Publications
Names with ### indicate undergraduate authors
Hoskins, T., Foley C., Hoverman J., Kohli A., Lee L.S., de Almeida Miranda D., Peaslee G., Sepúlveda M., Venier M., Xia C., Zack S., Zhou Z., Dahmen L. 2025. Indiana Statewide PFAS Assessment. Institute for a Sustainable Future Documents. Paper 2. http://dx.doi.org/10.5703/1288284317856
Bushong A., Sepúlveda M., Scherer M., Valachovic A.C., Neill C.M., Horn S.###, Choi Y., Lee L.S., Baloni P., Hoskins T. 2024. Effects of Perfluorinated Alkyl Substances (PFAS) on Amphibian Body and Liver Conditions: Is Lipid Metabolism Being Perturbed Throughout Metamorphosis? Toxics 12: 732. https://doi.org/10.3390/toxics12100732
Burcham L.E.###, Allmon E.B., Scherer M.N., Bushong A.G., Hamilton M.T., Macheri S., Coogan G.S.M., Choi Y.J., Lee L.S., Sepulveda M.S., Hoskins T.D. 2024. Salinity mediates the toxicity of perfluorooctanesulfonate (PFOS) in an estuarine fish. Marine Pollution Bulletin 203: 116446. 10.1016/j.marpolbul.2024.116446
Liu Z., Zhang Y., Jia X., Hoskins T., Lu L., Han Y., Zhang X., Lin H., Shen L., Feng Y., Zheng Y., Hu C., Zhang H. In Review. Microcystin-LR at environmental relevant concentration induced estrogenic effect in Pelophylax nigromaculatus: in situ, in vivo, and in silico investigations. Environmental Science and Technology 58: 22. https://doi.org/10.1021/acs.est.4c01322
Barragan E.M., Hoskins T.D., Allmon L.B., McQuigg J., Hamilton, M.T., Christian, Erin N., Coogan G.S.M., Choi Y.J., Lee L.S., Searle C.L., Hoverman J.T., Sepúlveda M.S. 2023. Toxicities of legacy and current use PFAS in an anuran: do larval exposures influences responses to a terrestrial pathogen challenge? Environmental Science and Technology. DOI: https://doi.org/10.1021/acs.est.3c03191
Hoskins, T.D., Flynn, R.W., Coogan, G.S., Catlin A.C., de Perre, C., Modiri M., Lee, L.S., Hoverman, J.T., Sepúlveda, M.S. 2023. Chronic exposure to a PFAS mixture resembling AFFF-impacted surface water decreases body size in northern leopard frogs (Rana pipiens). Environmental Science and Technology. DOI: https://doi.org/10.1021/acs.est.3c01118
Pandelides Z., Conder J., Choi Y.J., Allmon E.B., Hoskins T.D., Lee L.S., Hoverman J.T., Sepulveda, M.S. 2023. A Critical Review of the Purdue Amphibian PFAS Ecotoxicity Research Studies (2017-2022): Identification of Screening Levels in Water and Other Useful Resources for Site-specific Ecological Risk Assessments. Environmental Toxicology and Chemistry. DOI: https://doi.org/10.1002/etc.5695
Choi Y.J., Lee L.S., Hoskins T.D., Modiri Gharehveran M., Sepulveda, M.S. 2023. Occurrence and implications of per and polyfluoroalkyl substances in animal feeds used in laboratory toxicity testing. Science of the Total Environment 867: 161583. https://doi.org/10.1016/j.scitotenv.2023.161583
Hoskins, T.D., Allmon E.B., Flynn R.W., Lee L.S., Choi Y.J., Hoverman J.T., Sepulveda, M.S. 2022. An environmentally relevant mixture of Perfluorooctanesulfonic acid and Perfluorohexanesulfonic acid does not conform to additivity in northern leopard frogs exposed through metamorphosis. Environmental Toxicology and Chemistry 41: 3007-3016. 10.1002/etc.5486
Flynn, R.W., Hoskins, T.D., Iacchetta M., de Perre, C., Lee, L.S., Sepúlveda, M.S., Hoverman, J.T. 2021. Dietary exposure and accumulation of per- and polyfluoroalkyl substances alters growth and reduces body condition of post-metamorphic salamanders. Science of the Total Environment 765: https://doi.org/10.1016/j.scitotenv.2020.142730
Foguth, R.M., Hoskins, T.D., Clark, G.C. ###, Nelson, M., Flynn, R.W., de Perre, C., Hoverman, J.T., Lee, L.S., Sepúlveda, M.S.S., Cannon, J.R. 2020. Single and mixture per- and polyfluoroalkyl substances accumulate in Northern leopard frog brains and produce complex neurotransmission alterations. Special Issue, “Leveraging Non-mammalian Models for Developmental Neurotoxicity Testing” in Neurotoxicology and Teratology 81: https://doi.org/10.1016/j.ntt.2020.106907
Hoskins, T.D., Dellapina, M. ###, Papoulias D.M., and M.D. Boone. 2019. Effects of larval atrazine exposure in mesocosms on Blanchard’s cricket frogs (Acris blanchardi) reared through overwintering and to reproductive age. Chemosphere 220: 845-857.
Hoskins, T.D. and M.D. Boone. 2018. Atrazine feminizes sex ratio in Blanchard’s cricket frogs (Acris blanchardi) at concentrations as low as 0.1 mg/L. Environmental Toxicology and Chemistry 37: 427-435.
Hoskins, T.D. and M.D. Boone. 2017. Variation in malathion sensitivity among populations of Blanchard’s cricket frogs (Acris blanchardi) and implications for risk assessment. Environmental Toxicology and Chemistry 36: 1917-1923.
Hoskins, T.D., Dellapina, M.###, and M.D. Boone. 2017. Short-term atrazine exposure at breeding has no impact on Blanchard’s cricket frog (Acris blanchardi) reproductive success. Environmental Toxicology and Chemistry 36:3284-3288.
Hoskins, T.D., Gantz, J.D., Chaffee, B.R., Arlinghaus, K., Wiebler, J., Hughes, M., and J.J. Fernandes. 2017. Effectiveness of a low-cost, graduate student-led intervention on study habits and performance in introductory biology. CBE: Life Sciences Education 16(3):ar43, DOI: 10.1187/cbe.17-01-0004.
Hoskins, T.D. and M.D. Boone. 2015. Evaluating the need for supplemental shallow water access for amphibians in mesocosms. Copeia 103: 369-377.