The spread of non-native species
Authors: Haubrock, P.J., Britton, J.R. et al.
Journal: Biological Reviews
eISSN: 1469-185X
ISSN: 1464-7931
DOI: 10.1002/brv.70121
Abstract:The global redistribution of species through human agency is one of the defining ecological signatures of the Anthropocene, with biological invasions reshaping biodiversity patterns, ecosystem processes and services, and species interactions globally. Here, we review the facets underlying the spread of non-native species – the key process by which introductions translate into large-scale invasions. In particular, we synthesise the ecological, evolutionary, and anthropogenic mechanisms underpinning the spread of non-native species, highlighting how dispersal, recruitment, and establishment interact across spatial and temporal scales. We examine the dynamics of non-native species spread in animals, plants, fungi, and pathogens, as well as across terrestrial, freshwater, and marine realms, with particular attention to the dynamics and processes modulating spread. We further evaluate essential phenomena of non-native species spread, such as the role of invasion fronts, Allee effects, propagule pressure, interactions with environmental change, landscape properties, and biotic interactions. We then outline how spread can be measured, modelled, and predicted using tools ranging from classical diffusion models to cutting-edge Artificial Intelligence and individual-based simulations. By offering a cross-system and cross-scale synthesis, this review advances the theoretical and practical understanding of non-native species spread for supporting policy and management.
Source: Scopus
The spread of non-native species.
Authors: Haubrock, P.J., Britton, J.R. et al.
Journal: Biol Rev Camb Philos Soc
eISSN: 1469-185X
DOI: 10.1002/brv.70121
Abstract:The global redistribution of species through human agency is one of the defining ecological signatures of the Anthropocene, with biological invasions reshaping biodiversity patterns, ecosystem processes and services, and species interactions globally. Here, we review the facets underlying the spread of non-native species - the key process by which introductions translate into large-scale invasions. In particular, we synthesise the ecological, evolutionary, and anthropogenic mechanisms underpinning the spread of non-native species, highlighting how dispersal, recruitment, and establishment interact across spatial and temporal scales. We examine the dynamics of non-native species spread in animals, plants, fungi, and pathogens, as well as across terrestrial, freshwater, and marine realms, with particular attention to the dynamics and processes modulating spread. We further evaluate essential phenomena of non-native species spread, such as the role of invasion fronts, Allee effects, propagule pressure, interactions with environmental change, landscape properties, and biotic interactions. We then outline how spread can be measured, modelled, and predicted using tools ranging from classical diffusion models to cutting-edge Artificial Intelligence and individual-based simulations. By offering a cross-system and cross-scale synthesis, this review advances the theoretical and practical understanding of non-native species spread for supporting policy and management.
Source: PubMed
The spread of non-native species
Authors: Haubrock, P.J., Britton, J.R. et al.
Journal: BIOLOGICAL REVIEWS
eISSN: 1469-185X
ISSN: 1464-7931
DOI: 10.1002/brv.70121
Source: Web of Science (Lite)
The spread of non-native species
Authors: Haubrock, P., Britton, J. and et al.
Journal: Biological Reviews
Publisher: Wiley-Blackwell
eISSN: 1469-185X
ISSN: 1464-7931
Abstract:The global redistribution of species through human agency is one of the defining ecological signatures of the Anthropocene, with biological invasions reshaping biodiversity patterns, ecosystem processes and services, and species interactions globally. Here, we review the facets underlying the spread of non-native species – the key process by which introductions translate into large-scale invasions. In particular, we synthesise the ecological, evolutionary, and anthropogenic mechanisms underpinning the spread of non-native species, highlighting how dispersal, recruitment, and establishment interact across spatial and temporal scales. We examine the dynamics of non-native species spread in animals, plants, fungi, and pathogens, as well as across terrestrial, freshwater, and marine realms, with particular attention to the dynamics and processes modulating spread. We further evaluate essential phenomena of non-native species spread, such as the role of invasion fronts, Allee effects, propagule pressure, interactions with environmental change, landscape properties, and biotic interactions. We then outline how spread can be measured, modelled, and predicted using tools ranging from classical diffusion models to cutting-edge Artificial Intelligence and individual-based simulations. By offering a cross-system and cross-scale synthesis, this review advances the theoretical and practical understanding of non-native species spread for supporting policy and management.
Source: Manual
The spread of non-native species.
Authors: Haubrock, P.J., Britton, J.R. et al.
Journal: Biological reviews of the Cambridge Philosophical Society
eISSN: 1469-185X
ISSN: 1464-7931
DOI: 10.1002/brv.70121
Abstract:The global redistribution of species through human agency is one of the defining ecological signatures of the Anthropocene, with biological invasions reshaping biodiversity patterns, ecosystem processes and services, and species interactions globally. Here, we review the facets underlying the spread of non-native species - the key process by which introductions translate into large-scale invasions. In particular, we synthesise the ecological, evolutionary, and anthropogenic mechanisms underpinning the spread of non-native species, highlighting how dispersal, recruitment, and establishment interact across spatial and temporal scales. We examine the dynamics of non-native species spread in animals, plants, fungi, and pathogens, as well as across terrestrial, freshwater, and marine realms, with particular attention to the dynamics and processes modulating spread. We further evaluate essential phenomena of non-native species spread, such as the role of invasion fronts, Allee effects, propagule pressure, interactions with environmental change, landscape properties, and biotic interactions. We then outline how spread can be measured, modelled, and predicted using tools ranging from classical diffusion models to cutting-edge Artificial Intelligence and individual-based simulations. By offering a cross-system and cross-scale synthesis, this review advances the theoretical and practical understanding of non-native species spread for supporting policy and management.
Source: Europe PubMed Central