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3349154 
Journal Article 
Connectivity, fragmentation, and extinction risk in dendritic metapopulations 
Fagan, WF 
2002 
Yes 
Ecology
ISSN: 0012-9658
EISSN: 1920-2005 
83 
12 
3243-3249 
WOS:000180318200001 
Neither linear nor two-dimensional frameworks may be the most appropriate for fish and other species constrained to disperse within river–creek systems. In particular, the hierarchical, dendritic structures of riverine networks are not well captured by existing spatial models. Here I use a simple geometric model and metapopulation modeling to make three points concerning the ecological consequences of dendritic landscapes. First, connectivity patterns of river–creek networks differ from linear landscapes, and these differences in connectivity can either enhance or reduce metapopulation persistence compared to linear systems, depending on the details of dispersal. Second, habitat fragmentation in dendritic landscapes has different (and arguably more severe) consequences on fragment size than in either linear or two-dimensional systems, resulting in both smaller fragments and higher variance in fragment size. Third, dendritic landscapes can induce striking mismatches between the geometry of dispersal and the geometry of disturbance, and as is the case for arid-lands fishes, such mismatches can be important for population persistence. 
colonization, connectivity vs. dispersal, influence on extinctions, creeks and rivers, dendritic landscapes, dispersal constraints, landscape imposed, fishes, habitat fragmentation, habitat geometry, hierarchical riverine networks, landscape ecology, stream networks, rivers, conservation biology, metapopulations, upper Gila River, Arizona, New Mexico