Identifying differences in roadless areas in Canada based on global, national, and regional road datasets

Poley, Lucy G.; Schuster, Richard; Smith, Wynet; Ray, Justina C.

doi:10.1111/csp2.12656

Cited by 16 publications

(18 citation statements)

References 35 publications

(69 reference statements)

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“…Eight of those layers were from the Canadian Human Footprint (CHF) [ 36 ] and included built environments, nighttime lights, croplands, pasturelands, dams and reservoirs, mining, oil and gas, and forestry areas. We used a recently developed national road layer for Canada [ 37 ] that includes resource-access roads, along with a national railway layer. 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.…”

Section: Methodsmentioning

confidence: 99%

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: Methodsmentioning

confidence: 99%

Predicting areas important for ecological connectivity throughout Canada

et al. 2023

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“…Circuit theory models require a movement cost surface as an input, which represents anthropogenic and natural landscape features by the degree to which they impede or facilitate movement of animals. The cost surface used by Pither et al ( 2021 ) was produced using the most up to date spatial data including the Canadian human footprint (Hirsh‐Pearson et al, 2022 ) and a recently developed national road layer (Poley et al, 2022 ). In their study, the authors modeled terrestrial connectivity (i.e., landscape connectivity relevant to terrestrial, non‐volant fauna), such that natural features like forests and wetlands represented a low cost to movement, while roads and cities as well as large water bodies and mountains represented a high cost to movement (for more details see Pither et al, 2021 ).…”

Section: Methodsmentioning

confidence: 99%

Integrating carbon stocks and landscape connectivity for nature‐based climate solutions

O'Brien

Gunn

Clark

et al. 2023

Ecology and Evolution

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Actions to protect against biodiversity loss and climate change will require a framework that addresses synergies between these interrelated issues. In this study, we present methods for identifying areas important for the implementation of nature‐based climate solutions and biodiversity conservation by intersecting high‐resolution spatial data for carbon storage and landscape connectivity. We explored the spatial congruence of carbon and connectivity in Ontario, Canada and examined effectiveness of current protected areas coverage. We found a weak positive relationship between carbon stocks and landscape connectivity; however, our maps revealed large hotspots, with high values of both indices, throughout the boreal forest and northern peatlands and smaller, isolated hotspots, in the settled landscapes of the south. Location of hotspots varied depending on whether we considered forest or soil carbon. Further, our results show that current protected and conserved areas in Ontario only cover 13% of landscapes with the highest values for both carbon storage and connectivity. Protection or restoration of areas that maximize the co‐benefits of carbon storage and connectivity would make significant contributions toward ambitious national targets to reduce greenhouse gas emissions and conserve biodiversity.

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“…Preliminary analyses may be based on readily available global and/ or preferably regional-level cumulative human pressure datasets (e.g., roads and infrastructure; Sanderson et al, 2002;Venter et al, 2016;Poley et al, 2022).…”

Section: Conducting Scoping Analysis To Identify Areas With Potential...mentioning

confidence: 99%

Guidelines for using A global standard for the identification of Key Biodiversity Areas: version 1.2

2022

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IUCN is a membership Union uniquely composed of both government and civil society organisations. It provides public, private and non-governmental organisations with the knowledge and tools that enable human progress, economic development and nature conservation to take place together. Created in 1948, IUCN is now the world's largest and most diverse environmental network, harnessing the knowledge, resources and reach of more than 1,400 Member organisations and some 15,000 experts. It is a leading provider of conservation data, assessments and analysis. Its broad membership enables IUCN to fill the role of incubator and trusted repository of best practices, tools and international standards.IUCN provides a neutral space in which diverse stakeholders including governments, NGOs, scientists, businesses, local communities, indigenous peoples organisations and others can work together to forge and implement solutions to environmental challenges and achieve sustainable development.Working with many partners and supporters, IUCN implements a large and diverse portfolio of conservation projects worldwide. Combining the latest science with the traditional knowledge of local communities, these projects work to reverse habitat loss, restore ecosystems and improve people's well-being.

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Identifying differences in roadless areas in Canada based on global, national, and regional road datasets

Cited by 16 publications

References 35 publications

Predicting areas important for ecological connectivity throughout Canada

Predicting areas important for ecological connectivity throughout Canada

Integrating carbon stocks and landscape connectivity for nature‐based climate solutions

Guidelines for using A global standard for the identification of Key Biodiversity Areas: version 1.2

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