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Students collaborate on NSF NCAR exhibit that highlights surprising climate science

It’s one thing to study how the relief and albedo of the ice sheets affected weather patterns during the Last Glacial Maximum 20,000 years ago. And it’s a whole other thing to develop an interactive, engaging museum exhibit on the subject for general audiences. But that’s just what teams from the (CIRES), the (NSF NCAR), NOAA and ATLAS managed to do.

Millennia ago, ice sheets formed over huge swaths of North America that were nearly as tall as some of our continent’s highest mountains. They were so massive that they essentially created their own weather.

Former CIRES postdoc Dillon Amaya (now at NOAA’s ) along with Kris Karnauskas, CIRES fellow and associate professor in the Department of Atmospheric and Oceanic Sciences, with NSF funding. 

David Hunter demonstrates an early demo of White Mountain exhibit tech

Researchers long hypothesized that the ice’s massive scale during the Last Glacial Maximum was enough to block the jet stream and change weather patterns sweeping in from the Pacific Ocean. For example, back then the area around what is today Southern California was much wetter while the Pacific Northwest was relatively drier. Today that is reversed.

Through advanced computer simulations, the CIRES team discovered that albedo creates a cooling effect that alters atmospheric circulation in ways that cannot be explained solely by the sheer size of ice sheets. Albedo is a measure of the amount of light reflected off of a surface—and ice sheets reflect a lot of sunlight, significantly impacting wind patterns. The research showed the Pacific Ocean was the driver behind the changes.

Translating Complex Research
In spring 2022, ATLAS offered a class called Design a Science Exhibit for ATLAS and Computer Science students. It centered on designing approachable museum exhibits that translate hard science for everyday people. Led by ATLAS director Mark Gross and adjunct faculty member Wayne Seltzer in collaboration with Eddie Goldstein from the Denver Nature and Science Museum, student teams partnered with researchers and museum specialists to prototype exhibitions that incorporated coding, materials selection, fabrication and storytelling.

Gross notes, “We should be teaching our engineers to communicate with broad audiences, particularly around climate change. We might do good science and engineering, but we’re not always good at communicating it to the public.”

A team of CU Boulder students formed a group to translate the CIRES ice sheet research into an exhibit prototype, including, ATLAS PhD student, David Hunter; Natasha Smith (MS Environment, Environmental Policy); and ATLAS undergraduate students Caileigh Hudson, Logan Turner and Julia Tung.

Seltzer explains, “The that inspired this exhibit is not all that accessible to readers who are not climate scientists. The students focused on what they decided was essential knowledge—the factors that result in an ice age and how computer models can help us predict climate change.”

Students demonstrate the complete prototype of White Mountain

Experimenting with Form
The team originally conceived of a sandbox as the project medium. As you moved the sand around to build different topographies, visual projections overlaid from above would show how weather patterns change. The idea made sense in theory, but practical stipulations (sand can be challenging to manage in a museum space) pushed the team in a different direction.

Hunter details this evolution, “We made little blocks that represent [topographic features], and then you could put the blocks on top of each other so you could sculpt [a landscape.] As a team, we went about designing and building the whole rig and had a prototype by the end of the semester, and we got to show it alongside everyone else's work at NCAR.” 

NSF NCAR science educators were so impressed with the prototype that they invited the team to work on a permanent installation. 

Making it Real

The exhibit includes a wall with the heading Winds Through Time: Ice Age Impacts on Climate Change with diagrams of the details

The biggest challenge then became orchestrating all the different people and components involved in developing a functional exhibit that could live for the long-term with as little ongoing maintenance as possible. Hunter notes, “There’s the digital prototype building, but then there’s the physical make-this-real part as well as the education part and ensuring visitors would get the right message.” 

After two years of iterative collaboration with scientists, curators, coders, fabricators and educators, the exhibit is now officially on permanent display at the Mesa Lab Visitor’s Center. Thousands of guests each year will be able to explore how massive ice sheets can alter the climate in surprising ways.

Amaya related, “This was probably one of the most gratifying experiences of my scientific career. It's not often that a piece of research like this leads to such tangible educational outcomes, so I'm super proud of our team for seeing it through! It's my hope that this exhibit can help illustrate some of these exotic climate interactions so that visitors can leave with a better physical intuition for how and why things were so wildly different.”

If you go:


1850 Table Mesa Drive
Boulder, CO

Free Admission

Hours:
Monday - Friday: 8:00 a.m. – 5:00 p.m. MT
Saturday, Sunday & Holidays: 9:00 a.m. – 4:00 p.m. MT