Please contact me if you wish to read a PDF version of any of the below manuscripts.
Martin, L. B., Kernbach, M.E., Koller, K., Burkett-Cadena, N. D., Unnasch, T.R. (2021). Host stress hormones affect host, but not vector, infectiousness for West Nile virus. bioRxiv, 2021.2005.2020.444978.
Kernbach, M.E., Miller, C., Alaasam, V., Ferguson, S., Francis, C.D. (2021) An Introduction to the Effects of Light Pollution Across Diverse Natural Systems. Integrative and Comparative Biology, icab157.
Alaasam, V., Miller, C., Kernbach, M.E., Ferguson, S. (2021) Spectral Sensitivity to Nighttime Light Across Taxa. Integrative and Comparative Biology, icab156.
Kernbach, M.E., Martin, L.B., Unnasch, T.R., Hall, R.J., Jiang, R.H.Y., Francis, C.D. (2020) Light pollution affects West Nile virus exposure risk across Florida. Proc R Soc B Biol Sci., 288:20210253.
Kernbach, M.E., Cassone, V., Unnasch, T.R., Martin, L.B. (2020) Broad-spectrum light pollution suppresses melatonin and increases West Nile virus-induced mortality in House Sparrows. The Condor, duaa018.
Martin, L.B., Kernbach, M.E., Unnasch, T.R. (2019) Distinct effects of acute versus chronic corticosterone exposure on zebra finch competence for West Nile virus. Conserv Physiol, 7(1) coz094.
Kernbach, M.E., Newhouse, D.J., *Miller, J.M., Hall, R.J., Gibbons, J., Oberstaller, J., Selechnik, D., Jiang, R.H.Y., Unnasch, T.R., Balakrishnan, C., Martin, L.B. (2019) Light Pollution Increases West Nile Virus Competence in a Ubiquitous Passerine Reservoir Species. Proc R Soc B Biol Sci, 286(1907) 20191051.
Kernbach, M.E., Hall, R.J., Burkett-Cadena, N.D., Unnasch, T.R., Martin, L.B. (2018). Dim light at night: physiological effects and ecological consequences for infectious disease. Integrative and Comparative Biology, 58(5) 995-1007.
Kernbach, M.E., Ramsay, C., Rohr, J.R., Martin, L.B. (2018) Eco-Immunology: Past, Present, and Future. Encyclopedia of Ecology (Elsevier), 64-71.
Schoenle, L.A., Kernbach, M.E., Haussmann, M.F., Bonier, F., Moore, I.T. (2017) An experimental test of the physiological consequences of avian malaria infection. Journal of Animal Ecology, 86(6) 1483-1496.
Martin, L. B., Kernbach, M.E., Koller, K., Burkett-Cadena, N. D., Unnasch, T.R. (2021). Host stress hormones affect host, but not vector, infectiousness for West Nile virus. bioRxiv, 2021.2005.2020.444978.
Kernbach, M.E., Miller, C., Alaasam, V., Ferguson, S., Francis, C.D. (2021) An Introduction to the Effects of Light Pollution Across Diverse Natural Systems. Integrative and Comparative Biology, icab157.
Alaasam, V., Miller, C., Kernbach, M.E., Ferguson, S. (2021) Spectral Sensitivity to Nighttime Light Across Taxa. Integrative and Comparative Biology, icab156.
Kernbach, M.E., Martin, L.B., Unnasch, T.R., Hall, R.J., Jiang, R.H.Y., Francis, C.D. (2020) Light pollution affects West Nile virus exposure risk across Florida. Proc R Soc B Biol Sci., 288:20210253.
Kernbach, M.E., Cassone, V., Unnasch, T.R., Martin, L.B. (2020) Broad-spectrum light pollution suppresses melatonin and increases West Nile virus-induced mortality in House Sparrows. The Condor, duaa018.
Martin, L.B., Kernbach, M.E., Unnasch, T.R. (2019) Distinct effects of acute versus chronic corticosterone exposure on zebra finch competence for West Nile virus. Conserv Physiol, 7(1) coz094.
Kernbach, M.E., Newhouse, D.J., *Miller, J.M., Hall, R.J., Gibbons, J., Oberstaller, J., Selechnik, D., Jiang, R.H.Y., Unnasch, T.R., Balakrishnan, C., Martin, L.B. (2019) Light Pollution Increases West Nile Virus Competence in a Ubiquitous Passerine Reservoir Species. Proc R Soc B Biol Sci, 286(1907) 20191051.
Kernbach, M.E., Hall, R.J., Burkett-Cadena, N.D., Unnasch, T.R., Martin, L.B. (2018). Dim light at night: physiological effects and ecological consequences for infectious disease. Integrative and Comparative Biology, 58(5) 995-1007.
Kernbach, M.E., Ramsay, C., Rohr, J.R., Martin, L.B. (2018) Eco-Immunology: Past, Present, and Future. Encyclopedia of Ecology (Elsevier), 64-71.
Schoenle, L.A., Kernbach, M.E., Haussmann, M.F., Bonier, F., Moore, I.T. (2017) An experimental test of the physiological consequences of avian malaria infection. Journal of Animal Ecology, 86(6) 1483-1496.