Wilkes Center

William Anderegg Receives NSF Waterman Award

April 27, 2023

William Anderegg and National Science Foundation Dir. Sethuraman Panchanathan at Waterman Award Ceremonies, May 9, 2023. Photo provided by NSF.

William Anderegg RECEIVES Waterman Award

Associate professor of Biology William Anderegg is a 2023 recipient of the National Science Foundation‘s Alan T. Waterman Award. Anderegg, who is also Director of the Wilkes Center for Climate Science & Policy, is one of three awardees each of whom receive a medal and $1 million over five years for research in their chosen field of science. The nation’s highest honor for early-career scientists and engineers, The Waterman Award was presented to all recipients at a ceremony during the National Science Board meeting, held in Washington, D.C., on May 9. The award, established by Congress in 1975, is named for Alan T. Waterman, NSF’s first director.

“Receiving the Waterman Award is incredibly meaningful. It’s an amazing honor and I’m still stunned,” said Anderegg. “It will allow us to take on some really aspirational, creative and high-risk projects that we’ve thought about for a while but can now actually tackle. I’m immensely grateful to the wonderful mentors I’ve had throughout my career who played a huge role in my path as a scientist. I feel lucky to be surrounded by such generous and brilliant scientists, and this award has really made me reflect on how important these people have been and still are in my career.”

This is the second year the National Science Foundation has chosen to honor three researchers with the award, which recognizes outstanding early-career U.S. science or engineering researchers who demonstrate exceptional individual achievements in NSF-supported fields.

 

Read the full story by Ross Chambless in @TheU.
Listen to the National Science Foundation’s recent podcast with Bill Anderegg here.

 

Revisiting Carbon Offset Protocols

April 17, 2023

Revisiting carbon off-set protocols

When you walk through a forest, you are surrounded by carbon. Every branch and every leaf, every inch of trunk and every tendril of unseen root contains carbon pulled from the atmosphere through photosynthesis.

And as long as it stays stored away inside that forest, it’s not contributing to the rising concentrations of carbon dioxide that cause climate change. So it’s only natural that we might want to use forests’ carbon-storage superpower as a potential climate solution in addition to reducing human greenhouse gas emissions.

But climate change itself might compromise how permanently forests are able to store carbon and keep it out of the air, according to a new study led by University of Utah researchers. A study of how different regions and tree species will respond to climate change finds a wide range of estimates of how much carbon forests in different regions might gain or lose as the climate warms. Importantly, the researchers found, the regions most at risk to lose forest carbon through fire, climate stress or insect damage are those regions where many forest carbon offset projects have been set up.

“This tells us there’s a really urgent need to update these carbon offsets protocols and policies with the best available science of climate risks to U.S. forests,” said William Anderegg, study senior author and director of the U’s Wilkes Center for Climate Science and Policy.

The study is published in Nature Geoscience. Find an interactive tool showing carbon storage potential in forests in the U.S. here.

 

Read about a multi-perspective modeling approach and what we still need to know about climate offset protocols in our attempts to mitigate climate change in the full story by Paul Gabrielsen in @The U

 

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