| scholarly article | Q13442814 |
| P356 | DOI | 10.1002/ECS2.1241 |
| P8608 | Fatcat ID | release_orldsvobxvewfb2pdrafcj3qju |
| P50 | author | Franck Courchamp | Q16636959 |
| Boris Leroy | Q56331193 | ||
| P2093 | author name string | C. Bellard | |
| W. Thuiller | |||
| J.-F. Rysman | |||
| P2860 | cites work | AUC: a misleading measure of the performance of predictive distribution models | Q56445156 |
| Economic drivers of biological invasions: A worldwide, bio-geographic analysis | Q56448698 | ||
| Quarantine arthropod invasions in Europe: the role of climate, hosts and propagule pressure | Q56459576 | ||
| The ‘dirty dozen’: socio-economic factors amplify the invasion potential of 12 high-risk aquatic invasive species in Great Britain and Ireland | Q56502187 | ||
| Human population density explains alien species richness in protected areas | Q56514090 | ||
| Projecting trends in plant invasions in Europe under different scenarios of future land-use change | Q56612581 | ||
| Historical Accumulation of Nonindigenous Forest Pests in the Continental United States | Q56765617 | ||
| Predicting potential distributions of invasive species: where to go from here? | Q56767892 | ||
| How well do we understand the impacts of alien species on ecosystem services? A pan-European, cross-taxa assessment | Q56768110 | ||
| The more you introduce the more you get: the role of colonization pressure and propagule pressure in invasion ecology | Q56770536 | ||
| Prediction and validation of the potential global distribution of a problematic alien invasive species - the American bullfrog | Q56777550 | ||
| Methods to account for spatial autocorrelation in the analysis of species distributional data: a review | Q56817176 | ||
| Residence time and potential range: crucial considerations in modelling plant invasions | Q56922965 | ||
| BIOMOD - a platform for ensemble forecasting of species distributions | Q57021233 | ||
| The importance of biotic interactions for modelling species distributions under climate change | Q57021322 | ||
| GLOBIO3: A Framework to Investigate Options for Reducing Global Terrestrial Biodiversity Loss | Q57041739 | ||
| A statistical explanation of MaxEnt for ecologists | Q57062660 | ||
| The evaluation strip: A new and robust method for plotting predicted responses from species distribution models | Q57062734 | ||
| Testing the performance of a dynamic global ecosystem model: Water balance, carbon balance, and vegetation structure | Q57189832 | ||
| Threshold criteria for conversion of probability of species presence to either–or presence–absence | Q60148151 | ||
| Forecasted climate and land use changes, and protected areas: the contrasting case of spiders | Q60342755 | ||
| Evaluation of consensus methods in predictive species distribution modelling | Q61465501 | ||
| Patterns of plant pest introductions in Europe and Africa | Q64216182 | ||
| A unified classification of alien species based on the magnitude of their environmental impacts | Q21090167 | ||
| Global Biodiversity: Indicators of Recent Declines | Q24289128 | ||
| Biological invasions: a field synopsis, systematic review, and database of the literature | Q24623385 | ||
| The importance of the human footprint in shaping the global distribution of terrestrial, freshwater and marine invaders | Q27308098 | ||
| Two-sided confidence intervals for the single proportion: comparison of seven methods | Q28271313 | ||
| Assessing the global threat of invasive species to marine biodiversity | Q28315414 | ||
| Trade, transport and trouble: managing invasive species pathways in an era of globalization | Q28342453 | ||
| Will climate change promote future invasions? | Q28660857 | ||
| The role of biotic interactions in shaping distributions and realised assemblages of species: implications for species distribution modelling | Q28709304 | ||
| Measuring the accuracy of diagnostic systems | Q29614441 | ||
| Fingerprints of global warming on wild animals and plants | Q29617917 | ||
| Very high resolution interpolated climate surfaces for global land areas | Q29642135 | ||
| Disentangling the role of environmental and human pressures on biological invasions across Europe | Q30495396 | ||
| Climate change, sea-level rise, and conservation: keeping island biodiversity afloat | Q30746565 | ||
| Realized niche shift during a global biological invasion | Q30834301 | ||
| Ensemble forecasting of species distributions | Q31063210 | ||
| Threats of invasive species for China caused by expanding international trade | Q31065546 | ||
| Biodiversity as a barrier to ecological invasion | Q31069131 | ||
| Impacts of biological invasions: what's what and the way forward | Q31083971 | ||
| Fast economic development accelerates biological invasions in China | Q33306694 | ||
| Ecology. Will threat of biological invasions unite the European Union? | Q33426250 | ||
| The worldwide airline network and the dispersal of exotic species: 2007-2010. | Q33717366 | ||
| Relative roles of climatic suitability and anthropogenic influence in determining the pattern of spread in a global invader | Q33776605 | ||
| Socioeconomic legacy yields an invasion debt | Q33776611 | ||
| Invasion success of vertebrates in Europe and North America | Q33821594 | ||
| Historic land use influences contemporary establishment of invasive plant species | Q34528099 | ||
| A spatial mismatch between invader impacts and research publications. | Q35755927 | ||
| Adapting island conservation to climate change. Response to Andréfouët et al. | Q46101854 | ||
| The risk of marine bioinvasion caused by global shipping. | Q46887907 | ||
| Niche-based modelling as a tool for predicting the risk of alien plant invasions at a global scale | Q47462141 | ||
| Alien species: Monster fern makes IUCN invader list. | Q51168944 | ||
| Human-related processes drive the richness of exotic birds in Europe. | Q51679207 | ||
| Climatic similarity and biological exchange in the worldwide airline transportation network. | Q51710666 | ||
| General hypotheses in invasion ecology | Q55328220 | ||
| Forecasting Biological Invasions with Increasing International Trade | Q55870291 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | ecosphere | Q3175157 |
| P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
| P304 | page(s) | e01241 | |
| P577 | publication date | 2016-03-01 | |
| P1433 | published in | Ecosphere | Q1282144 |
| P1476 | title | Major drivers of invasion risks throughout the world | |
| P478 | volume | 7 |
| Q56332335 | Accounting for sampling patterns reverses the relative importance of trade and climate for the global sharing of exotic plants |
| Q57004312 | Barriers to globally invasive species are weakening across the Antarctic |
| Q64079495 | Changes in habitat selection patterns of the gray partridge in relation to agricultural landscape dynamics over the past two decades |
| Q93000432 | Current and future climatic regions favourable for a globally introduced wild carnivore, the raccoon Procyon lotor |
| Q100727610 | Escape from natural enemies depends on the enemies, the invader, and competition |
| Q92460643 | Global distribution modelling, invasion risk assessment and niche dynamics of Leucanthemum vulgare (Ox-eye Daisy) under climate change |
| Q36109620 | Global threats from invasive alien species in the twenty-first century and national response capacities |
| Q56331192 | Present and future distribution of three aquatic plants taxa across the world: decrease in native and increase in invasive ranges |
| Q56332395 | Recreational freshwater fishing drives non-native aquatic species richness patterns at a continental scale |
| Q36240070 | The emergent role of small-bodied herbivores in pre-empting phase shifts on degraded coral reefs |
| Q44946794 | The intermediate distance hypothesis of biological invasions |
| Q92689751 | Variations in seasonal (not mean) temperatures drive rapid adaptations to novel environments at a continent scale |
| Q43366420 | eDNA for detection of five highly invasive molluscs. A case study in urban rivers from the Iberian Peninsula |
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