Assessing the potential of integrating distribution and structure of permanent open-water wetlandscapes in reclamation d

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ORIGINAL PAPER

Assessing the potential of integrating distribution and structure of permanent open-water wetlandscapes in reclamation design: a case study of Alberta, Canada Jennifer D. Ridge

. Derek T. Robinson

. Rebecca Rooney

Received: 7 May 2020 / Accepted: 21 November 2020 Ó The Author(s) 2020

Abstract Wetlands are multi-functional systems that provide a disproportionatenumber of ecosystem services given the spatial extent they occupy bothnationally and globally. The ecological functioning of these wetlands isdependent on the structure of the landscape, which poses unique challenges whenreclaiming wetlands in areas where resource extraction is occurring. Resource extraction mega-projects requirethat entire wetlandscapes be reclaimed and often involve timelines thatnecessitate the consideration of climate projections to create self-sustaining,naturally appearing wetlandscapes that meet policy objectives. To understandwetlandscape structure and guide reclamation planning and closure permittingevaluation, a random sample of 13,676 1-km2

Supplementary information The online version of this article (doi:https://doi.org/10.1007/s11273-020-09769-2) contains supplementary material, which is available to authorized users. J. D. Ridge D. T. Robinson (&) Department of Geography and Environmental Management, University of Waterloo, Waterloo, ON, Canada e-mail: [email protected] J. D. Ridge e-mail: [email protected] R. Rooney Department of Biology, University of Waterloo, Waterloo, ON, Canada e-mail: [email protected]

landscapes weresubselected to identify 1684 permanent open-water wetlandscapes. A parsimoniousset of landscape metrics were applied and compared across levels ofanthropogenic disturbance and across natural regions (i.e., Grassland, Parklandand Boreal). Results demonstrated that permanent open-water wetlands arerelatively rare (12.3% of our total random sample) and typically occupy lessthan 8% of wetlandscapes when present. The majority of wetlands in the study area are lesspermanent and more variable in nature than the permanent open waterwetlandscapes created by megaproject reclamation, which has the potential to alter thedistribution and size of open-water wetlands beyond their natural occurrence.Comparison across disturbance levels and natural regions yield statisticaldifferences among landscape structure. General wetland landscapes representinga combination of disturbance level and natural region can be created for eachmetric to guide reclamation design and closure planning approval. Keywords Wetlands Wetlandscapes Landscape metrics Reclamation Megaprojects Climate change Introduction Resource megaprojects (e.g., oil sands mining, Appalachian coalfields) present a unique reclamation challenge due to the massive spatial extents and timeframes of their operations (Bernhardt et al. 2012;

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Wetlands Ecol Manage

Rooney et al. 2015). Entire ecosystems, landforms, and hydrologic catchments must be recreated and integrated wit

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Assessing the potential of integrating distribution and structure of permanent open-water wetlandscapes in reclamation d

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