GoMRI

Investigating the effect of oil spills
on the environment and public health.

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Olivia Mason

Florida State University

Department of Earth, Ocean, and Atmospheric Science

1017 Academic Way
PO Box 3064520
Tallahassee , FL 32306

omason@fsu.edu

Project List:

Consortium for Simulation of Oil-Microbial Interactions in the Ocean (CSOMIO)

Year 8-10 Research Grants (RFP-VI)Role: Co-Principal Investigator

Deepsea to Coast Connectivity in the Eastern Gulf of Mexico (DEEP-C)

Year 2-4 Consortia Grants (RFP-I)Role: Research Scientist

Publications & Presentations:

Journal Articles - 2
2015
Rakowski, C. V., Magen, C., Bosman, S., Rogers, K. L., Gillies, L. E., Chanton, J. P., & Mason, O. U. (2015). Methane and microbial dynamics in the Gulf of Mexico water column. *Frontiers in Marine Science*, 2.
2014
Scott, N. M., Hess, M., Bouskill, N. J., Mason, O. U., Jansson, J. K., & Gilbert, J. A. (2014). The microbial nitrogen cycling potential is impacted by polyaromatic hydrocarbon pollution of marine sediments. *Frontiers in Microbiology*, 5.
Conference Presentations - 10
2020
Coles, V. W., J.; Mason, O. S., & M (2020). Understanding how trait-based modeling (Genome-based EmergeNt Ocean Microbial Ecosystem Model) influences predictions of biogeochemical, ecological, and microbial system responses. In Ocean Sciences Meeting 2020
Morey, S. C., E.P.; Dukhovskoy, D. H., C.K.; Coles, V. S., M.; Hetland, R. T., K.; Hsu, T. M., A.; Mason, O. Y., L.; Cui, L. C., & J.; Wang, J. (2020). A coupled modeling system for simulating oil-biological-sediment interactions in the ocean. In Gulf of Mexico Oil Spill & Ecosystem Science Conference 2020
Morey, S. C., E.P.; Dukhovskoy, D. H., C.K.; Coles, V. S., M.R.; Hetland, R. T., K.M.; Hsu, T. M., A.J.; Mason, O. X., V.R.; Kobashi, D. Q., L.; Ye, L. C., L.; Chen, X. W., & J (2020). A coupled modeling system for simulating oil-biological-sediment interactions in the ocean. In Ocean Sciences Meeting 2020
Wang, J. C., V.; Stukel, M. M., & O (2020). Rapid adaptation of the microbial community to abrupt environmental change in the Gulf of Mexico modeled with the Genome-based EmergeNt Ocean Microbial Ecosystem Model. In Ocean Sciences Meeting 2020
2019
Howe, K. S., K.W.; Campbell, L. B., B.J.; Thrash, J. R., N.N.; Rogener, M. J., & S.B.; Mason, O. (2019). Gulf of Mexico hypoxic zone omics data elucidate active, non-canonical methanotrophs that have the potential to impact hydrocarbon fate in the coastal zone. In Gulf of Mexico Oil Spill & Ecosystem Science Conference 2019
Morey, S. C., E.; Dukhovskoy, D. S., M.; Harris, C. H., R.; Thyng, K. C., V.; Hsu, T. M., & A.; Mason, O. (2019). Development of a coupled modeling system for simulating oil-microbial-sediment interactions in the ocean. In Gulf of Mexico Oil Spill & Ecosystem Science Conference 2019
Wang, J. C., V.; Kelly, T. M., O.U.; Stropshire, T. S., & M.R (2019). Oil-Microbe interactions in the Gulf of Mexico (GoM) modeled with the Genome-based EmergeNt Ocean Microbial Ecosystem Model. In ASLO 2019 Aquatic Sciences Meeting
Wang, J. C., V.; Kelly, T. M., O.U.; Stropshire, T. S., & M.R (2019). Oil-Microbe interactions in the Gulf of Mexico (GoM) modeled with the Genome-based EmergeNt Ocean Microbial Ecosystem Model. In Gulf of Mexico Oil Spill & Ecosystem Science Conference 2019
Wang, J. C., V.; Stukel, M. K., & T.; Mason, O. (2019). Rapid adaptation of the microbial community to abrupt environmental change in the Gulf of Mexico modeled with the Genome-based EmergeNt Oceand Microbial Ecosystem Model. In 2019 Ocean Carbon and Biogeochemistry (OCB) Summer Workshop
2018
Howe, K. S., K.; Baker, B. T., J.; Campbell, L. R., M.; Joye, S. M., & O.U (2018). Revealing previously unrecognized microbes involved in methane oxidation along an oxygen gradient in the northern Gulf of Mexico. In 17th International Symposium on Microbial Ecology