We show that while comprehensive reserve network design is best when the entire network can be implemented immediately, when conservation investments must be staged over years, such solutions actually may be sub-optimal in the context of biodiversity loss and uncertainty
Climate change causes range shifts of species and habitats, thus making existing reserve networks le...
Complementarity-based algorithms for the selection of reserve networks emphasize the need to represe...
The systematic conservation planning literature invariably assumes that the biodiversity features be...
The rapid global loss of biodiversity has led to a proliferation of systematic conservation planning...
Consider the problem of protecting endangered species by selecting patches of land to be used for c...
Planning land-use for biodiversity conservation frequently involves computer-assisted reserve select...
We focus on a particular class of reserve design problem where the goal is to achieve some minimum r...
The available resources for biodiversity conservation are so chronically limited that conservation a...
The fundamental goal of conservation planning is biodiversity persistence, yet most reserve selectio...
Limited funds mean that conservation organisations must prioritise between regions in order to prese...
Conservation actions frequently need to be scheduled because both funding and implementation capacit...
Conservation actions frequently need to be scheduled because both funding and implementation capacit...
Climate change and urban growth impact habitats, species, and ecosystem services. To buffer against ...
Large-scale catastrophic events, although rare, lie generally beyond the control of local management...
Reserve design is concerned with optimal selection of sites for new conservation areas. Spatial rese...
Climate change causes range shifts of species and habitats, thus making existing reserve networks le...
Complementarity-based algorithms for the selection of reserve networks emphasize the need to represe...
The systematic conservation planning literature invariably assumes that the biodiversity features be...
The rapid global loss of biodiversity has led to a proliferation of systematic conservation planning...
Consider the problem of protecting endangered species by selecting patches of land to be used for c...
Planning land-use for biodiversity conservation frequently involves computer-assisted reserve select...
We focus on a particular class of reserve design problem where the goal is to achieve some minimum r...
The available resources for biodiversity conservation are so chronically limited that conservation a...
The fundamental goal of conservation planning is biodiversity persistence, yet most reserve selectio...
Limited funds mean that conservation organisations must prioritise between regions in order to prese...
Conservation actions frequently need to be scheduled because both funding and implementation capacit...
Conservation actions frequently need to be scheduled because both funding and implementation capacit...
Climate change and urban growth impact habitats, species, and ecosystem services. To buffer against ...
Large-scale catastrophic events, although rare, lie generally beyond the control of local management...
Reserve design is concerned with optimal selection of sites for new conservation areas. Spatial rese...
Climate change causes range shifts of species and habitats, thus making existing reserve networks le...
Complementarity-based algorithms for the selection of reserve networks emphasize the need to represe...
The systematic conservation planning literature invariably assumes that the biodiversity features be...
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