Publications
* indicates undergraduate under my mentorship
34) Shephard, A.M., L. Agnew, A. Herdtle, T.S. Mitchell, E. T, Borer, E. C. Snell-Rood. 2022. Traffic patterns, more than adjacent land use, influence element content o roadside forbs for insect pollinators. in press: Ecological Solutions and Evidence
33) Fargevieille, A., A.M. Reedy, A.F. Kahrl, T.S. Mitchell, A.M. Durso, D.M. Delaney, P.R. Pearson, R.M. Cox, D.A. Warner. 2022 Propagule size and sex ratio influence colonisation dynamics after introduction of a non-native lizard. Journal of Animal Ecology 91 (4), 845-857
32)Shephard, A.M., T.S. Mitchell, E.C. Snell-Rood. Monarch caterpillars are robust to combined exposure to the roadside micronutrients sodium and zinc. Conservation Physiology 9(1):coab061
31) Mitchell, T.S., B. Folt, J.M. Hall. 2021. Dumpsters and other anthropogenic structures as habitat for invasive African rock agama lizards in Florida. Biological Invasions 23:2689-2693
30) Warner, D.A., J.M. Hall, A. Fargevieille, A.C. Hulbert*, S. Tiatragul, J.E. Pruett, T.S. Mitchell. Dependence on a human structure influences the extinction of a non-native lizard population after a major environmental change. Biological Invasions 1-18 https://doi.org/10.1007/s10530-020-02405-3
29) Mitchell, T.S., L. Agnew, R. Meyer, K. L. Sikkink, K. S. Oberhauser, E. T. Borer, E.C. Snell-Rood. 2020. Traffic influences nutritional quality of roadside plants for monarch caterpillars. Science of the Total Environment 138045 doi.org/10.1016/j.scitotenv.2020.138045
28) Shephard, A.M., T.S. Mitchell, S. B. Henry, K. S. Oberhauser, M. E. Kobiela, E.C. Snell-Rood. 2020. Assessing zinc tolerance in two butterfly species: consequences for conservation in polluted environments. Insect Conservation and Diversity. doi.org/10.1111/icad.12404
27) *Hulbert, A.C, J.M. Hall, T.S. Mitchell, D.A. Warner. 2020. Use of human-made structures facilitates persistence of a non-native ectotherm. Biological Invasions. doi.org/10.1007/s10530-020-02236-2
26) Hall, J.M, T.S. Mitchell, C.J. Thawley, J.T. Stroud, D.A. Warner. 2020. Adaptive seasonal shift towards investment in fewer, larger offspring: Evidence from field and laboratory studies. In press: Journal of Animal Ecology doi.org/10.1111/1365-2656.13182
25) Fanter, C.E., Z. Lin, S.W. Keenan, F.J. Janzen, T.S. Mitchell, D.E. Warren. 2020. Development-specific transcriptomic profiling suggests new mechanisms for anoxic survival in the ventricle of overwintering turtles. In press: Journal of Experimental Biology https://doi.org/10.1242/jeb.213918
24) Warner, D.A., T.S. Mitchell, B.L. Bodensteiner, F.J. Janzen. 2020. Sex and incubation temperature independently affect embryonic development and offspring size in a turtle with temperature-dependent sex determination. In press: Physiological and Biochemical Zoology https://doi.org/10.1086/706786
23) Carter, A.L., R. Andrews, B.L. Bodensteiner, J.B. Iverson, C.L. Milne-Zelman, T.S. Mitchell, J.M. Refsnider, D.A. Warner, F.J Janzen. 2019. Breadth of the thermal response captures individual and geographic variation in temperature-dependent sex determination. Functional Ecology https://doi.org/10.1111/1365-2435.13410
22) Mitchell, T.S., A.M. Shephard, C.R. Kalinowski, M.E. Kobiela, E.C. Snell-Rood. 2019. Butterflies do not alter oviposition or larval foraging in response to anthropogenic increases in sodium. Animal Behaviour doi.org/10.1016/j.anbehav.2019.06.015
21) Janzen, F.J., D.M. Delaney, T.S. Mitchell, D.A. Warner. 2019 Do covariances between maternal behavior and embryonic physiology drive sex-ratio evolution under environmental sex determination? Journal of Heredity 110(4):411-421 doi.org/10.1093/jhered/esz021
20) Mitchell, T.S., and F.J Janzen. 2019. Substrate influences turtle nest temperature, incubation period, and offspring sex ratio in the field. Herpetologica 75(1):57-62 https://doi.org/10.1655/0018-0831-75.1.57
19) Bodensteiner, B. L., D.A. Warner, J. Iverson, C. Milne-Zelman, T.S. Mitchell, J.M. Refsnider and F.J. Janzen. 2019. Geographic variation in thermal sensitivity of early life traits in a widespread reptile. Ecology and Evolution https://doi.org/10.1002/ece3.4956
