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91��ɫ researchers are at the centre of an ambitious partnership driven by advanced technology and community engagement to address environmental challenges at Swan Lake Park in Markham.

Several times a month, a small drone rises above the trees at Swan Lake, following a precise path over the water. Parkgoers who enjoy walking, jogging or birdwatching might assume it’s there to capture scenic footage. Instead, the drone is part of a 91��ɫ-led effort to understand – and help restore – the health of an urban lake under pressure.

Swan Lake, a former gravel pit transformed into a stormwater pond and community green space, faces ongoing water quality challenges. As rainwater flows into the site from surrounding roads and neighbourhoods, it carries excess nutrients, road salt and other pollutants. Over time, this can fuel frequent algae growth, cloud the water and reduce oxygen levels, stressing fish and wildlife, limiting recreation and, in some cases, raising public health concerns.

Since April 2025, 91��ɫ researchers, led by CIFAL 91��ɫ, have been turning concern about the lake’s health into measurable data and practical action through the Swan Lake Citizen Science Lab (SLCS Lab). The initiative brings together 91��ɫ research centres, including ADERSIM and the One WATER Institute, with local partners such as Friends of Swan Lake Park, a community‑based volunteer organization dedicated to protecting and improving the area’s ecological health.

“Communities often know when something is not right with a local ecosystem, but it’s hard to act without clear, comprehensive and consistent information, as well as meaningful community engagement” says Ali Asgary, director of CIFAL 91��ɫ and professor in the Faculty of Liberal Arts & Professional Studies. “The goal of the lab is to support those concerns with reliable data that can guide real decisions.”

"To assess a lake is to assess ourselves," adds Satinder Kaur Brar, director of the One WATER Institute and professor at the . "Its health card is a mirror of our environmental stewardship."

One way the lab is assessing the lake is through advanced technology, such as the use of multispectral and thermal drones operated by 91��ɫ research teams.

Equipped with special cameras that capture different types of light – including some invisible to the human eye – the drones can detect potential algae growth and subtle changes in water clarity as they scan the lake from above. Flying low and on demand, they provide detailed, up-to-date views of trends across the entire water body, offering a clearer picture than satellite images and a broader perspective than scattered and spot‑by‑spot water sampling.

The drones have already yielded valuable insights, recently shared in a 91��ɫ‑led, under-review study that monitored patterns from spring through fall 2025. By flying the drones roughly once a month and analyzing the findings over time, researchers were able to pinpoint where algae forms, how blooms shift across the seasons and how changes in water cloudiness are driven by biological growth rather than stirred‑up sediment.

The findings confirm what many residents and park managers have long suspected: the lake is rich in nutrients and prone to recurring algae growth. The drone data, however, also reveal something new.

Conditions vary significantly from one area to another, suggesting that targeted, location‑specific interventions may be more effective than broad, one‑size‑fits‑all treatments applied across the entire lake. Knowing where problems emerge helps guide chemical treatments, shoreline naturalization projects and future restoration efforts – and provides a better way to measure whether those interventions are working. "Interconnecting drone data with on-ground water quality can turn ecological signals into informed action that is vital for communities," says Brar.

“What the data made clear is that this isn’t a uniform problem,” adds Asgary. “When conditions vary so much from one part of the lake to another, it changes how you think about solutions. This kind of information allows us to be more precise, more proactive and more strategic in environmental management.”

In addition to monitoring Swan Lake, 91��ɫ‑led teams are working to make the data easier to interpret and use in planning. Researchers are developing AI tools to identify patterns in the drone imagery, anticipate conditions such as algae outbreaks and translate complex trends into clearer insights.

Other teams are using virtual reality and simulation to help users visualize the lake over time and explore how different interventions might affect conditions. Meanwhile, geographic information system (GIS) specialists are turning the results into interactive maps and dashboards that help the public and those involved in lake management understand what is happening across the site.

A core goal of the Swan Lake Citizen Science Lab is to encourage meaningful community engagement and shared stewardship.

“From the start, this was never about researchers working in isolation,” says Asgary. “The goal of the Swan Lake Citizen Science Lab is to create a shared process, where community knowledge and scientific tools come together.”

Local partners are not just observers; they are active partners in the research. Residents take part in field checks, help interpret findings, attend workshops and contribute to outreach efforts that share findings. Alongside them, 91��ɫ students gain hands‑on experience applying classroom learning to a real environmental challenge, working with researchers and resident members in a local setting.

For CIFAL 91��ɫ, which is affiliated with the United Nations Institute for Training and Research, the work at Swan Lake is a pilot that could inform other communities facing similar pressures on small urban lakes and wetlands.

“The impact here is very tangible,” says Asgary. “Through drones, data and collaboration, we’re building a deeper understanding of how this ecosystem functions and how it can be protected over time. That kind of shared knowledge is what allows stewardship to last.”

Find out more about the SLCS Lab, and see it in action, in the video below.

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