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Deep Forest Soils Lose Carbon as Temperatures Climb

A new study led by Berkeley Lab has provided the first physical evidence that warmer temperatures lead to a significant drop in the stored carbon stock in deep forest soils. An experiment in California’s Sierra Nevada forest found that the carbon content in subsoils dropped 33% over five years. The research team, led by Margaret

In Calculating the Social Cost of Methane, Equity Matters

A new study by a team including researchers from Lawrence Berkeley National Laboratory and UC Berkeley reports that the social cost of methane – a greenhouse gas that is 30 times as potent as carbon dioxide in its ability to trap heat – varies by as much as an order of magnitude between industrialized and developing regions of the world.

Getting to Net Zero – and Even Net Negative – is Surprisingly Feasible, and Affordable

Reaching zero net emissions of carbon dioxide from energy and industry by 2050 can be accomplished by rebuilding U.S. energy infrastructure to run primarily on renewable energy, at a net cost of about $1 per person per day, according to new research published by Lawrence Berkeley National Laboratory, the University of San Francisco (USF), and the consulting firm Evolved Energy Research.

Primer on Carbon Dioxide Removal Provides Vital Resource at Critical Time

Scientists say that any serious plan to address climate change should include carbon dioxide removal (CDR) technologies and policies, which makes the newly launched CDR Primer an especially vital resource, says Berkeley Lab scientist Margaret Torn, one of about three dozen scientists who contributed to this document. “Atmospheric CO2 concentrations are already 50% over historic

Impacts of Climate Change on Our Water and Energy Systems: It’s Complicated

A team of researchers from Berkeley Lab, UC Berkeley, and UC Santa Barbara propose a framework for evaluating climate change adaptations, provide a case study of California.

Scientists Design New Framework for Clean Water

A team of scientists led by Berkeley Lab has designed a new crystalline material that targets and traps copper ions from wastewater with unprecedented precision and speed. The technology offers the water industry and the research community the first blueprint for a water-remediation technology that scavenges heavy metal ions with a measure of control, which far surpasses the current state of the art.

Berkeley Lab Technologies Honored With 7 R&D 100 Awards

Innovations include a better lithium battery, secure quantum communications, and a tool for buildings to save energy.

Some of America’s Favorite Produce Crops May Need to Get a Move On by 2045

New research from Lawrence Berkeley National Laboratory shows that by the years 2045-2049 future temperatures will have more of an effect on when cool-season crops, such as broccoli and lettuce, can be grown than on where, while for warm-season crops (cantaloupe, tomatoes, carrots) the impact will be greater for where they can be grown versus when.

Global Methane Emissions Soaring, But How Much Was Due to Wetlands?

A Q&A with Berkeley Lab scientist William Riley on the challenges in estimating methane emissions from wetlands and how nuanced computer models may help

Scientists Say: Expect More Rainfall Variability for California

California’s winter precipitation is expected to become 50% more variable by century’s end, based on a Berkeley Lab-led study of the impact of future greenhouse gas emissions on the Madden-Julian Oscillation (MJO), a rainfall pattern that covers a quarter of the globe. When active, the MJO influences whether precipitation occurs for 30 to 60 days,