Earth and planetary science at CU Boulder

Experts available: American Geophysical Union Fall Meeting 2021

New Orleans Online everywhere Dec. 13–17

The American Geophysical Union (AGU) Fall Meeting begins Monday, Dec. 13 in New Orleans and online. Top earth and planetary scientists from CU Boulder will present their research at this conference, from new findings on cosmic dust to atmospheric rivers and the rapidly-melting Thwaites glacier. Media are invited to .

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CU Boulder is ranked No. 1 globally for earth and atmospheric science in the 2021 Global Ranking of Academic Subjects (GRAS). Find more experts and story ideas through the , a partnership of NOAA and the University of Colorado Boulder.

Contact:Kelsey Simpkins, CU Boulder media relations

CU Boulder receives more NASA funding than any other public university in the country. Learn more about the and CU Boulder aerospace.

Contact:Dan Strain, CU Boulder media relations

As a global leader in climate, environmental and energy research, CU Boulder is partnering with United Nations Human Rights to co-host the Right Here, Right Now Global Climate Summit in fall 2022. Contact cunews@colorado.edu to receive media updates.

Research News

Arctic Report Card reveals cascading disruptions, extreme events, global connections

On Dec. 14, a team of 111 scientists from 12 countries released the 16th annual Arctic Report Card, a yearly update on the state of the Arctic system. NSIDC's Matthew Druckenmiller and Twila Moon share what it means on The Conversation.

The threat from Thwaites: The retreat of Antarctica’s riskiest glacier

Antarctica’s Thwaites Glacier is retreating rapidly as a warming ocean slowly erases its ice from below, leading to faster flow, more fracturing, and a threat of collapse, according to an international team of scientists.

Spelunking on the moon: New study explores lunar pits and caves

One day, human astronauts could live in the protected environments of pits and caves on the moon. A new study seeks to better understand what the environments may be like within these craggy features.

Mysterious STEVE light emissions emanate from Earth’s magnetosphere

Contributions from citizen scientists are helping researchers identify different types of aurora-like light emissions and constrain how, and where in Earth’s atmosphere, those light emissions are generated.

Scientists envision what Mars would look like as an exoplanet

Which planets beyond our solar system are most likely to host life? By extrapolating the current scientific understanding of Mars, a multi-disciplinary team, including researchers from LASP, is helping identify alien planets that may be habitable.

Atmospheric and Earth Science

Thwaites Glacier

, Cooperative Institute for Research in Environmental Sciences (CIRES)
tascambos@colorado.edu

Scambos studies the effects of climate change on the cryosphere, including one of the largest glaciers in the world: Antarctica’s Thwaites Glacier, which could be responsible for a significant part of sea level rise by the end of the century. He is the U.S. PI for the International Thwaites Glacier Collaboration Science Coordination Office.

AGU highlight: “”
9 a.m. CST Dec. 13, press conference room and online through AGU's media center

Atmospheric rivers

Jan Lenaerts, Department of Atmospheric and Oceanic Sciences
Jan.Lenaerts@colorado.edu

Lenaerts studies how polar regions are impacted by atmospheric rivers, or “rivers” in the sky that move warm air from wetter to drier locations. They’re important for the water cycle but can cause extreme precipitation or melting events. He leads the Ice Sheets and Climate lab at CU Boulder.

AGU highlight: “”&�Բ��;
1:48 p.m. CST Dec. 16, Room 215–16

Climate and weather modeling

Jennifer Kay, associate director for the , associate professor of atmospheric and oceanic sciences and visiting scientist at the National Center for Atmospheric Research (NCAR)
jennifer.e.kay@colorado.edu

Using global climate models, Kay examines projected Arctic sea ice loss, as well as changes in cloud and precipitation processes and ocean heat transport due to climate change. Her work also explores how integrating observations and models can help scientists better understand a rapidly changing Arctic.

