Carol Eumni Lee
Ph.D., University of Washington, 1998
Postdoctoral Research: Scripps Institution of Oceanography, UC-San Diego
Lab website: http://mywebspace.wisc.edu/carollee/web/Lee/Lee.html
Address: 430 Birge Hall
Department: Zoology and Center for Rapid Evolution
Research InterestsGenetic architecture of invasive species; evolutionary physiology; functional ecological and evolutionary genomics; niche evolution; speciation, metagenomics of the copepod microbiome
Research FieldsMolecular Ecology
Research in my laboratory explores patterns and mechanisms of rapid evolution during invasions into novel habitats. Much of my work examines adaptive evolution within the context of multiple independent invasions to determine whether the same evolutionary pathways are involved during independent invasions. Exploring the degree of parallelism across independent invasions could reveal the degree to which mechanisms of adaptation are labile or constrained.
Using this comparative framework within a phylogenetic context, research in my laboratory is now exploring: (1) physiological evolution during habitat invasions, (2) specific loci that are under selection during habitat shifts, and (3) microbial diversity associated with the invading host, as well as evolution of host-microbiome interactions during invasions.
In addition, my laboratory is now performing comparative genomic analyses to study patterns of genome and physiological evolution across Arthropod lineages. Now, for the first time, we can study lineages outside of insects, such as several crustaceans (copepod, amphipod), chelicerates (spiders, mites, and scorpions), and myriapods (centipede, millipede).
We are now embarking on a study across the phylum Arthropoda to explore physiological adaptations associated with major habitat transitions, i.e., colonizations from marine ancestral habitats into freshwater habitats and onto land. These habitat transitions are important for understanding Arthropod physiology, as these colonizations have led to key innovations and fundamentally shaped the architectural diversity across the Arthropoda. For example, many traits in insects arose as a consequence of invasions by their crustacean ancestors from marine into freshwater and terrestrial habitats, leading to the radiation of insects.
Eyun, S, HY Soh, M Posavi, J Munro, J Remfert, JC Silva, S Richards, RA Gibbs, and CE Lee. (In Prep.) Evolutionary history of chemosensory-related gene families across the Arthropoda, with special focus on Pancrustacea and the Copepoda.
Posavi, M, GW Gelembiuk, B Larget, CE Lee. 2014. Testing for beneficial reversal of dominance during salinity shifts in the invasive copepod Eurytemora affinis, and implications for the maintenance of genetic variation. Evolution. 68:3166-3183.
Johnson, KE, L Perreau, G Charmantier, M Charmantier-Daures, CE Lee. 2014. Without Gills: Exploring the localization of osmoregulatory function in the copepod Eurytemora affinis. Physiological and Biochemical Zoology. 87:310-324.
Lee, CE, W Moss, N Olson, KF Chau, YM Chang, K Johnson. 2013. Feasting in Fresh Water: Impacts of food concentration on freshwater tolerance and the evolution of food x salinity response during the expansion from saline into freshwater habitats. Evolutionary Applications. 6:673-689.
Lee, CE, M Posavi, G Charmantier. 2012. Rapid evolution of body fluid regulation following independent invasions into freshwater habitats. Journal of Evolutionary Biology. 25:625-633.
Lee, CE, M Kiergaard, BD Eads, GW Gelembiuk, M Posavi. 2011. Pumping ions: Rapid parallel evolution of ionic regulation following habitat invasions. Evolution. 65:2229-2244.
Lee, CE, GW Gelembiuk. 2008. Evolutionary origins of invasive populations. Evolutionary Applications. 1:427-448.
Lee, CE. 2002. Evolutionary genetics of invasive species. Trends in Ecology and Evolution. 17:386-391.