18) Mitchell, T.S., F.J. Janzen, and D.A. Warner. 2018. Quantifying the effects of embryonic phenotypic plasticity on adult phenotypes in reptiles: A review of current knowledge and major gaps. Journal of Experimental Zoology A. https://doi.org/10.1002/jez.2187
17) Mitchell, T.S., J.M. Hall, and D.A. Warner. 2018. Female investment in offspring size and number shifts seasonally in a lizard with single-egg clutches. Evolutionary Ecology https://doi.org/10.1007/s10682-018-9936-5
16) Hulbert A.C.*, T.S. Mitchell, J.M. Hall, C.M. Guiffre*, D.C. Douglas*, and D.A. Warner. 2017. The effects of incubation temperature and experimental design on heart rates of lizard embryos. Journal of Experimental Zoology A. 327 (7) 466-476 https://doi.org/10.1002/jez.2135
15) Warner, D.A., T.S. Mitchell, B.L Bodensteiner*, and F.J. Janzen 2017. The effect of hormone manipulations on sex ratios varies with environmental conditions in a turtle with temperature-dependent sex determination. Journal of Experimental Zoology A. 327 (4) 172-281 https://doi.org/10.1002/jez.2085
14) Mitchell, T.S., J.M. Refsnider, A. Sethuraman, D.A. Warner and F.J Janzen. 2017. Experimental assessment of winter conditions on turtle nesting phenology and behavior. Evolutionary Ecology Research. 18 (3) 271-280 http://evolutionary-ecology.com/abstracts/v18/3052.html
13) Mitchell, T.S., E.M. Myers, J.K. Tucker, and S.E. McGaugh. 2017. Righting ability in hatchling turtles does not predict survival during dispersal in the field. Biological Journal of the Linnean Society. 120 (3): 553-562. https://doi.org/10.1111/bij.12896
12) Voves, K.A.*, T.S. Mitchell and F.J. Janzen. 2016. Does natural visual camouflage reduce turtle nest predation? American Midland Naturalist 176:166-172 https://doi.org/10.1674/0003-0031-176.1.166
11) Telemeco, R.S., E.J. Gangloff, G.A. Cordero, T.S. Mitchell, B.L. Bodensteiner, K.G. Holden, S.M. Mitchell , R.L. Polich and F.J. Janzen. 2016. Reptile embryos lack the opportunity to thermoregulate by moving within the egg. American Naturalist 188:E13-E37 https://doi.org/10.1086/686628
10) Bodensteiner, B.L.*, T.S. Mitchell, J.T. Strickland, F.J. Janzen. 2015. Hydric conditions during incubation influence phenotypes of neonatal reptiles in the field. Functional Ecology 29:710-717 https://doi.org/10.1111/1365-2435.12382
9) Mitchell, T.S., J.A. Maciel* and F.J. Janzen. 2015. Maternal effects influence phenotypes and survival during early life stages in an aquatic turtle. Functional Ecology 29:268-276 https://doi.org/10.1111/1365-2435.12315
8) Mitchell, T.S., K.R. Rand*, and F.J. Janzen. 2014. Chrysemys picta. Predation. Herpetological Review 45:482-483
7) Mitchell, T.S., J.A. Maciel* and F.J. Janzen. 2013. Does sex-ratio selection influence nest-site choice in a reptile with temperature-dependent sex determination? Proceedings of the Royal Society of London B 280:20132460. [Highlighted in Science Editors’ Choice 342:910-911] https://doi.org/10.1098/rspb.2013.2460
6) Mitchell, T.S., D.A. Warner, and F.J. Janzen. 2013. Phenotypic and fitness consequences of maternal nest-site choice across multiple early life stages. Ecology 94:336-345.
https://doi.org/10.1890/12-0343.1
5) Warner, D.A., and T.S. Mitchell. 2013. Does maternal oviposition site influence offspring dispersal to suitable habitat? Oecologia 172:679-688. https://doi.org/10.1007/s00442-012-2533-3
4) Delaney, D.M., A.M. Reedy, T.S. Mitchell, A.M. Durso, K.P. Durso, A.J. Morrison, and D.A. Warner. 2013. Anolis sagrei (Brown Anole). Nest-site choice. Herpetological Review 44:314.
3) Durso, A.M., D.A. Warner, T.S. Mitchell, and A.M. Reedy. 2012. Ophisaurus compressus. Swimming. Herpetological Review 44:146.
2) Durso, A.M., D.A. Warner, T.S. Mitchell, and A.M. Reedy. 2011. Heterodon nasicus. Diet. Herpetological Review 42:439-440.
1) Refsnider, J.M., T.S. Mitchell, H.M. Streby, J.T. Strickland, D.A. Warner, and F.J. Janzen. 2011. A generalized method to determine detectability of rare and cryptic species using the ornate box turtle (Terrapene ornata) as a model. Wildlife Society Bulletin 35:93-100. https://doi.org/10.1002/wsb.14