Under the sea ice, the Arctic Ocean is one of the quietest places on Earth. But it can be very noisy when the ice is forming and breaking up or during storms and when glaciers are calving.
Beluga whales, the so-called canaries of the sea, call this environment their home. Belugas whistle to communicate and they make high frequency clicking sounds for echolocation, which they use to navigate the dark marine environment and to find food.
Sound is an integral part of a beluga’s life, so the quality of the underwater acoustic environment is very important for the health and survival of belugas. Yet climate change is transforming the Arctic marine environment, and it is likely becoming more noisy underwater.
The beluga soundscape
Every summer, between June and August, belugas in the Beaufort Sea move into the Mackenzie River estuary. This shallow water environment where belugas thrive has a complex underwater soundscape, or acoustic environment, made up of natural environmental sounds (wave crashing), biological sounds (belugas whistling and clicking) and human-caused sounds (ship noise).
A recent study led by our Arctic research team at Wildlife Conservation Society Canada, in collaboration with partners at Fisheries and Oceans Canada and Natural Resources Canada, showed that the soundscape of the Mackenzie River estuary is dominated by the sounds of wind and waves crashing in lower frequencies. In the high frequencies, beluga sounds are the main source of sound.
Climate change is causing sea ice to melt earlier in the spring and to freeze later in the autumn, which leads to a longer open-water season. This is allowing greater access for human activities, including noisy activities such as shipping.
Since the soundscape is so important to belugas, acoustic monitoring is key to establishing baselines and monitoring changes in the soundscape. Belugas communicate and echolocate within the soundscape, and they also listen to it to detect potential danger. Rising noise levels within the soundscape can inhibit belugas from using the soundscape.
The Tarium Niryutait Marine Protected Area (MPA) was designated in 2010 in the Mackenzie River estuary, in part to protect belugas and their habitat. Our study took place within this MPA, and serves as one of the tools for monitoring it. The acoustic data are used to determine when belugas are present within the MPA. We also assessed the main contributors to underwater sound levels, including underwater noise from ship traffic.
Belugas and ship noise
We found that belugas arrived in the estuary in late June, and would stay at least until mid-August, although peak beluga activity was in July. The beluga were mainly found in shallow waters that limit how far noise signals travel.