| Roth, T.L., 2024. That was then, this is now – over two decades of progress in rhinoceros reproductive science and technology. Theriogenology Wild 4:100065: 1-10, https://doi.org/10.1016/j.therwi.2023.100065
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| Roth, T.L.; Donelan, E.M.; Rispoli, L.A.; Reilly, T., 2023. Prolactin enzyme-linked immunosorbent assay for rhinoceros - Another tool for assessing reproductive function and dysfunction in this taxon. Theriogenology Wild 2 (26 May 2023) 100035: 1-7, with supplemental data https://doi.org/10.1016/j.therwi.2023.100035
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| Rispoli, L.A.; Roth, T.L., 2023. Validation of the iSperm for assessing rhinoceros Sperm. Theriogenology Wild 3 (100048): 1-6 - https://doi.org/10.1016/j.therwi.2023.100048
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| Roth, T.; Philpott, M.; Wojtusik, J., 2022. Rhinoceros serum labile plasma iron and associated redox potential: interspecific variation, sex bias, and iron overload disorder disconnect. Conservation Physiology 10 (1) coac025: 1-10, 5 figures, 1 table, https://doi:10./1093/conphys/coac025
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| Roth, T., 2022. New American Institute of Rhinoceros Science focused on saving rhinos. Connect (AZA) January: 11, 1 image
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| Miller, M.; Roth, T., 2022. Cincinnati Zoo shares expertise with Indonesia to save endangered rhinos. phys.org 31 October 2022: 1-4, 2 images https://phys.org/news/2022-10-cincinnati-zoo-expertise-indonesia-endangered.html
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| Wojtusik, J.; Curry, E.; Roth, T.L., 2021. Rhinoceros serum microRNAs: identification, characterization, and evaluation of potential iron overload biomarkers. Frontiers in Veterinary Science 8:711576: 1-9 - doi.org/10.3389/fvets.2021.711576
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