Wetlands and peatlands are a crucial part of the boreal forest’s ecosystem
These so-called “opportunistic wetlands” began developing on oil sands sites reclaimed and planted to become forests decades ago at Suncor Energy’s Base Mine and Syncrude’s Mildred Lake Mine north of Fort McMurray.
“Up to 18 per cent of the reclaimed area expected to become forests have seen wetlands spontaneously forming. We are investigating whether they are likely to persist and forecast whether they will be able to sustain themselves,” says Ciborowski, who has held the NSERC/COSIA Industrial Research Chair in Oilsands Wetlands Reclamation at the University of Calgary’s Department of Biological Sciences since 2019.
“We can make forecasts about what will develop over hundreds of years when you reclaim an area but it’s not in our hands. Nature makes those decisions.”
Wetlands and peatlands are a crucial part of the boreal forest’s ecosystem, serving as vital habitat to hundreds of species of wildlife, including waterfowl, songbirds, and mammals such as beaver and moose. They act like sponges, absorbing precipitation and run-off that prevents flooding, and providing water during dry periods to the surrounding upland forests. Peatlands also serve as sinks to store carbon.
Because oil sands companies are legally committed to reclaim their leases to a status equivalent to prior to disturbance, they benefit from wetlands on their reclaimed sites.
The two oldest mining operations — Suncor’s Base Mine and Syncrude’s Mildred Lake Mine — have constructed man-made wetlands on reclaimed sites, where the companies have conducted research.
This is why the presence of opportunistic wetlands, which have been forming on their own, have created a great deal of interest within the industry.
Ciborowski’s team is studying 120 wetlands in the region ranging from two to 40 years of age. Half are on reclaimed oil sands sites and the other half are not.
“These are all very young compared to mature peatlands that have taken hundreds of years to develop. We are monitoring water quantity, water quality, landscape disturbance, and the colonizing plants and animals to understand how conditions develop and to forecast wetlands’ succession,” he says.
Outside of the oil sands, opportunistic wetlands can form when water balances change after forest fires consume the trees, or when beaver activity causes ponds to start forming.
“These can be our frame of reference for comparison with the wetlands forming on reclaimed landscapes. The real challenge is being able to understand whether those wetlands will remain when the trees grow to maturity,” he says.
While it is hard to forecast the future for opportunistic wetlands, Ciborowski has seen how early studies have influenced the science of reclamation and practices within the industry.
“What’s exciting about our work is we’ve gathered experts in a number of different disciplines — hydrology, geosciences, plant ecology, aquatic ecology to name a few — to work together on reclamation science. My belief in research is that collaboration is crucial. One can’t expect to find the necessary breadth of expertise to do it in a single lab.”
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