Abstract
Environmental changes are impacting northern environments and human communities. Cumulative impact assessments are vital to understanding the combined effects of regional industrial developments and natural disturbances that affect humans and ecosystems. A gap in cumulative impacts literature includes methods to evaluate impacts in cultural landscapes. In this study, we utilized spatial overlay analysis to assess cumulative environmental impacts in the cultural landscape of northern Canada’s Gwich’in Settlement Region. In three analyses, we quantified and mapped: (1) Cultural feature density, (2) cumulative environmental disturbance, and (3) potential overlap between disturbances and cultural features. Our first analysis depicts the extent and pattern of cultural relationships with regional landscapes and illustrates the Gwich’in cultural landscape, with widespread harvesting trails, named places, traditional use areas, and archaeological sites found in highest densities near important waterways. Our second analysis suggests that spatial overlay can track multiple disturbances, illustrating diffuse, lower intensity cumulative environmental impacts. The final analysis shows that overlaying disturbance and cultural feature data provides a novel way to investigate cumulative impacts in a cultural landscape, indicating relatively low levels of potential overlap between Gwich’in cultural features and disturbances. These methods provide one way to investigate cumulative impacts, relevant for well- documented cultural landscapes.
Highlights
The combined effects of intensified natural and anthropogenic disturbances are altering the structure and function of global ecosystems [1,2], with the potential to significantly impact the land-based livelihoods of many Indigenous groups [3,4]
We explore the potential of spatial overlay analysis to quantify and map the potential overlap between environmental disturbances and cultural features in the Gwich’in Settlement Region (GSR)
The highest concentrations of these Planning Unit (PU) were located in the Mackenzie Mountain and southern Peel Plateau ecoregions, with smaller concentrations found throughout the Great Bear Lake Plain and Fort McPherson Plain ecoregions and around the edges of the GSR (Figure 4)
Summary
The combined effects of intensified natural and anthropogenic disturbances are altering the structure and function of global ecosystems [1,2], with the potential to significantly impact the land-based livelihoods of many Indigenous groups [3,4]. Alongside the impacts of climate change to permafrost, vegetation, and hydrological conditions [10,11,12], northern regions are experiencing development projects like oil and gas exploration and extraction, mining, and road construction [13,14,15]. Over the past few decades, considerable effort has been devoted to assessing the cumulative impacts of natural and anthropogenic disturbances through studies examining existing or potential impacts of a specific development project [18,19], or the broader scale impacts of multiple stressors on regional ecosystems [1,20]. Accounting for cumulative environmental impacts is important because they can severely impair water quality, terrain stability, and animal habitat, and interact in unexpected ways [21,22,23,24]
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