Stanford Doerr School of Sustainability
Showing 121-130 of 181 Results
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Newton Huy Nguyen
Postdoctoral Scholar, Earth System Science
BioI am currently a Stanford Science Fellow doing postdoctoral research in the Doerr School of Sustainability and in the Department of Physics. My research focuses on understanding the ultimate fate of methane and other carbon species in the atmosphere. To do this, I apply remote sensing, data assimulation, and numerical models to improve the way we detect, quantify, and trace carbon with satellites and ground-based sensors. I earned my PhD in Environmental Science and Engineering at Caltech in 2023. I am also an avid marathon runner, and proud to be representing Rabbit as a member of their 2024 Elite Team!
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Lauren Oakes
Adjunct Assistant Professor, Earth System Science
BioLauren E. Oakes is an ecologist and human-natural systems scientist. She is an Adjunct Professor in the Department of Earth System Science at Stanford University and a Conservation Scientist on the Forests and Climate Change team at the Wildlife Conservation Society. Lauren teaches workshops and short-courses in narrative science writing and interdisciplinary environmental sciences, and she combines ecological research with methods from the social sciences to help people adapt to climate change impacts. Her work focuses on understanding the impacts of climate change to forest ecosystems and advancing best practices in adaptation and implementation of nature based solutions. She earned her PhD from Stanford University’s Emmett Interdisciplinary Program in Environment and Resources (2015) and her bachelor’s degree from Brown University (2004) in Environmental Studies and Visual Art, studying film and photography. Her first book, In Search of the Canary Tree (Basic Books, Hachette Book Group), is a narrative science memoir about finding faith in the ability of people to cope with a rapidly changing planet. Science Friday selected the Canary as one of the Best Science Books of 2018.
For nearly 20 years, Dr. Oakes has worked on a suite of environmental issues as a researcher, scholar, advocate, and documentarian (Alaska Gold 2012; Red Gold 2008). During that time, she confronted changes in rural communities and challenges in conservation, such as mining development in pristine watersheds in Alaska or road development through the temperate forests of Chile. She witnessed whole communities transformed by oil and gas development in the American West. She spent six years studying climate change impacts to forest ecosystems in the Alexander Archipelago, Alaska. At the core of her passions for research, teaching, and communicating issues of environmental change is the desire to improve resource management and conservation practices.
In addition to publishing her climate- and forest-related research in peer-reviewed journals, Lauren has contributed to National Geographic, the Los Angeles Times, the New York Times, Scientific American, and Anthropocene Magazine, Emergence Magazine, and Lit Hub.. Her research has been profiled by The Atlantic, Scientific American, Smithsonian, Outside Magazine, National Geographic, The Christian Science Monitor, Adventure Kayak Magazine, and ClimateWire, among other outlets. With years of experience in professional outdoor guiding, she has also lead multi-day expeditions for National Geographic Expeditions and co-designed/co-taught Stanford field courses in Alaska and the Grand Canyon. -
Emily R. Paris
Ph.D. Student in Earth System Science, admitted Autumn 2020
Masters Student in Earth System Science, admitted Winter 2024Current Research and Scholarly InterestsInvestigating the limits of life on Earth and beyond
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Kabir Peay
Director of the Earth Systems Program, Associate Professor of Biology, of Earth System Science and Senior Fellow at the Woods Institute for the Environment
Current Research and Scholarly InterestsOur lab studies the ecological processes that structure natural communities and the links between community structure and the cycling of nutrients and energy through ecosystems. We focus primarily on fungi, as these organisms are incredibly diverse and are the primary agents of carbon and nutrient cycling in terrestrial ecosystems. By working across multiple scales we hope to build a 'roots-to-biomes' understanding of plant-microbe symbiosis.