AGU highlight: “”&�Բ��;
10:24 a.m. CST Dec. 17, Room 280–82

Arctic precipitation

Mark Serreze, director of the , distinguished professor of geography and CIRES fellow
serreze@kryos.colorado.edu

In early 2020, NSIDC launched , a website providing monthly insight into snow conditions and daily near-real-time data across the Western United States. Serreze is a co-author on new research in that finds more rain than snow will fall in the Arctic sooner than expected.

AGU highlight: “”&�Բ��;
1:07 p.m. CST Dec. 16, Room 211–13

Monitoring methane emissions

, CIRES research scientist and Co-Founder LongPath Technologies, Inc.
caroline.alden@colorado.edu

Alden’s work focuses on using trace gas measurements in the atmosphere to address carbon monitoring and carbon-climate mitigation challenges. LongPath Technologies Inc. uses Nobel Prize-winning technology to monitor and quantify methane emissions in real time.

AGU highlight: “”&�Բ��;
4–6 p.m. CST Dec. 14, Poster Hall D-F

Colorado River drought

Balaji Rajagopalan, Cooperative Institute for Research in Environmental Sciences (CIRES) and professor of civil, environmental and architectural engineering
balajir@colorado.edu

Rajagopalan uses historical records and reconstructions to better understand and contextualize drought and climate change in the Colorado River Basin and across India, which helps stakeholders in these basins devise efficient water management strategies.

AGU highlight: “”
1 p.m. CST Dec. 14, Room 203–05

Planetary Science

Space weather

Daniel Baker, director of the Laboratory for Atmospheric and Space Physics (LASP)
daniel.baker@lasp.colorado.edu

Baker explores the connections between Earth and the sun, and the potential dangers that space weather poses to human society. He has served as an investigator on several NASA missions, including the Magnetospheric Multiscale (MMS) and the Van Allen Probes missions.

AGU Highlight: “”
10:20 a.m. CST Dec. 14, Room 388-390

Mars and exoplanets

David Brain, Laboratory for Atmospheric and Space Physics (LASP)
david.brain@colorado.edu

Brain examines how the atmospheres of planets like Mars, Venus and others beyond our solar system evolve over time, insights that may help to shape the search for life on alien worlds. He recently launched an effort to study how magnetic fields may help—or not help— planets hang onto their atmospheres.

AGU Highlight: “”&�Բ��;
4–6 p.m. CST Dec. 13, Poster Hall D-F

Asteroids

Daniel Scheeres, Ann & H.J. Smead Department of Aerospace Engineering Sciences
scheeres@colorado.edu

Scheeres has investigated the dynamics of how asteroids move through space through his work on NASA’s OSIRIS-REx and Japan’s Hyabusa missions. He is leading the Janus mission, which will launch in 2022 and send twin small spacecraft to rendezvous with two pairs of binary asteroids.

AGU Highlight: “”&�Բ��;
4:10 p.m. CST Dec. 13, eLightning Theater V

Jupiter and beyond

Fran Bagenal, Laboratory for Atmospheric and Space Physics (LASP)
fran.bagenal@lasp.colorado.edu

Bagenal has studied planetary bodies throughout the solar system, from Jupiter and its moons to Pluto and Arrokoth, through NASA missions like Voyager, Galileo, Juno and New Horizons. She will also take part in NASA’s upcoming Europa Clipper mission.

AGU Highlight: “”
4–6 p.m. CST Dec. 14, Poster Hall D-F

Cosmic dust

Mihály Horányi, Laboratory for Atmospheric and Space Physics (LASP)
horanyi@colorado.edu

Horányi leads the Institute for Modeling Plasmas, Atmospheres, and Cosmic Dust (IMPACT), which studies how dust streams through space and can even damage spacecraft when they collide. He and his colleagues have explored the dust and plasma environments around the moon, Saturn’s rings, the Kuiper Belt and more.

AGU Highlight: “”
8:25 a.m. CST Dec. 17, Room 395-396

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