Towns and Trails Drive Carnivore Connectivity using a Step Selection Approach

Whittington, Jesse; Baron, Ralf; Hebblewhite, Mark; At, Ford; Paczkowski, John

doi:10.1101/2021.02.24.432739

Cited by 3 publications

(3 citation statements)

References 71 publications

(149 reference statements)

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“…For the buffer area outside of Canada, we used six layers from the Global Human Footprint [38] (GHF): built environments, nighttime lights, croplands, pasturelands, railways, and roads. In addition to human modified land cover features, we included natural features considered to affect the movement of terrestrial, non-volant fauna, namely elevation and slope, glaciers, permanent sea ice, as well as large lakes and rivers [6,[39][40][41][42] for within both Canada and the buffer areas in the United States of America (hereafter, U.S.). Vector layers (e.g., roads, railways, rivers) were rasterized and all input layers were resampled to a resolution of 300 x 300 m, where necessary, to match the resolution of layers from the CHF.…”

Section: Movement Cost Surfacementioning

confidence: 99%

“…High movement costs were also assigned to natural features known to inhibit the movement of terrestrial, non-volant fauna based on data from published studies and consultations with experts (S1 Table ). These included areas with high elevations (> 2300 m [40,41,45]), steep slopes (> 30 degrees [39,42,[45][46][47]), large lakes (> = 10 ha) and rivers with large flow (> 28 m 3 /sec [6,34,48]). Conversely, because some mammal species are known to travel across permanent sea ice among islands in the Canadian Arctic Archipelago, we assigned a medium-low cost to that layer [49].…”

Section: Movement Cost Surfacementioning

confidence: 99%

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Predicting areas important for ecological connectivity throughout Canada

et al. 2023

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Governments around the world have acknowledged that urgent action is needed to conserve and restore ecological connectivity to help reverse the decline of biodiversity. In this study we tested the hypothesis that functional connectivity for multiple species can be estimated across Canada using a single, upstream connectivity model. We developed a movement cost layer with cost values assigned using expert opinion to anthropogenic land cover features and natural features based on their known and assumed effects on the movement of terrestrial, non-volant fauna. We used Circuitscape to conduct an omnidirectional connectivity analysis for terrestrial landscapes, in which the potential contribution of all landscape elements to connectivity were considered and where source and destination nodes were independent of land tenure. Our resulting map of mean current density provided a seamless estimate of movement probability at a 300 m resolution across Canada. We tested predictions in our map using a variety of independently collected wildlife data. We found that GPS data for individual caribou, wolves, moose, and elk that traveled longer distances in western Canada were all significantly correlated with areas of high current densities. The frequency of moose roadkill in New Brunswick was also positively associated with current density, but our map was not able to predict areas of high road mortality for herpetofauna in southern Ontario. The results demonstrate that an upstream modelling approach can be used to characterize functional connectivity for multiple species across a large study area. Our national connectivity map can help governments in Canada prioritize land management decisions to conserve and restore connectivity at both national and regional scales.

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Section: Movement Cost Surfacementioning

confidence: 99%

Section: Movement Cost Surfacementioning

confidence: 99%

Predicting areas important for ecological connectivity throughout Canada

et al. 2023

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“…We used a recently developed national road layer 43 that included resource-access roads, along with a national railway layer. In addition to human modified land cover features, we included natural features considered to inhibit the movement of animals, namely elevation and slope, glaciers, lakes, and rivers 10,[44][45][46][47] . We also included a layer for permanent sea ice because it is known to facilitate connectivity among islands in the Canadian Arctic archipelago for some mammal species 48 .…”

Section: Movement Cost Surfacementioning

confidence: 99%

Areas Important for Ecological Connectivity Throughout Canada

Pither

O'Brien

Brennan

et al. 2021

Preprint

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Governments around the world have acknowledged the importance of conserving ecological connectivity to help reverse the decline of biodiversity. In this study we employed recent methodological developments in circuit theory to conduct the first pan-Canadian analysis of multi-species connectivity for all terrestrial regions of the country, at a spatial grain sufficient to support local land-management decisions. We developed a movement cost surface with a limited number of thematic categories using the most recently updated land cover data available for the country. We divided the country into 17 tiles and used a wall-to-wall, omnidirectional mode of Circuitscape on each tile in order to assess ecological connectivity throughout entire landscapes as opposed to strictly among protected areas. The resulting raw current density map of Canada revealed heterogenous patterns of current density across the country, strongly influenced by geography, natural barriers, and human development. We included a validation analysis of the output current density map with independent wildlife data from across the country and found that mammal and herpetofauna locations were predicted by areas of high current density. We believe our current density map can be used to identify areas important for connectivity throughout Canada and thereby contribute to efforts to conserve biodiversity.

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Supplementing Environmental Assessments with Cumulative Effects Scenario Modeling for Grizzly Bear Connectivity in the Bow Valley, Alberta, Canada

Carlson¹,

Young²,

Linnard³

et al. 2022

Environmental Management

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Persistence of sensitive wildlife in populated regions requires conservation strategies that address gradual expansion of development footprint and human activity. The project-based environmental assessment regime for municipal development is poorly suited to provide necessary strategic perspective, given its focus on local and short-term impacts. We used the ALCES cumulative effects model to strategically assess impacts to grizzly bears (Ursus arctos) in the Bow Valley of Alberta, Canada. Landscape simulation mapped expansion of past and potential future development footprint in the region over multiple decades. Consequences to movement connectivity for grizzly bears were estimated by applying a least cost path analysis to the landscape simulation. An index of recreational activity was derived from fitness tracking data and integrated with the landscape simulation to model change in recreational activity through time. Maps of grizzly bear connectivity and recreational activity were combined to calculate human-bear conflict risk. The analysis suggests that connectivity has been altered through displacement to upslope areas by settlement expansion, such that surrounding natural areas have become important for grizzly bear connectivity. These areas are also popular for outdoor recreation, resulting in elevated human-bear conflict risk which can be expected to increase if development and human activity continue to expand in high connectivity areas. Conservation of wildlife in populated regions will be supported by broadening the scope of environmental assessment to address cumulative effects of development footprint and human activity over large spatial and temporal scales.

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Towns and Trails Drive Carnivore Connectivity using a Step Selection Approach

Cited by 3 publications

References 71 publications

Predicting areas important for ecological connectivity throughout Canada

Predicting areas important for ecological connectivity throughout Canada

Areas Important for Ecological Connectivity Throughout Canada

Supplementing Environmental Assessments with Cumulative Effects Scenario Modeling for Grizzly Bear Connectivity in the Bow Valley, Alberta, Canada

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