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SLU Research Finds Improved Wastewater Treatment Could Lead to Significant Reduction in Greenhouse Gas Emissions

Research published in Environmental Research Letters has shown that methane emissions from urban areas are underestimated by a factor of three to four and that untreated wastewater may be a contributing factor.

ST. LOUIS – Research published in Environmental Research Letters has shown that methane emissions from urban areas are underestimated by a factor of three to four and that untreated wastewater may be a contributing factor.

The study, “Investigating high methane emissions from urban areas detected by TROPOMI and their association with untreated wastewater,” was led by Benjamin de Foy, Ph.D., professor of Earth and Atmospheric Sciences at Saint Louis University, and published online on March 14.

Benjamin de Foy

Benjamin de Foy, Ph.D. Photo by Steve Dolan.

The researchers found that methane emissions from the discharge of untreated wastewater are a major contributor to global methane emissions and that improving wastewater treatment in urban areas could lead to a significant reduction in greenhouse gas emissions, helping cities on a quest for carbon neutrality.

“We estimate that reducing discharges of untreated wastewater could reduce global methane emissions by up to 5 to 10%,” said de Foy. “This could also yield significant ecological and human benefits.”

The two largest contributors to climate change are carbon dioxide and methane. In 2021, global methane concentrations increased at the highest rates on record and current estimates of methane emissions inventory cannot explain recent trends.

One method of evaluating methane emission is via satellite remote sensing, for example, with the TROPOspheric Monitoring Instrument (TROPOMI) on board the Sentinel 5 Precursor satellite. This has been measuring methane and other air pollutants all around the world since November 2017.

The research shows that methane emissions from urban areas may be underestimated by a factor of 3 to 4 in the Emissions Database for Global Atmospheric Research (EDGAR) greenhouse gas emission inventory. The study scaled the results to 385 urban areas worldwide with more than 2 million inhabitants each, suggesting that they could account for up to 22% of global methane emissions.

The emission estimates of the 61 urban areas do not correlate with the total or sectoral EDGAR emission inventory. They do however correlate with estimated rates of untreated wastewater, varying from 33 kg of methane per person per year for cities with zero untreated wastewater to 138 kg of methane per person per year for the cities with the most untreated wastewater.

The study looked at different scenarios for reducing emissions in the 61 urban areas, as well as for all areas with a population of more than 2 million. By reducing the emissions of the 33 cities with medium to high levels of untreated wastewater to the mean emissions of cities with zero to low untreated wastewater emissions, 2% of the worldwide emissions total could be cut. If all 61 cities reduced their emissions to the lowest rate, that would cut 6% of total worldwide methane emissions.

The researchers’ model points to untreated wastewater rather than other options, including natural gas leaks or older infrastructure, as a large share of overall methane emissions.

“Our estimates of methane emissions suggest that there is methane formation in the environment as a result of the release of untreated wastewater which is much larger than the estimates in current inventories,” said de Foy. “Some urban areas could reduce their emissions 50% or more by fully treating all their wastewater.”

The researchers say more work is needed to bridge the gap between inventories and measurements to create a more refined global emission inventory and identify more precisely the varying emissions from city to city. For example, cities in Europe and China emit much less methane than those in North America and Asia.

De Foy said that there can be large differences within countries, noting Milwaukee has a large methane enhancement but neighboring Minneapolis does not, which could be due to differences in how stormwater and sewage are handled.

One hundred fifty countries have committed to reducing their methane emissions by 30% by 2030 relative to 2020 as part of the Global Methane Pledge. Improved wastewater treatment could make a significant contribution to this goal.

Additional authors include James J. Schauer, Ph.D., the William C. Boyle Professor of Environmental Engineering and Director of the Wisconsin State Laboratory of Hygiene at the University of Wisconsin Madison; Alba Lorenete, Ph.D., research scientist, Netherlands Institute for Space Research (now at the Environmental Defense Fund); and Tobias Borsdorff, Ph.D., research scientist, Netherlands Institute for Space Research.  

This work was partially supported by two grants from the United States Department of State (SMLAQM19CA2361 and SLMAQM20CA2398). TROPOMI data processing was carried out on the Dutch national e-infrastructure with the support of the SURF Cooperative.

Saint Louis University

Founded in 1818, Saint Louis University is one of the nation’s oldest and most prestigious Catholic institutions. Rooted in Jesuit values and its pioneering history as the first university west of the Mississippi River, SLU offers more than 13,500 students a rigorous, transformative education of the whole person. At the core of the University’s diverse community of scholars is SLU’s service-focused mission, which challenges and prepares students to make the world a better, more just place.

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