Contact:
Biography:
Ryan joined the Mote team in Fall 2015. His research interests include various aspects of population biology and ecology for estuarine and marine fishes. Ryan’s Masters research utilized stable isotopes in otoliths to examine population structure of Atlantic bluefin tuna. His doctoral research used general linear and additive models to investigate the temporal and spatial dynamics of condition for juveniles of three estuarine species while they are present in nursery areas. He examined ~8,000 individuals for multiple indices of condition to understand how intra- and inter-annual patterns in condition may reflect survival, and if certain regions may contribute disproportionately more recruits to a fishery due to producing individuals in healthier condition.
Education:
Ph.D. Virginia Institute of Marine Science
B.S. Texas A&M University. M.S. Texas A&M University
Current Publications
Additional Publications
Schloesser, R.W., Fabrizio, M.C. (2018). Nursery Habitat Quality Assessed by the Condition of Juvenile Fishes: Not All Estuarine Areas Are Equal. Estuaries and Coasts, 1-19. doi:10.1007/s12237-018-0468-6
Tarnecki, A.M., Brennan, N.P., Schloesser, R.W., Rhody, N.R. (2018). Shifts in the Skin-Associated Microbiota of Hatchery-Reared Common Snook Centropomus undecimalis During Acclimation to the Wild. Microb. Ecol. doi: 10.1007/s00248-018-1252-7
Beckler, J.S.; Gray, K.; Carothers, H.F.; Currier, R.D., Schloesser, R. (2018) Engaging High-school Students and Teachers through an Ocean-Observing Technology STEM Outreach Club. NMEA Currents: Journal of Marine Education. Winter 2017 General Issue.
Schloesser, R.W., and M. C. Fabrizio. Submitted. Temporal dynamics of condition for estuarine fishes in their nursery habitats. Mar. Ecol. Prog. Ser.
Schloesser, R.W., and M. C. Fabrizio. Submitted. The utility of condition indices as surrogates of energy density and lipid content in three juvenile fish species. J. Fish Biol.
Schloesser, R.W., and M. C. Fabrizio. 2015. Relationships among proximate components and energy density of juvenile Atlantic estuarine fishes. Trans. Am. Fish. Soc., 144(5):942-955.
Schloesser, R. W., M. C. Fabrizio, R. J. Latour, G. C. Garman, B. Greenlee, M. Groves, and J. Gartland. 2011. Ecological role of blue catfish in Chesapeake Bay communities and implications for management. Pages 369-382 in P. H. Michaletz and V. H. Travnichek, editors. Conservation, ecology, and management of catfish: the second international symposium. American Fisheries Society, Symposium 77, Bethesda, Maryland.
Schloesser, R. W., J. D. Neilson, D. H. Secor, and J. R. Rooker. 2010. Natal origin of Atlantic bluefin tuna (Thunnus thynnus) from Canadian waters based on otolith δ13C and δ18O. Can. J. Fish. Aquat. Sci., 67:563-569. DOI:10.1139/F10-005.
Schloesser, R. W., J. R. Rooker, P. Louchuoarn, J. D. Neilson, and D. H. Secor. 2009. Interdecadal variation in seawater δ13C and δ18O recorded in fish otoliths. Limnol. Oceanogr., 54(5):1665-1668.
Rooker, J. R., D. H. Secor, G. DeMetrio, R. Schloesser, B. A. Block, and J. D. Neilson. 2008. Natal Homing and Connectivity in Atlantic Bluefin Tuna Populations. Science, 322:742-744. DOI: 10.1126/science.1161473.