Conservation at the nexus of niches: Multidimensional niche modeling to improve management of Prairie Chub
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AbstractObjectiveA central challenge in applied ecology is understanding how organisms are spatially and temporally distributed and how management might be tailored to maintain or restore species distributions. The niche concept is central to understanding species distributions, but the diversity of niche definitions requires that multiple dimensions be considered. For example, the Grinnellian niche concept focuses on environmental conditions that allow species to persist, the Eltonian niche concept stresses the influence of biotic interactions, and the fundamental niche concept considers both abiotic and biotic environmental features to define spaces that organisms could occupy.MethodsWe combined abiotic (A), biotic (B), and movement (M) information (collectively, BAM model) to map the multidimensional niche of Prairie Chub Macrhybopsis australis, a regionally endemic freshwater fish currently under review for listing under the Endangered Species Act. We estimated A using remotely sensed environmental riverscape variables, B using the spatial distribution of a hybridization zone between Prairie Chub and Shoal Chub M. hyostoma, and M using data from a markrecapture study.ResultThe BAM model estimated the spatial extent of multiple niches, including the Grinnellian (A; extent=944km of river), Eltonian (B; 2974km), and fundamental niche (overlap of A+B; 645km) niches. When A, B, and M components were combined, the estimated extent of the Prairie Chub niche was 645km.ConclusionOur work shows that the realized, multidimensional niche of Prairie Chub includes medium to large rivers with high habitat connectivity in the uppermiddle Red River basin upstream of the distribution of Shoal Chub. The current Prairie Chub distribution could be maintained by preventing further habitat fragmentation and maintaining the environmental gradient separating Prairie Chub from Shoal Chub. Expansion of the species distribution may be possible through restoration of longitudinal fluvial connectivity.
