Citizen Scientists Invited to Collect Data for NASA During Eclipse

On April 8, 2024, as the Moon passes between the Sun and Earth, thousands of amateur citizen scientists will measure air temperatures and snap pictures of clouds. The data they collect will aid researchers who are investigating how the Sun influences climates in different environments. Among those citizen scientists are the fifth- and sixth-grade students […]

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Apr 1, 2024 - 21:00
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Citizen Scientists Invited to Collect Data for NASA During Eclipse

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Citizen Scientists Invited to Collect Data for NASA During Eclipse

Argentine students gather cloud observations and temperature data to upload through the GLOBE Eclipse tool during the eclipse that crossed South America on July 2, 2019.
Argentine students gather cloud observations and temperature data to upload through the GLOBE Eclipse tool during the eclipse that crossed South America on July 2, 2019.
Pablo Cecchi

On April 8, 2024, as the Moon passes between the Sun and Earth, thousands of amateur citizen scientists will measure air temperatures and snap pictures of clouds. The data they collect will aid researchers who are investigating how the Sun influences climates in different environments.

Among those citizen scientists are the fifth- and sixth-grade students at Alpena Elementary in northwest Arkansas. In the weeks leading up to the eclipse, these students are visiting the school’s weather station 10 times a day to collect temperature readings and monitor cloud cover. They will then upload the data to a phone-based app that’s part of a NASA-led program called GLOBE, short for Global Learning and Observations to Benefit the Environment.

The goal, according to Alpena Elementary science and math teacher Roger Rose, is to “make science and math more real” for his students. “It makes them feel like they’re doing something that’s important and worthwhile.”

The GLOBE eclipse tool is a small part of the much broader GLOBE project, through which students and citizen scientists collect data on plants, soil, water, the atmosphere, and even mosquitoes. And while some of these studies require equipment, contributors to the eclipse project will only need a thermometer and a smart phone with the GLOBE Observer app downloaded. They can access the eclipse tool in the app.

This is not the first time the GLOBE eclipse tool has been deployed in North America. During the 2017 North American eclipse, NASA researchers examined the relationship between clouds and air temperature and found that temperature swings during the eclipse were greatest in areas with less cloud cover, while temperature fluctuations in cloudier regions were more muted. It’s a finding that would have been difficult, perhaps impossible, without the assistance of numerous amateur observers along the eclipse path, said Marilé Colón Robles, a meteorologist based at NASA’s Langley Research Center in Hampton, Virginia, and the GLOBE project scientist overseeing the cloud study portion of the project.

GLOBE program volunteers across North America uploaded data from locations marked on this map of data coinciding with the July 21, 2017 event. A high concentration of observers make the path of totality in the western part of the U.S. stand out.
GLOBE program volunteers across North America uploaded data coinciding with the July 21, 2017 event to this map. A high concentration of observers make the path of totality in the western part of the U.S. stand out.
Globe program

The number of weather stations along this year’s eclipse path is limited, and while satellites give us a global view, they can’t provide the same level of detail as people on the ground, said Ashlee Autore, a NASA Langley data scientist who will be conducting a follow-up to the 2017 study. “The power of citizen science is that people make the observations, and they can move.”

It’s still unclear how temperature fluctuations during a total eclipse compare across different climate regions, Colón Robles said. “This upcoming eclipse is passing through desert regions, mountainous regions, as well as more moist regions near the oceans.” Acquiring observations across these areas, she said, “will help us dig deeper into questions about regional connections between cloud cover and ground-level temperatures.” The studies should give scientists a better handle on the flow of energy from the Sun that’s crucial for understanding climate.

In many areas, citizen scientists are expected to gather en masse. “We’re inviting basically all of El Paso to campus,” said geophysicist and GLOBE partner John Olgin of El Paso Community College in Texas. The area will experience the eclipse in near totality, with about 80% of the Sun covered at the peak. It’s enough to make for an engaging event involving citizen scientists from the U.S. and Juarez, Mexico, just across the Rio Grande. 

Just a few minutes of midday darkness will have the long-term benefits of increasing awareness of NASA citizen science programs, Olgin said: “It’s going to inspire people to say, ‘Hey look, you can actually do stuff with NASA.’”

More than 30 million people live along the path of the 2024 eclipse, and hundreds of millions more will see a partial eclipse. It will be another 20 years before so many people in North America experience another total solar eclipse again.

With this in mind, Colón Robles has a piece of advice: As the Moon actively blocks the Sun, set your phone and thermometer aside, and marvel at one of the most extraordinary astronomical events of your lifetime.

Visit NASA’s Citizen Science page to learn how you can help NASA scientists study the Earth during eclipses and all year round. The GLOBE Program page provides connections to communities of GLOBE participants in 127 countries, access to data for retrieval and analysis, a roadmap for new participants, and other resources.

By James Riordon
NASA’s Earth Science News Team

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Last Updated
Apr 01, 2024

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