution of Chromolaena odorata L. and Mikania micrantha Kunth in the Terai grasslands of Manas National Park, India |
Q28533463 | Increasing seriousness of plant invasions in croplands of eastern china in relation to changing farming practices: a case study |
Q30571688 | Influence of microsite disturbance on the establishment of two congeneric invasive thistles |
Q34190120 | Maternal warming affects early life stages of an invasive thistle |
Q58072387 | Modelling spread of British wind-dispersed plants under future wind speeds in a changing climate |
Q112302139 | Pest management in future climates: Warming reduces physical weed management effectiveness |
Q64970190 | Rapid changes in seed dispersal traits may modify plant responses to global change. |
Q56573841 | Seed dispersal in changing landscapes |
Q56395888 | Seed release in a changing climate: initiation of movement increases spread of an invasive species under simulated climate warming |
Q111432625 | Shift in Plant Species Composition Reveals Environmental Changes During the Last Decades: A Long-Term Study in Beech (Fagus sylvatica) Forests in Bavaria, Germany |
Q91714700 | Size-by-environment interactions: a neglected dimension of species' responses to environmental variation |
Q90446323 | The total dispersal kernel: a review and future directions |
Q59208526 | Tracking Contaminant Transport From Biovectors |
Q92282026 | Warming Increases Pollen Lipid Concentration in an Invasive Thistle, with Minor Effects on the Associated Floral-Visitor Community |
Q56544456 | Warming leads to divergent responses but similarly improved performance of two invasive thistles |