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A concept first advanced in 1990, evidence of Low Impact Development (LID) can now be seen across North America. Like many infrastructure transformations, this growth in LID design has benefitted from regulatory changes; compliance versus cost remains an important motivator in any commercial venture. Through their efforts, LID pioneers have demonstrated a range of social and aesthetic benefits that have complimented the economics of this approach.

Municipalities across the country are leading the charge, following the lead from the 1985 Canada Water Act, the follow-up Canadian Clean Drinking Water Act, and the 2006 B.C. Clean Water Act, to name a few.

From these, creative visions like Vancouver’s Greenest City Action Plan have grown. Developers are being asked to manage storm water on site in new ways to help minimize the affect the old practices were having on our waterways and the sustainability of the attached environments. As well the local infrastructure is rarely designed to tackle the larger volumes encountered with modern developments. Guidelines have become mandates and design standards, trying to achieve an end result of better environmental management. With these regulations and guidelines in place, developers are mandated to follow by controlling stormwater as close as possible to its source. This helps mimic the natural movement of the water, improving the management of local and global ecosystems, with a goal of improved sustainability. Keeping water on site long enough to allow for evapotranspiration is crucial to protecting the receiving waterbodies. Results include a reduction in runoff volume, an increased time of concentration, reduced peak flow and peak flow duration as well as improved water quality.

Population growth leads to development; development creates hard surfaces where porous soil once existed. LID techniques address this in various ways. One example is the use of permeable surfaces, which allow stormwater to infiltrate into the ground. Two other examples – green roofs and infiltration bio swales/rain gardens – are also explored in this article.

Green Roofs

Green roofs mimic preconstruction tree canopies, grasslands, and natural vegetation. Slowing stormwater runoff at the roof surface allows for evaporation and transpiration, mimicking the hydrologic characteristics that more closely match open space than impervious surfaces. Toronto’s Green Roof Bylaw emphasizes the value in this approach and many other municipalities, such as Richmond and Vancouver, are following with similar bylaws and policies and changes to their integrated storm water management plans to include green roofs.

Direct runoff from traditional roofs is a key contributor to pollutant release. By contrast, vegetated roof covers can significantly reduce this source of pollution, while also benefitting cities by improving energy efficiency (reductions in heating and cooling costs), reducing urban heat island effects, generating oxygen and clean air as well as creating greenspace for passive recreation or aesthetic enjoyment. Nilex has worked with multiple landscape architects and designers, most frequently in Vancouver, to find solutions unique to each site and each property developer.

Infiltration Detention / Rain Garden Bio-Swales

The concept behind an on-site Rain Garden bio-swale is simple: allow stormwater to infiltrate back into the ground as it would have through natural processes. This recharges groundwater tables and aquifers, keeps base flows to adjacent waterways consistent, and provides filtration to remove metals and pollutants.

Large retailers (with large parking lots) have worked with Nilex to install these systems, and the trend looks to continue as they strive to do their part to manage stormwater.

Permeable Surfaces

Another practical technique is to effectively allow storm water to permeate into the ground where it falls on hard surfaces. Permeable surface reduces the volume collected by municipal stormwater infrastructure by allowing water to infiltrate back into the ground. This recharges ground water tables and aquifers, keeps base flows to adjacent waterways the same as preconstruction and provides natural filtration that removes metals and pollutants.

From an environmental perspective, the keys to successful permeable surfaces are to remove stormwater from the surface quickly, at its source, and let it infiltrate naturally. From a practical perspective, these surfaces must achieve this while still being capable of traffic loading without unnecessary ponding. Nilex has enjoyed success with recent installations of these permeable surfaces, using PaveDrain, in Ontario for the Lake Simcoe Region Conservation Authority parking lot and an extensive stretch of pavement along Townsend Avenue in Burlington. Both projects were well positioned within the Lake Simcoe Region Conservation Authority’s “Minimal Impact Design Standards”.

The most important outcome of low impact development techniques is the huge reduction of negative impact on our environment, effectively returning our storm water runoff and effective baseflow to positively manage not only the quantity of our natural water, but the quality as well. We are then able to effectively sustain our natural habitats attached to our aquifers, streams and creeks, rivers and lakes, and our oceans the way nature intended.

For more insights, visit www.nilex.com.

 

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