University Of California Irvine Researchers Find Carbon Dioxide Pollution Dropped On California Freeways During Pandemic
The COVID-19 pandemic changed the world, including how people used their cars. In a place where freeways, traffic and smog are ubiquitous, Southern Californians drove far less during the pandemic, and that change in behavior resulted in a massive decrease in carbon dioxide greenhouse gas emissions, according to new research published by scientists from the University of California, Irvine.
The findings may help steer emissions reductions policymaking in Southern California cities.
“We observed CO2 reductions of about 60 percent in 2020 compared to 2019, showing that the changes in traffic drastically reduced fossil fuel emissions during the pandemic,” said Cindy Yañez, a Ph.D. student in the UCI Department of Earth System Science and the lead author of the AGU Advances study that details the findings. “But emissions rebounded to pre-pandemic levels by July 2021.”
Yañez and her team drove a mobile lab that belongs to the lab of Professor Francesca Hopkins of UC Riverside – a UCI alumna – around Southern California freeways during pandemic months to measure how CO2 concentrations were changing. They also collected plant samples with assistance from a network of community scientist helpers across the state.
Cindy Yañez, a Ph.D. student in UCI’s Department of Earth System Science, spent some of the COVID-19 pandemic in a mobile atmospheric science lab to measure carbon dioxide emissions on Southern California freeways. The results of her work are the subject of a paper published in the journal AGU Advances. UCI
Plants, Yañez explained, absorb CO2 during photosynthesis and incorporate it into their tissues, recording a snapshot of local levels of fossil fuel inputs in the process. “The plants are good for the very local signal,” Yañez said.
Having such region-specific emissions data helps paint high-resolution pictures of how well a city is reducing greenhouse gas emissions as the world struggles to mitigate the impacts of human driven climate change.
“What was really interesting was that, in 2021, the changes were very spatially variable,” said Yañez. “Even within the same cities we would see some plants that showed an increase in fossil emissions from 2020 to 2021, and in other places it stayed the same or even decreased. That’s probably related to how different people’s responses were to the reopening of the economy: Some continued to work from home, others went right back to work.”
Knowing exactly where emissions are high can help cities design policies to address their specific emissions situations.
“Say we have an incentive to sell a lot of electric cars to reduce emissions,” said Claudia Czimczik, UCI professor of Earth system science. “Then you expect a certain emission reduction from selling all these kinds of cars. But let’s say the people who do most of the driving are not the ones buying all these cars for maybe socioeconomic reasons. This is a technique that allows you to independently verify the impacts of these activities.”
Now that they’ve shown their method can work, Czimczik explained that she wants to start forming collaborations with regional policymakers so cities can use their carbon dioxide measurement methods to inform their decision-making.
“I think we can be a part of that energy transition and decarbonization push, and this is a first step,” said Czimczik.