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Seventies Rule for the Establishment of Non-Native Marine Species. Diversity 17: 18.
Biotic resistance to invasion is ubiquitous across ecosystems of the United States. Ecology Letters 23: 476.
From Alien Species to Alien Communities: Host- and Habitat-Associated Microbiomes in an Alien Amphibian. Microbial Ecology 86: 2373.
Invasion syndromes: hypotheses on relationships among invasive species attributes and characteristics of invaded sites. Journal of Arid Land 5: 275.
Quantifying the invasiveness of species. NeoBiota 21: 7.
Can arbuscular mycorrhizal fungi from non-invaded montane ecosystems facilitate the growth of alien trees?. Mycorrhiza 29: 39.
Native vegetation structure, landscape features and climate shape non‐native plant richness and cover in New Zealand native shrublands. Diversity and Distributions 29: 1009.
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Systematic review and meta-analysis of the Enemy Release Hypothesis as applied to aquatic plants. Aquatic Botany 198: 103866.
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The green thorns of Ulex europaeus play both defensive and photosynthetic roles: consequences for predictions of the enemy release hypothesis. Biological Invasions 24: 385.
On their way to the north: larval performance of Hemigrapsus sanguineus invasive on the European coast—a comparison with the native European population of Carcinus maenas. Biological Invasions 25: 3119.
Testing for allelopathy in invasive plants: it all depends on the substrate!. Biological Invasions 18: 2975.
Where’s wallaby? Using public records and media reports to describe the status of red‐necked wallabies in Britain. Ecology and Evolution 10: 12949.
Cleft, Crevice, or the Inner Thigh: ‘Another Place’ for the Establishment of the Invasive Barnacle Austrominius modestus (Darwin, 1854). PLoS ONE 7: e48863.
Multiple drivers of contrasting diversity–invasibility relationships at fine spatial grains. Ecology 100: .
Impact of Colonizer Copepods on Zooplankton Structure and Diversity in Contrasting Estuaries. Estuaries and Coasts 45: 2592.
Insights from community ecology into the role of enemy release in causing invasion success: the importance of native enemy effects. Biological Invasions 17: 1283.
Invasive non-native plants have a greater effect on neighbouring natives than other non-natives. Nature Plants 2: .
A global review on invasive traits of macrophytes and their link to invasion success. Acta Limnologica Brasiliensia 35: .
The value of sentinel plants for risk assessment and surveillance to support biosecurity. NeoBiota 48: 1.
Introduction history mediates naturalization and invasiveness of cultivated plants. Global Ecology and Biogeography 31: 1104.
Plant–frugivore interactions across the Caribbean islands: Modularity, invader complexes and the importance of generalist species. Diversity and Distributions 28: 2361.
The relevance of using various scoring schemes revealed by an impact assessment of feral mammals. NeoBiota 38: 35.
Conceptual Frameworks and Methods for Advancing Invasion Ecology. AMBIO 42: 527.
Changes in Soil Seed Bank and Vegetation at Abandoned Bait Sites in a Central European Hilly Area. The 1st International Electronic Conference on Biological Diversity, Ecology and Evolution : 15.
Foundations of Restoration Ecology. Chapter 9: 245.
Networks of Invasion: Empirical Evidence and Case Studies. : 99.
Biological Invasions in the South American Anthropocene. Chapter 4: 69.
YOUMARES 8 – Oceans Across Boundaries: Learning from each other. Chapter 8: 109.
Invasive Species in Forests and Rangelands of the United States. Chapter 5: 85.
Freshwater Biodiversity. : .
. : 87.
Current Trends in Wildlife Research. Chapter 8: 177.
Encyclopedia of Inland Waters. : 436.
Natural Enemies. : .
Biological Invasions in the South American Anthropocene. Chapter 10: 203.
Ecological Complexity. : .
Encyclopedia of Biodiversity. : 696.
Tropical Ecosystems: Structure, Functions and Challenges in the Face of Global Change. Chapter 5: 69.
Global Plant Invasions. Chapter 2: 29.
Small Carnivores. : 429.
Disease Ecology. Chapter 9: 213.
Plant Invasions in Protected Areas. Chapter 12: 241.
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