Stanford Doerr School of Sustainability
Showing 1-50 of 60 Results
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Nina Berlin Rubin
Ph.D. Student in Earth System Science, admitted Autumn 2019
BioNina Berlin Rubin is a 5th year PhD Candidate in Earth System Science. Nina's research focuses on human behavior and decision-making in the face of climate extremes such as wildfire, wildfire smoke, and coastal hazards.
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Adam Burnett
Ph.D. Student in Earth System Science, admitted Summer 2019
BioI grew up in Westmoreland, New Hampshire, and graduated from Dartmouth College in 2018 with an undergraduate degree in physics. I am broadly interested in atmospheric dynamics, idealized modeling, and climate change. My current research uses aquaplanet simulations to explore what factors determine global tropical cyclone frequency. My hobbies include hiking, birdwatching, and playing the piano.
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Stephanie Fischer
Ph.D. Student in Earth System Science, admitted Autumn 2022
Ph.D. Minor, Comparative Studies in Race and EthnicityBioStephanie Fischer is a Ph.D. student with the Behavioral Decisions and the Environment group with Dr. Gabrielle Wong-Parodi. She holds a B.S. in Earth Systems and B.A. in Music Composition from Stanford University. She is interested in community-led solutions that help build resilience and environmental justice in the face of natural hazards and disasters, and identifies institutions and interventions that may support and scale these solutions. She is also interested in the ways culture, identity, language and place are important to develop effective messaging during emergency situations.
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Edgar Wiggin Francisco V
Ph.D. Student in Earth System Science, admitted Autumn 2023
BioI research how land use change affects species interactions, invasions, and biodiversity in tropical forests. I primarily work with reptiles and amphibians to investigate the following questions:
How can we integrate habitat requirements for vulnerable and range-restricted species into the agroecological matrix?
How do evolved ecological constraints mediate species’ vulnerability or resiliency to anthropogenic disturbances?
How can land use change influence biological invasions?
Currently, my research is part of a grander effort to understand the social and ecological consequences of expanding oil palm agriculture in Costa Rica. I am additionally interested in sustainable agriculture, food sovereignty, and the political ecology of agribusiness in Latin America. -
Anna Gomes
Ph.D. Student in Earth System Science, admitted Autumn 2020
BioMy main interests lie within anthropogenic climate change, environmental science, and agriculture. The complex system dynamics and interconnections between agriculture and the environment including nutrient cycling, energy use, and greenhouse gas emissions are a few of the most critical challenges for today's soil scientists. After completing a master’s degree in Sustainability Science and Environmental Studies at Lund University in Sweden, researching farmer adoption of practices which mitigate GHGs from arable soils in the Netherlands at Wageningen University, I started a PhD in Earth System Science at Stanford University, aiming to focus on soil and environmental biogeochemistry. In parallel to my work in academia, I have been working on a start-up to address food waste and food insecurity in CA (Ugly Food Market), in addition to being a team member on several projects including a sharing library (Circle Centre), a soil science educational platform (Soil Life), and other sustainability related initiatives.
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Andrew Hennig
Ph.D. Student in Earth System Science, admitted Autumn 2016
BioAntarctic ice sheet, both of which have exhibited significant mass loss over the past few decades. If the two ice sheets were to fully collapse, they could be responsible for up to 15m of global sea level rise (roughly equal parts from both). This sea level rise would not only pose serious problems for coastal settlements, but cause serious changes to ecosystems, and could profoundly alter the Earth’s ocean circulation.
Current estimates of the mass balance for ice sheets are based primarily on satellite data. This data has become more accurate and more available than ever before, since the 1990s. While estimates can be provided by satellite data, satellites are limited by virtue of the fact that they can only evaluate the surface of the ice shelf. Recent research has shown that a significant amount of the mass loss from the West Antarctic ice sheet is happening underwater, along grounding lines, where deep waters, warmed by global warming, enter the area underneath the ice shelf, and melt the shelves from the bottom. This not only results in mass loss directly, but increases calving of glaciers into the ocean, further accelerating their loss. This melting, below the surface of the ice shelves, cannot be estimated by satellites.
