Sophie Charvet
Biology
Education
- PHD, Universite Laval
- MSc, Universite Laval
- BS, McGill University
- BACH, Universite Louis Pasteur
Assistant Professor of Biology
Contact Information
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Email Addresscharvet@sh-fyz.com
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Phone Number570-372-4381
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Office LocationNatural Science Center - Rm 234B
My Ph.D. thesis focused on microbial eukaryotes (protists) in Canadian Arctic lakes, where I discovered the fascinating world of mixoplankton, unicellular organisms capable of both photosynthesis and predation. This dual lifestyle is particularly advantageous during polar winters when the absence of light makes photosynthesis challenging. Some mixoplankton can switch between nutritional modes in response to environmental changes, such as light availability, nutrients or prey. This adaptability makes them versatile players within the aquatic food web and unpredictable sources or sinks of carbon dioxide for the atmosphere.
During multiple postdocs in Europe (Germany, Denmark and Sweden) and New York (American Museum of Natural History and Columbia University), I accumulated broad expertise in microbiology and molecular biology. My current research focuses on mixoplankton physiology and ecology in both freshwater and marine systems. In my lab, we use molecular biology tools such as DNA and RNA extractions, PCR, genome and transcriptome sequencing, along with microscopy and flow cytometry, to study these fascinating organisms and their mysterious behaviors.
- BIOL-102: Cell Biology and Genetics
- BIOL-102L: Cell Biology & Genetics Lab
- BIOL-312: Microbiology
- BIOL-313: Microbiology Lab
- BIOL-500: Topics in Bio: Bioinformatics
- BIOL-510: Student Research I
- BIOL-560: Interdisc Explor: Symbioses
- FYSE-100: FYSE Invisible Heroes of Bio
- FYSE-101: Scientific Heroes of Biology
About Me
My Ph.D. thesis focused on microbial eukaryotes (protists) in Canadian Arctic lakes, where I discovered the fascinating world of mixoplankton, unicellular organisms capable of both photosynthesis and predation. This dual lifestyle is particularly advantageous during polar winters when the absence of light makes photosynthesis challenging. Some mixoplankton can switch between nutritional modes in response to environmental changes, such as light availability, nutrients or prey. This adaptability makes them versatile players within the aquatic food web and unpredictable sources or sinks of carbon dioxide for the atmosphere.
During multiple postdocs in Europe (Germany, Denmark and Sweden) and New York (American Museum of Natural History and Columbia University), I accumulated broad expertise in microbiology and molecular biology. My current research focuses on mixoplankton physiology and ecology in both freshwater and marine systems. In my lab, we use molecular biology tools such as DNA and RNA extractions, PCR, genome and transcriptome sequencing, along with microscopy and flow cytometry, to study these fascinating organisms and their mysterious behaviors.