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Canada鈥檚 nitrogen footprint shows regional variation

New accounting of national nitrogen emissions shows impacts of provincial wastewater treatment, agriculture, and use of fossil fuels
Published: 21 September 2021

Reactive nitrogen emissions contribute to greenhouse gases, as well as air and water pollution. For the first time, researchers from 平特五不中 have calculated Canada鈥檚 nitrogen footprint (akin to a carbon footprint) 鈥 at both national and provincial levels. They looked at the three primary sectors that contribute nitrogen to the environment to calculate the annual average nitrogen footprint: food production and consumption, wastewater treatment, and fossil fuel use. There were some surprises when they analyzed their results.

鈥淧ast nitrogen footprint studies in other countries have typically emphasized the food system as the main source of nitrogen released to the environment,鈥 says Graham MacDonald, an Associate Professor in 平特五不中鈥檚 Geography Department and the senior author on the paper published recently in . 鈥淲hile food production and consumption are important sources of nitrogen in Canada, our research shows that most variation across provinces in a relative sense is related to fossil fuels. This came as a surprise to some of our colleagues.鈥

Regional variations in magnitudes and drivers of nitrogen footprints

The researchers used a novel top-down approach, which took national and provincial agricultural, energy and other nitrogen emissions data from 2018 to estimate total provincial nitrogen footprints and divided them by provincial populations. Typically, assessments of nitrogen footprints are estimated using a bottom-up approach based on information about personal consumption patterns (e.g. household use of electricity, distances driven or flown, beef consumption, etc.). Using this new hybrid approach, the researchers calculate that Canada鈥檚 total annual reactive nitrogen footprint is approximately 996 gigagrams (or 996 million kilograms) per year. This translates into an average nitrogen footprint of about 27 kilograms of nitrogen emitted per person per year in Canada. But this figure hides a lot of regional variation, both in terms of the magnitude and the drivers responsible for these emissions.

鈥淥ntario and Quebec contribute the most to the national nitrogen footprint simply because more than two-thirds of the Canadian population live in these provinces,鈥 says Sibeal McCourt, a PhD student in the Geography Department at 平特五不中 and first author on the study. 鈥淏ut Saskatchewan鈥檚 nitrogen footprint, on a per capita basis, is the largest in the country, almost double that of Ontario. This is because the province has a strong mining sector and relies on coal and natural gas for energy.鈥

Moving towards using nitrogen more efficiently

鈥淏efore we can reduce our overall national nitrogen footprint, it is essential to understand which sectors in each province are contributing the most to nitrogen pollution so that the problem can be addressed at a more local levels,鈥 adds McCourt. 鈥淭his research will help us better understand the where/who/how of actions to reduce nitrogen emissions, assign responsibility to different actors (including our own consumption patterns, like our personal diets), and ultimately use nitrogen more efficiently in Canada.鈥

Given the relative contribution of meat consumption and fossil-fuel related emissions to provincial nitrogen footprints, the researchers suggest that moving towards more plant-based diets, promoting the use of electric vehicles and continuing to shift towards renewable energy sources for electricity where possible are among the policy options that would be most relevant across much of the country. Steps can also be taken to make the food system as a whole less 鈥榣eaky鈥 in terms of nitrogen.

鈥淎 great deal of research attention is being given to improving nitrogen use efficiency in agriculture, which can go a long way toward mitigating the Canadian nitrogen footprint,鈥 says MacDonald. 鈥淲hat鈥檚 particularly insightful about a footprint approach is that it allows us to compare the potential of these different individual and collective efforts toward sustainability.鈥

Some details about variations in provincial nitrogen footprints

The researchers analyzed the three primary sectors that contribute to provincial nitrogen footprints: 1) food production and consumption, 2) wastewater treatment, 3) fossil fuels

Food production and consumption

  • In all provinces 35-40% of nitrogen footprints come from beef consumption.
  • In Ontario, New Brunswick and Quebec, beef consumption is the single largest overall driver of the provincial nitrogen footprint and the 2nd largest driver in all other provinces apart from Alberta and Saskatchewan.
  • Apart from Ontario and Quebec, in all other provinces less than 50% of the nitrogen footprint comes from food production.
  • Differences in types of crops grown and farm management techniques affect the portion of provincial nitrogen footprints related to farming.

Wastewater treatment

  • Wastewater treatment is the 3rd largest driver of national and most provincial footprints, since there are relatively low levels of nitrogen removal in wastewater treatments across the country.
  • Only approximately 30% of Canada鈥檚 population is connected to municipal wastewater systems that receive treatments that focus on removing nitrogen.
  • Coastal provinces (British Columbia, Nova Scotia, New Brunswick, Prince Edward Island, Newfoundland and Labrador) with relatively low population densities, and which discharge primarily to coastal waters, have generally lower effluent standards (and nitrogen removal) than interior provinces (Ontario, Manitoba, Saskatchewan and Alberta).
  • Alberta is the province with the largest proportion of its population covered by wastewater treatment, which also focuses explicitly on nitrogen removal.
  • In British Columbia only 10% of the population is covered by this kind of wastewater treatment and it is also the province with the largest wastewater nitrogen footprint.

Fossil fuels

  • Burning fossil fuels account for 40% of the average Canadian nitrogen footprint, but nitrogen footprints related to fossil fuels vary considerably by province.
  • Nitrogen emissions related to transport are the largest portion of the fossil fuel nitrogen footprint.
  • Heavy-duty diesel vehicles, typically associated with trucking, mining and other resource extraction activities, are a major contributor to transport emissions.
  • In Nova Scotia, Saskatchewan and Alberta relatively high proportions of the energy grids are powered by burning coal. The 3 provinces have a combined average energy nitrogen footprint of almost 7 kg of nitrogen per person.
  • In other provinces which rely on renewables and nuclear energy, the average nitrogen footprint related to energy is about 1.5 kg per person.

(The three northern territories were excluded from the study due to limited data.)

About the study

鈥淧rovincial nitrogen footprints highlight variability in drivers of reactive nitrogen emissions in Canada鈥, by Sibeal McCourt and Graham MacDonald, .

DOI:

The research was funded by the Trottier Institute for Science and Public Policy (TISPP) at 平特五不中 and the Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery Grants program.


About 平特五不中

Founded in Montreal, Quebec, in 1821, 平特五不中 is Canada鈥檚 top ranked medical doctoral university. 平特五不中 is consistently ranked as one of the top universities, both nationally and internationally. It 鈥痠s a world-renowned鈥痠nstitution of higher learning with research activities spanning three campuses, 11 faculties, 13 professional schools, 300 programs of study and over 40,000 students, including more than 10,200 graduate students. 平特五不中 attracts students from over 150 countries around the world, its 12,800 international students making up 31% of the student body. Over half of 平特五不中 students claim a first language other than English, including approximately 19% of our students who say French is their mother tongue.

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