Metapopulation dynamics - patch occupancy, colonization and extinction - are the result of complex processes at both local (e.g. environmental conditions) and regional (e.g. spatial arrangement of habitat patches) scales. A large body of work has focused on habitat patch area and connectivity (area-isolation paradigm). However, these approaches often do not incorporate local environmental conditions or fully address how the spatial arrangement of habitat patches (and resulting connectivity) can influence metapopulation dynamics. Here, we utilize long-term data on a classic metapopulation system - the Glanville fritillary butterfly occupying a set of dry meadows and pastures in the angstrom land islands - to investigate the relative roles of...
The fundamental processes that influence metapopulation dynamics (extinction and recolonization) wil...
We use a graph-theoretical landscape modeling approach to investigate how to identify central patche...
Connectivity is a central concept in ecology, wildlife management, and conservation science. Underst...
Metapopulation dynamics - patch occupancy, colonization and extinction - are the result of complex p...
The spatial arrangement of habitat patches in a metapopulation and the dispersal connections among t...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
This work was supported in part by the UMass Organismal and Evolutionary Biology Graduate Research G...
Motivation: Certain early-succession habitats may emerge only at restricted locations following dist...
Ecologists are challenged to construct models of the biological consequences of habitat loss and fra...
Species distribution models are the tool of choice for large-scale population monitoring, environmen...
Metapopulation ecology is a field that is richer in theory than in empirical results. Many existing ...
peer reviewedPopulation viability analysis (PVA) and metapopulation theory are valuable tools to mod...
We compute the mean patch occupancy for a stochastic, spatially explicit patch-occupancy metapopulat...
The fundamental processes that influence metapopulation dynamics (extinction and recolonization) wil...
We use a graph-theoretical landscape modeling approach to investigate how to identify central patche...
Connectivity is a central concept in ecology, wildlife management, and conservation science. Underst...
Metapopulation dynamics - patch occupancy, colonization and extinction - are the result of complex p...
The spatial arrangement of habitat patches in a metapopulation and the dispersal connections among t...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
This work was supported in part by the UMass Organismal and Evolutionary Biology Graduate Research G...
Motivation: Certain early-succession habitats may emerge only at restricted locations following dist...
Ecologists are challenged to construct models of the biological consequences of habitat loss and fra...
Species distribution models are the tool of choice for large-scale population monitoring, environmen...
Metapopulation ecology is a field that is richer in theory than in empirical results. Many existing ...
peer reviewedPopulation viability analysis (PVA) and metapopulation theory are valuable tools to mod...
We compute the mean patch occupancy for a stochastic, spatially explicit patch-occupancy metapopulat...
The fundamental processes that influence metapopulation dynamics (extinction and recolonization) wil...
We use a graph-theoretical landscape modeling approach to investigate how to identify central patche...
Connectivity is a central concept in ecology, wildlife management, and conservation science. Underst...