Good morning, Madam Chair. Thank you for inviting me today.
I've been studying plastic and microplastic pollution for the past 20 years in Canada. During that time, I have worked as a federal scientist at Fisheries and Oceans Canada, at the Vancouver Aquarium, at Ocean Wise and now at Raincoast Conservation Foundation. I'm a toxicologist, which means I'm concerned about the impacts of chemicals and pollutants on the well-being of Canadians and Canadian wildlife. For four decades, I've studied a variety of pollutants in killer whales, beluga whales, harbour seals, salmon and shellfish, and in air, water and sediments. I've worked with first nations across Canada to look at the safety of indigenous foods. Most of what I've studied has been chemical in nature—PCBs, dioxins, PBDEs, pesticides, hydrocarbons and metals, including mercury among others.
Plastics have emerged as kind of a unique pollutant in my world, as a structural pollutant of obviously widespread scientific, public and policy concern. It's a pollutant where every piece or particle is nearly unique in shape, size and formulation. Think, as Canadians might, of a snowflake, where we have an infinite number of structures. The complexity in this pollutant class renders the technical characterization of plastics and microplastics challenging, but it also offers incredible opportunities for scientific research, advances, information exchange and innovation.
I'd like to summarize a few points that reflect my professional perspective on the topic of plastics and microplastics. First, as has been shared today, plastics and microplastics have been widely detected throughout Canada's three oceans as well as in freshwater and terrestrial environments. Plastics and microplastics kill fish and wildlife. They are toxic. They can cause entanglement of whales, turtles, seabirds and seals. They can suffocate. They can starve through artificial satiation. Plastics and microplastics are pervasive and persistent pollutants. They do not break down chemically during our lifetimes. They break up into smaller and smaller pieces such that every piece of large plastic is a reservoir of future microplastics. They can be found in the air we breathe—today, from this polyester carpet—the water we drink and the food we eat.
The plastic pollution problem is only getting worse each and every day. Global plastic production is doubling every 10 to 15 years. Shoreline or ocean cleanups are useful for data and education but are an ineffective band-aid for the growing plastic pollution problem. Recycling systems, despite the best intentions of municipalities and provincial agencies, fail to collect the vast majority of plastic waste in Canada. Additives, colours and chemical formulations, including endocrine-disrupting compounds, prevent a safe and circular plastics economy. The majority of plastics in our blue bins end up in either landfills or dead-end products, such as park benches, carpets or curtains. This means that recycling entails, generally speaking, a maximum of two uses for virgin plastic. Do you remember the stubby and the 44 uses for the beer bottle that we used to have in Canada?
The third major point this morning is that plastic pollution comes from all of us—we are all polluters—but the fishing and aquaculture sectors remain an important source of plastics in the ocean, representing probably half the floating plastics in the Pacific right now. Millions of fibres from clothes, much of this polyester, are shed with each laundry. This is something we've detected in seawater throughout the Arctic Ocean, even under the water at the North Pole. These are coming from textiles and laundry. Municipal waste-water treatment reduces but does not eliminate discharge into our waterways, with the microplastics retained in biosolids now being spread on our farmers' fields. They're not destroyed by waste-water treatment.
Single-use packaging from restaurant customers, recreational users and travellers can be found on our streets and shorelines. This is something that every child can tell us about and that we all do our best to avoid. Plastic packaging accounts for approximately 47% of plastic waste in Canada. This is ending up largely in landfills. That's 1.4 million tonnes per year. More than 86% of plastic waste ends up in landfills.
During my 25 years of working on plastic, these numbers have not changed substantially, barring a few low-hanging fruit items that my esteemed colleague Dr. Rochman spoke to.
I believe, as Dr. Rochman presented, that Canada is well positioned for further global leadership.
My time is almost up, so I will wrap up. My apologies, Madam Chair.
Canada's SUPPR have directly led to less plastic litter. Canada adding plastic manufactured items to the domestic substances list allows Ottawa to identify further products.
I think Canada can further strengthen its leadership by doing the following: enabling innovation and research in material sciences, textile design and waste-water treatment; facilitating a national knowledge exchange through working groups, conferences and consultations; strengthening research capacity through interlaboratory calibration and other exercises; encouraging home source controls through updated appliance standards and consumer education; strengthening the market value, as my esteemed colleague emphasized, and the food safety of recycled plastics through the labelling of plastic formulations for additives and dyes; continuing to build a national recycling framework, through the leadership of the CCME, to encourage municipalities and provinces to get on board in a national way that would improve marketability and the circular economy; and finally, considering the value of braided western science and the important contribution of indigenous knowledge.
I thank you for your time.