To get a better understanding of the impact of warmer deep waters on glacial retreat in Western Antarctica, we need to measure the melt more directly. Using highly precise measurements of salinity and isotopic composition of seawater in coastal regions of Western Antarctica, we can estimate the amount of glacial meltwater present in the oceanic adjacent to ice sheets. Gaining a greater understanding of the rates and locations of West Antarctic melting will be crucial to developing our understanding of future sea level rise, and other wider impacts. -
Natan Holtzman
Ph.D. Student in Earth System Science, admitted Autumn 2018
BioNatan Holtzman is a fourth-year PhD student in the Earth System Science department working with Prof. Alexandra Konings. He uses remote sensing and modeling to study how water moves between the atmosphere, plants, and soil. Natan graduated from the University of North Carolina at Chapel Hill in 2016 with a B.S. with honors in Geological Sciences and minors in Mathematics and Biology.
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Elizabeth Johnston
Ph.D. Student in Earth System Science, admitted Autumn 2017
BioElizabeth (she/her) is a PhD Candidate in Earth System Science at the Doerr School of Sustainability. Her research investigates the coupled human-natural system by quantifying the effects of climate and land use on surface processes, with particular emphasis on cascading disasters. The goal of this work is to inform adaptation efforts that enhance human and ecosystem well-being, while reducing shared socioeconomic outcomes and disparities. Prior to starting her PhD, she earned an MS in Marine Science from the University of San Diego and a BS in Earth and Environmental Science from Furman University. In addition to academic research and teaching experience, she previously served as an Energy Policy Analyst in San Diego, California.
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Jack Lamb
Ph.D. Student in Earth System Science, admitted Autumn 2021
BioJack Lamb is a PhD student working under Professor Alison Hoyt in the Earth System Science department. He is interested in developing low-cost instrumentation networks for effective ground-truthing and upscaling of satellite imagery.
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Stephanie M. Lim
Ph.D. Student in Earth System Science, admitted Autumn 2019
BioI am a biological oceanographer studying the response of ice algae, phytoplankton, and biogeochemical cycles to climate change in the polar oceans. My personal website is https://slim8288.github.io
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Amina Ly
Ph.D. Student in Earth System Science, admitted Autumn 2018
BioAmina is a PhD student in the Earth Systems Science Department at Stanford University. Her work is primarily focused on understanding climate change risks, and the impacts of extreme temperatures on human systems. Her current work explores the influence of extreme heat events on small-scale mobility patterns, as well as global mapping projects of protected mountainous biodiversity hotspots
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Emily R. Paris
Ph.D. Student in Earth System Science, admitted Autumn 2020
Current Research and Scholarly InterestsInvestigating the limits of life on Earth and beyond
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Quinn Mitsuko Parker
Ph.D. Student in Earth System Science, admitted Autumn 2023
Current Research and Scholarly InterestsQuinn Parker studies social-ecological dynamics of small-scale fisheries, and their ties to food security and food sovereignty. She examines the cultural, socio-economic, and historical drivers that impact SSF governance, and how these governance models in turn affect resilience of and access to blue food systems.
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Zach Perzan
Ph.D. Student in Earth System Science, admitted Autumn 2017
BioI’m currently a PhD candidate in Earth System Science at Stanford University. I use modern data science techniques to better understand the environmental processes affecting water quality.
This broad topic includes research projects in several different areas:
1. Building a data-driven water quality model that can make predictions in real time based on in situ sensor observations
2. Understanding seasonal contaminant cycling in a uranium-contaminated floodplain in Wyoming
3. Modeling the impact of managed aquifer recharge on groundwater quality in California’s Central Valley
4. Analyzing the financial cost of EPA drinking water quality violations through 10+ years of consumer purchasing data -
Trent Robinett
Ph.D. Student in Earth System Science, admitted Autumn 2021
Masters Student in Earth System Science, admitted Summer 2023BioTrent is first year Ph.D. student working with Prof. Alexandra Konings in the Earth System Science department. He is interested in using remote sensing data to better understand the role of plant water hydraulics in determining terrestrial vegetation's response to climate change. Trent graduated from the University of Notre Dame in 2021 with a B.S. in Environmental Sciences and a minor in Catholic Social Tradition.
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D. Brian Rogers
Ph.D. Student in Earth System Science, admitted Autumn 2020
Masters Student in Earth System Science, admitted Autumn 2022BioBrian is a doctoral student in Earth System Science working with Dr. Kate Maher. Brian is interested in developing robust monitoring, reporting, and verification frameworks for open-system carbon dioxide removal (CDR) technologies. He is currently focusing on extending the utility of reactive transport models to address uncertainties in enhanced rock weathering as a CDR strategy.