Member Since 2000
Whendee L. Silver
Professor, University of California Berkeley
Silver is the Distinguished Professor of Ecosystem Ecology and Biogeochemistry in the Dept. of Environmental Science, Policy, and Management, U.C. Berkeley, and faculty scientist at the Lawrence Berkeley National Lab. Her work determines the biogeochemical effects of climate change and human impacts on the environment, and the potential for mitigating these effects. Her lab uses field, laboratory, and modeling approaches and has pioneered field applications for continuous environmental sensing.
Professional Experience
University of California Berkeley
Professor
1997 - Present
Education
Yale University
Doctorate
1992
Honors & Awards
William S. and Carelyn Y. Reeburgh Lecture
Received December 2023
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Union Fellow
Received December 2021
Citation
For foundational research on redox control of C, N, and P cycling in terrestrial systems and integration of soil carbon science into policy
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Publications
Dinitrogen Emissions Dominate Nitrogen Gas Emissions From Soils With Low Oxygen Availability in a Mo...
Lowland tropical forest soils are relatively N rich and are the largest global source of N2O (a powerful greenhouse gas) to the atmosphere. Despite...
January 19, 2023
Phosphorus Fractionation Responds to Dynamic Redox Condition...
September 22, 2018
Evaluating the Classical Versus an Emerging Conceptual Model...
September 25, 2017
Impact of hydrologically driven hillslope erosion and landsl...
November 21, 2016
AGU Abstracts
An Observational System to Measure Methane Emissions from Manure Management on California Dairies
FINDING TARGETS WORLDWIDE FOR METHANE MITIGATION: QUANTIFICATION OF ANTHROPOGENIC METHANE SOURCES THROUGH ATMOSPHERIC MEASUREMENTS III ORAL
atmospheric sciences | 15 december 2023
Francesca M. Hopkins, Deanne Meyer, Marc L. Fische...
Dairy farms are the largest single source of methane (CH4) emissions in California, and play an important role in the states greenhouse gas mitigation...
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Quantifying Nitrous Oxide Emissions from Agricultural Lands Using a Mesh Network of Printed Soil Sensors
THE MACGYVER SESSION: NOVEL, EXCITING, SELF-MADE, HACKED, AND/OR IMPROVISED SENSORS, DATA ACQUISITION, AND DATA TRANSMISSION SOLUTIONS TO UNDERSTAND THE GEOSPHERE POSTER
hydrology | 14 december 2023
Carol Baumbauer, Lucas Lahann, Titan Yuan, Tyler ...
Nitrous oxide is a greenhouse gas nearly 300 times more potent than CO2, and agricultural soils are the largest source of N2O emissions. However, N2O ...
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Reactive iron additions regulate hot moments of nitrous oxide fluxes from an agricultural peatland soil
THE BIOATMOSPHERIC N CYCLE: N EMISSIONS, TRANSFORMATIONS, AND DEPOSITION AND TERRESTRIAL AND AQUATIC ECOSYSTEM IMPACTS III ELIGHTNING
biogeosciences | 12 december 2023
Tyler L. Anthony, Whendee L. Silver
The oxidation states of iron (Fe) form a dominant reduction-oxidation (redox) couple in soils. Oxidized Fe(III) is often one of the most abundant term...
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