Methods for selecting sites to be included in reserve networks generally neglect the spatial location of sites, often resulting in highly fragmented networks. This restricts the possibility of dispersal between sites, which for many species may be essential for long-term persistence. Here I describe iterative reserve selection algorithms which incorporate considerations of reserve connectivity and evaluate their performance using a data set for macroinvertebrates in ponds. Methods where spatial criteria were only invoked when ties between sites occurred did not perform significantly better than a simple greedy algorithm in terms of reserve connectivity. An algorithm based on a composite measure of species added and changes in reserve connec...
Conserving biodiversity in human-dominated landscapes requires protecting networks of ecological re...
This paper addresses the problem of selecting reserve sites cost-effectively, taking into account th...
Networks of no-take reserves are important for protecting coral reef biodiversity from climate chang...
Methods for selecting sites to be included in reserve networks generally neglect the spatial locatio...
Methods for selecting sites to be included in reserve networks generally neglect the spatial locatio...
Spatial considerations are important in conservation reserve design. A particularly important spatia...
Considering the spatial location of sites that are to be selected for inclusion in a protected reser...
Considering the spatial location of sites that are to be selected for inclusion in a protected reser...
Reserve selection methods are often based on information on species’ occurrence. This can be presenc...
Connectivity is widely thought to play a key role in the persistence of metapopulations. However, th...
Although larval dispersal is crucial for the persistence of most marine populations, dispersal conne...
In selecting sites for conservation purposes connectivity of habitat is important for allowing speci...
Previous studies suggest that a network of nature reserves with maximum efficiency (obtained by sele...
Conserving biodiversity in human-dominated landscapes requires protecting networks of ecological re...
This paper addresses the problem of selecting reserve sites cost-effectively, taking into account th...
Networks of no-take reserves are important for protecting coral reef biodiversity from climate chang...
Methods for selecting sites to be included in reserve networks generally neglect the spatial locatio...
Methods for selecting sites to be included in reserve networks generally neglect the spatial locatio...
Spatial considerations are important in conservation reserve design. A particularly important spatia...
Considering the spatial location of sites that are to be selected for inclusion in a protected reser...
Considering the spatial location of sites that are to be selected for inclusion in a protected reser...
Reserve selection methods are often based on information on species’ occurrence. This can be presenc...
Connectivity is widely thought to play a key role in the persistence of metapopulations. However, th...
Although larval dispersal is crucial for the persistence of most marine populations, dispersal conne...
In selecting sites for conservation purposes connectivity of habitat is important for allowing speci...
Previous studies suggest that a network of nature reserves with maximum efficiency (obtained by sele...
Conserving biodiversity in human-dominated landscapes requires protecting networks of ecological re...
This paper addresses the problem of selecting reserve sites cost-effectively, taking into account th...
Networks of no-take reserves are important for protecting coral reef biodiversity from climate chang...