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    Author(s): Denys Yemshanov; Robert G. HaightFrank H. Koch; Marc-André Parisien; Tom Swystun; Quinn Barber; A. Cole Burton; Salimur Choudhury; Ning Liu
    Date: 2019
    Source: Biological Conservation
    Publication Series: Scientific Journal (JRNL)
    Station: Northern Research Station
    PDF: Download Publication  (4.0 MB)


    Anthropogenic disturbances fragmenting wildlife habitat greatly contribute to extinction risk for many species. In western Canada, four decades of oil and gas exploration have created a network of seismic lines, which are linear disturbances where seismic equipment operates. Seismic lines cause habitat fragmentation and increase predator access to intact forest, leading to declines of some wildlife populations, particularly the threatened woodland caribou, Rangifer tarandus caribou. Restoration of forests within seismic lines is an important activity to reduce habitat fragmentation and recovery caribou. We present an optimization model with the objective of guiding landscape restoration strategies that maximize the area of connected habitat for a caribou population in a fragmented landscape. We use our model to find optimal strategies for seismic line restoration in the Cold Lake Area of Alberta, Canada, a 6726-km2 expanse of boreal forest that represents prime caribou habitat. We formulate mixed integer programming models that depict the landscape as a network of interconnected habitat patches. We develop and compare formulations that emphasize the population's local or long-distance access to habitat. Optimal restoration involves a mix of two strategies: the first establishes short-distance connections between forest patches with large areas of intact habitat and the second establishes corridors between areas with known species locations and large amounts of suitable habitat. Our approach reveals the trade-offs between these strategies and finds the optimal restoration solutions under a limited budget. The approach is generalizable and applicable to other regions and species sensitive to changes in landscape-level habitat connectivity.

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    Yemshanov, Denys; Haight, Robert G.; Koch, Frank H.; Parisien, Marc-André; Swystun, Tom; Barber, Quinn; Burton, A. Cole; Choudhury, Salimur; Liu, Ning. 2019. Prioritizing restoration of fragmented landscapes for wildlife conservation: A graph-theoretic approach. Biological Conservation. 232: 173-186.


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    Network flow model, Mixed integer programming, Steiner network, Woodland caribou, Landscape connectivity, Seismic lines, Landscape restoration

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