School of Humanities and Sciences
Showing 21-40 of 183 Results
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Joe Nation
Professor of the Practice of Public Policy
BioJoe Nation is a Professor of the Practice of Public Policy at Stanford University, where he co-directs the graduate student Practicum in public policy and teaches policy courses on climate change, health care, and California state issues. He also serves as a Grossman-Kennedy Fellow in Human Biology, teaching environmental and health policy. He received the Phi Beta Kappa Undergraduate Teaching Award in 2023.
His current research is focused on climate change and improving data-driven decisions by state governments. Nation sits on the board of Advisors for Georgetown’s School of Foreign Service and is a Faculty Affiliate at Stanford’s Center on Longevity. He has consulted for RAND for more than 30 years since his graduation from the Pardee RAND Graduate School (PRGS) in 1989.
From 1992-2000, he served on the Marin Water Board, including two terms as President. From 2000-2006, he represented Marin and Southern Sonoma Counties in the California State Assembly. He was the principal co-author of AB 32, California’s Global Warmings Solutions Act and was selected as Legislator of the Year by a number of organizations. -
Vaidehi Natu
Physical Sci Res Scientist
Current Research and Scholarly InterestsI am a developmental neuroscientist. My research program aims to study how the human brain matures from infancy to adulthood, as it acquires new life skills and behaviors: What are the origins of neural and cellular mechanisms of brain development during infancy? How does the trajectory of cellular mechanisms unfold during development, as school-aged children acquire complex skills such as reading or face recognition? What are some of the parallels in brain development across primate species? What changes occur in the brain in developmental disorders such as autism, multiple sclerosis, and dyslexia.
I use a multi-modal approach by combining different techniques to study the brain. I use neuroimaging methods including functional magnetic resonance imaging (fMRI), quantitative MRI (qMRI), and diffusion MRI (dMRI) as well as behavioral observations, histology, comparative methods across humans and macaques, and intracranial electroencephalography. This combination of complementary techniques provides a unified understanding of how the brain’s anatomy, function, and behavior co-develop to achieve complex human skills.