570 Main Street
203 Terrill Building (graduate student office)
Burlington, VT 05405
United States
BIO
Natalie Flores' research interests include aquatic ecology, environmental toxicology, and understanding how chemical substances affect organisms and ecosystems. Natalie's doctoral dissertation focuses on enhancing the knowledge on impacts of cyanobacterial blooms on different parts of the environment, including water, fish, and air.
Natalie is using a combination of existing data in a global analysis and new data from field sampling to address these issues. By learning more about the increased presence and effects of cyanobacteria in multiple areas of the environment, Natalie will help characterize potential routes of human exposure to cyanobacteria toxins and identify how blooms may impact the nutritional value of fish through the fatty acid composition and toxins. Natalie aims to broaden the knowledge on ecological impacts of harmful cyanobacteria and environmental patterns in cyanobacteria and their bioactive chemical products.
Prospective graduate students interested in learning more about research and experiences in the Rubenstein School may contact Natalie.
Area(s) of expertise
Aquatic ecology, cyanobacteria blooms, cyanobacteria toxins, phytoplankton, fatty acids
Bio
Natalie Flores' research interests include aquatic ecology, environmental toxicology, and understanding how chemical substances affect organisms and ecosystems. Natalie's doctoral dissertation focuses on enhancing the knowledge on impacts of cyanobacterial blooms on different parts of the environment, including water, fish, and air.
Natalie is using a combination of existing data in a global analysis and new data from field sampling to address these issues. By learning more about the increased presence and effects of cyanobacteria in multiple areas of the environment, Natalie will help characterize potential routes of human exposure to cyanobacteria toxins and identify how blooms may impact the nutritional value of fish through the fatty acid composition and toxins. Natalie aims to broaden the knowledge on ecological impacts of harmful cyanobacteria and environmental patterns in cyanobacteria and their bioactive chemical products.
Prospective graduate students interested in learning more about research and experiences in the Rubenstein School may contact Natalie.
Areas of Expertise
Aquatic ecology, cyanobacteria blooms, cyanobacteria toxins, phytoplankton, fatty acids
Advisors
Advisors: Jason Stockwell and Jana Kraft