The two agencies are partnering on a satellite to understand the effects of different types of particle pollution on human health.
The two agencies are partnering on a satellite to understand the effects of different types of particle pollution on human health.
NASA and the Italian space agency Agenzia Spaziale Italiana (ASI) are partnering to build and launch the Multi-Angle Imager for Aerosols (MAIA) mission, an effort to investigate the health impacts of tiny airborne particles polluting some of the world’s most populous cities. MAIA marks the first NASA mission whose primary goal is to benefit societal health, as well as the first time epidemiologists and public health researchers have been directly involved in development of a satellite mission.
Set to launch before the end of 2024, the MAIA observatory will consist of a satellite known as PLATiNO-2 provided by ASI and a science instrument built at NASA’s Jet Propulsion Laboratory in Southern California. The mission will collect and analyze data from the observatory, sensors on the ground, and atmospheric models.
Those results will then be related to human birth, death, and hospitalization records to answer pressing questions about the health impacts of solid and liquid particles that contaminate the air we breathe. These particles, called aerosols, have been linked to respiratory diseases such as asthma and lung cancer, cardiovascular diseases such as heart attack and stroke, and adverse reproductive and birth outcomes, including premature birth and low infant birth weight.
“Breathing airborne pollution particles has been associated with many health problems, but the toxicity of different particle mixtures has been less well understood,” said David Diner, NASA’s principal investigator for MAIA. “Working together with colleagues in Italy and around the world, we expect that MAIA will help us understand how airborne particle pollution puts our health at risk and potentially provide insights that will inform the decisions of public health officials and other policymakers.”
The observatory’s science instrument contains a pointable spectropolarimetric camera, which captures digital images at multiple angles in the ultraviolet, visible, near-infrared, and shortwave infrared portions of the electromagnetic spectrum. This data will help the MAIA science team explore the size, geographic distribution, composition, and abundance of airborne particles and investigate how they relate to the patterns and prevalence of health problems stemming from poor air quality.
“MAIA marks an important moment in the long history of cooperation between NASA and ASI, and it symbolizes the best our two agencies can marshal in terms of expertise, knowledge, and Earth-observation technology,” said Francesco Longo, head of the Earth Observation and Operation Division at ASI. “The science produced by this joint mission will provide benefits to humanity for years to come.”
The agreement between NASA and ASI was finalized in January 2023 and continues decades of collaboration, including on the Cassini mission to Saturn, which launched in 1997. In 2022, ASI’s ArgoMoon tiny cube satellite, or CubeSat, was a secondary payload aboard the Artemis I mission’s Orion spacecraft. The agency’s Light Italian CubeSat for Imaging Asteroids, or LICIACube, played a crucial role in NASA’s Double Asteroid Redirection Test (DART) mission.
Why Particles Matter
MAIA’s measurements of sunlight reflecting off airborne particles will help researchers determine the abundance, size, and optical properties of certain pollutants in the atmosphere. Using such data in conjunction with surface-based measurements will help researchers decipher the particles’ chemical composition.
Particles that are 10 micrometers or less in diameter (PM10) are small enough to be inhaled, potentially causing tissue damage and inflammation in the nose, throat, and lungs. Particles less than 2.5 micrometers (PM2.5) can penetrate deeper into the lungs and be absorbed into the bloodstream, where they can cause more serious health problems.
The composition of such particles depends on how they were formed. For example, black carbon results from the burning of fossil fuels and trees, while mineral dust comes from soil and sand. Other particles – organic carbon, sulfates, and nitrates – can form through chemical reactions between gases in the atmosphere. MAIA’s main objective is to study whether exposures to these different types of particle pollution have differing health impacts.
Over the course of its three-year mission, MAIA will focus on 11 primary target areas that cover major urban centers around the globe: Los Angeles, Atlanta, and Boston in the United States; Rome; Addis Ababa, Ethiopia; Barcelona, Spain; Beijing; Johannesburg; New Delhi; Taipei, Taiwan; and Tel Aviv, Israel. While orbiting 460 miles (740 kilometers) above Earth’s surface, the mission will also collect some data over 30 secondary target areas throughout the world.
Epidemiologists on the science team intend to study the effects of short-term exposure to particulate pollution over the course of days, as well as chronic exposure, which can last many years. Also of interest is “sub-chronic” exposure, such as the monthslong inhaling of pollutants that might occur during pregnancy, which can lead to adverse health effects for a mother and infant.
More About the Mission
MAIA is a joint Earth-observing mission between NASA and ASI. JPL, which is managed for NASA by Caltech in Pasadena, leads the U.S. component of the project and is providing the observatory’s science instrument and hosting the instrument operations center. NASA’s Space Communications and Navigation program (SCaN) will provide uplink and downlink services for commands and data, and NASA’s Atmospheric Science Data Center will provide computational resources to generate and archive science products. ASI will provide the PLATiNO-2 spacecraft, contribute launch services, and host the mission operations center.
To learn more about MAIA, visit:
Andrew Wang / Jane J. Lee
Jet Propulsion Laboratory, Pasadena, Calif.
626-379-6874 / 818-354-0307
andrew.wang@jpl.nasa.gov / jane.j.lee@jpl.nasa.gov
2023-030