Urban areas are expanding globally, with far-reaching ecological consequences, including for wildlife-pathogen interactions. Wildlife show tremendous variation in their responses to urbanization; even within a single population, some individuals can specialize on urban or natural habitat types. This specialization could alter pathogen impacts on host populations via changes to wildlife movement and aggregation. Here, we build a mechanistic model to explore how habitat specialization in urban landscapes affects interactions between a mobile host population and a density-dependent specialist pathogen that confers no immunity. We model movement on a network of resource-stable urban sites and resource-fluctuating natural sites, where hosts are ...
Of course, urban biodiversity is more restricted than biodiversity present outside. However, species...
Abstract The increasing urban sprawl has contributed to the extensive fragmentation and reduction of...
Background: The spread of infectious diseases in wildlife populations is influenced by patterns of b...
can influence shifts in host geographical ranges and den-sities [9], interspecific interactions [5] ...
Urbanization is characterized by rapid intensification of agriculture, socioeconomic change, and eco...
Many wildlife species occupy landscapes that vary in the distribution, abundance, and quality of foo...
Landscape spatial heterogeneity interacts with ecological processes that influence pathogen emergenc...
Urban expansion has widespread impacts on wildlife species globally, including the transmission and ...
Urbanization rapidly changes landscape structure worldwide, thereby enlarging the human-wildlife int...
Urbanization rapidly changes landscape structure worldwide, thereby enlarging the human-wildlife int...
Urbanization rapidly changes landscape structure worldwide, thereby enlarging the human-wildlife int...
Urban expansion has widespread impacts on wildlife species globally, including the transmission and ...
As a major factor affecting connectivity in wildlife populations, landscape heterogeneity can have s...
Land use change-for example, the conversion of natural habitats to agricultural or urban ecosystems-...
Land use change-for example, the conversion of natural habitats to agricultural or urban ecosystems-...
Of course, urban biodiversity is more restricted than biodiversity present outside. However, species...
Abstract The increasing urban sprawl has contributed to the extensive fragmentation and reduction of...
Background: The spread of infectious diseases in wildlife populations is influenced by patterns of b...
can influence shifts in host geographical ranges and den-sities [9], interspecific interactions [5] ...
Urbanization is characterized by rapid intensification of agriculture, socioeconomic change, and eco...
Many wildlife species occupy landscapes that vary in the distribution, abundance, and quality of foo...
Landscape spatial heterogeneity interacts with ecological processes that influence pathogen emergenc...
Urban expansion has widespread impacts on wildlife species globally, including the transmission and ...
Urbanization rapidly changes landscape structure worldwide, thereby enlarging the human-wildlife int...
Urbanization rapidly changes landscape structure worldwide, thereby enlarging the human-wildlife int...
Urbanization rapidly changes landscape structure worldwide, thereby enlarging the human-wildlife int...
Urban expansion has widespread impacts on wildlife species globally, including the transmission and ...
As a major factor affecting connectivity in wildlife populations, landscape heterogeneity can have s...
Land use change-for example, the conversion of natural habitats to agricultural or urban ecosystems-...
Land use change-for example, the conversion of natural habitats to agricultural or urban ecosystems-...
Of course, urban biodiversity is more restricted than biodiversity present outside. However, species...
Abstract The increasing urban sprawl has contributed to the extensive fragmentation and reduction of...
Background: The spread of infectious diseases in wildlife populations is influenced by patterns of b...