by Clarence Oxford
Los Angeles CA (SPX) May 31, 2024
NASA has released new data offering detailed air pollution observations down to neighborhood levels. This data comes from the TEMPO (Tropospheric Emissions: Monitoring of Pollution) instrument, launched last year to enhance air quality observation from space. The data is available at NASA's Atmospheric Science Data Center in Hampton, Virginia.
"TEMPO is one of NASA's Earth observing instruments making giant leaps to improve life on our home planet," said NASA Administrator Bill Nelson. "NASA and the Biden-Harris Administration are committed to addressing the climate crisis and making climate data more open and available to all. The air we breathe affects everyone, and this new data is revolutionizing the way we track air quality for the benefit of humanity."
TEMPO provides hourly daytime scans over North America, from the Atlantic Ocean to the Pacific Coast, and from Mexico City to central Canada. The instrument detects pollution by observing sunlight absorption and scattering by gases and particles in the troposphere, Earth's lowest atmospheric layer.
"All the pollutants that TEMPO is measuring cause health issues," said Hazem Mahmoud, science lead at NASA Langley's Atmospheric Science Data Center. "We have more than 500 early adopters using these datasets right away. We expect to see epidemiologists and health experts using this data in the near future. Researchers studying the respiratory system and the impact of these pollutants on people's health will find TEMPO's measurements invaluable."
An early adopter program has allowed policymakers and other air quality stakeholders to understand TEMPO's capabilities. Since October 2023, the TEMPO calibration and validation team has been evaluating and improving data products.
"Data gathered by TEMPO will play an important role in the scientific analysis of pollution," said Xiong Liu, senior physicist at the Smithsonian Astrophysical Observatory and principal investigator for the mission. "For example, we will be able to conduct studies of rush hour pollution, linkages of diseases and health issues to acute exposure of air pollution, how air pollution disproportionately impacts underserved communities, the potential for improved air quality alerts, the effects of lightning on ozone, and the movement of pollution from forest fires and volcanoes."
TEMPO measures pollutants such as nitrogen dioxide, formaldehyde, and ground-level ozone.
"Poor air quality exacerbates pre-existing health issues, which leads to more hospitalizations," said Jesse Bell, executive director at the University of Nebraska Medical Center's Water, Climate, and Health Program. Bell is an early adopter of TEMPO's data.
Bell noted that there is a lack of air quality data in rural areas since monitoring stations are often hundreds of miles apart. There is also an observable disparity in air quality from neighborhood to neighborhood.
"Low-income communities, on average, have poorer air quality than more affluent communities," said Bell. "For example, we've conducted studies and found that in Douglas County, which surrounds Omaha, the eastern side of the county has higher rates of pediatric asthma hospitalizations. When we identify what populations are going to the hospital at a higher rate than others, it's communities of color and people with indicators of poverty. Data gathered by TEMPO is going to be incredibly important because you can get better spatial and temporal resolution of air quality across places like Douglas County."
Tracing air pollution sources can be challenging as smoke from wildfires or pollutants from industry and traffic congestion drift with the wind. The TEMPO instrument will help identify pollutant origins.
"The National Park Service is using TEMPO data to gain new insight into emerging air quality issues at parks in southeast New Mexico," explained National Park Service chemist, Barkley Sive. "Oil and gas emissions from the Permian Basin have affected air quality at Carlsbad Caverns and other parks and their surrounding communities. While pollution control strategies have successfully decreased ozone levels across most of the United States, the data helps us understand degrading air quality in the region."
The TEMPO instrument was built by BAE Systems, Inc., Space and Mission Systems (formerly Ball Aerospace) and flies aboard the Intelsat 40e satellite built by Maxar Technologies. The TEMPO Ground System, including the Instrument Operations Center and the Science Data Processing Center, are operated by the Smithsonian Astrophysical Organization, part of the Center for Astrophysics | Harvard and Smithsonian.
Related Links
TEMPO at NASA
Earth Observation News - Suppiliers, Technology and Application