MDDv1.10_Name,MDDv1.11_Name,Comment,Category,Reference
NA,Podogymnura_intermedia,recently described,de novo,"Balete, D. S., Heaney, L. R., Rickart, E. A., Quidlat, R. S., Rowsey, D. M., & Olson, L. E. (2023). A re-assessment of diversity among Philippine gymnures (Mammalia: Erinaceidae: Podogymnura), with a new species from eastern Mindanao. Zootaxa, 5228(3), 244-266."
NA,Pseudoromicia_mbamminkom,recently described,de novo,"Grunwald, A. L., Demos, T. C., Nguéagni, Y., Tchamba, M. N., Monadjem, A., Webala, P. W., ... & Ruedas, L. A. (2023). A review of bats of the genus Pseudoromicia (Chiroptera: Vespertilionidae) with the description of a new species. Systematics and Biodiversity, 21(1), 2156002."
NA,Cryptotis_woodmani,recently described,de novo,"Guevara, L. (2023). A new species of small-eared shrew (Soricidae, Cryptotis) from El Triunfo Biosphere Reserve, Chiapas, Mexico. Journal of Mammalogy, gyac125."
NA,Pseudoromicia_principis,recently described,de novo,"Juste, J., Torrent, L., Méndez-Rodríguez, A., Howard, K., García-Mudarra, J. L., Nogueras, J., & Ibáñez, C. (2023). A new Pipistrelle bat from the oceanic Island of Príncipe (Western Central Africa). Journal of Mammalogy."
NA,Neodon_namchabarwaensis,recently described,de novo,"Liu, S., Zhou, C., Meng, G., Wan, T., Tang, M., Yang, C., ... & Liu, S. (2022). Evolution and diversification of Mountain voles (Rodentia: Cricetidae). Communications Biology, 5(1), 1-12."
NA,Neodon_shergylaensis,recently described,de novo,"Liu, S., Zhou, C., Meng, G., Wan, T., Tang, M., Yang, C., ... & Liu, S. (2022). Evolution and diversification of Mountain voles (Rodentia: Cricetidae). Communications Biology, 5(1), 1-12."
NA,Neodon_liaoruii,recently described,de novo,"Liu, S., Zhou, C., Meng, G., Wan, T., Tang, M., Yang, C., ... & Liu, S. (2022). Evolution and diversification of Mountain voles (Rodentia: Cricetidae). Communications Biology, 5(1), 1-12."
NA,Neodon_bershulaensis,recently described,de novo,"Liu, S., Zhou, C., Meng, G., Wan, T., Tang, M., Yang, C., ... & Liu, S. (2022). Evolution and diversification of Mountain voles (Rodentia: Cricetidae). Communications Biology, 5(1), 1-12."
NA,Neodon_bomiensis,recently described,de novo,"Liu, S., Zhou, C., Meng, G., Wan, T., Tang, M., Yang, C., ... & Liu, S. (2022). Evolution and diversification of Mountain voles (Rodentia: Cricetidae). Communications Biology, 5(1), 1-12."
NA,Neodon_chayuensis,recently described,de novo,"Liu, S., Zhou, C., Meng, G., Wan, T., Tang, M., Yang, C., ... & Liu, S. (2022). Evolution and diversification of Mountain voles (Rodentia: Cricetidae). Communications Biology, 5(1), 1-12."
NA,Saguinus_kulina,recently described,de novo,"Lopes, G. P., Rohe, F., Bertuol, F., Polo, E., Lima, I. J., Valsecchi, J., ... & Hrbek, T. (2023). Taxonomic review of Saguinus mystax (Spix, 1823)(Primates, Callitrichidae), and description of a new species. PeerJ, 11, e14526."
NA,Metachirus_aritanai,recently described,de novo,"Miranda, C. L., Nunes, M. D. S., Fabrício Machado, A., Farias, I. P., Menezes, F. H., Ardente, N. C., ... & da Silva, M. N. F. (2023). A new species of jupati, genus Metachirus Burmeister 1854 (Didelphimorphia, Didelphidae) for the Brazilian Amazon. Mammalia, XX, XX-XX."
NA,Megalomys_camerhogne,recently described extinct species,de novo,"Mistretta, B. A., Giovas, C. M., Weksler, M., & Turvey, S. T. (2021). Extinct insular oryzomyine rice rats (Rodentia: Sigmodontinae) from the Grenada Bank, southern Caribbean. Zootaxa, 4951(3), 434-460."
NA,Myotis_barquezi,recently described,de novo,"Novaes, R. L. M., Cláudio, V. C., Díaz, M. M., Wilson, D. E., Weksler, M., & Moratelli, R. (2022). Argentinean Myotis (Chiroptera, Vespertilionidae), including the description of a new species from the Yungas. Vertebrate Zoology, 72, 1187-1216."
NA,Ctenomys_pulcer,recently described,de novo,"Verzi, D. H., De Santi, N. A., Olivares, A. I., Morgan, C. C., Basso, N. G., & Brook, F. (2023). A new species of the highly polytypic South American rodent Ctenomys increases the diversity of the magellanicus clade. Vertebrate Zoology, 73: 289-312."
Hylomys,Otohylomys,coined new genus Otohylomys,genus addition,"Bannikova, A. A., Lebedev, V. S., Abramov, A. V., & Rozhnov, V. V. (2014). Contrasting evolutionary history of hedgehogs and gymnures (Mammalia: Erinaceomorpha) as inferred from a multigene study. Biological Journal of the Linnean Society, 112(3), 499-519."
Rhogeessa,Baeodon,two species of Rhogeessa to Baeodon from Miller 1906,genus addition,"Hoofer, S. R., & Van Den Bussche, R. A. 2003. Molecular phylogenetics of the chiropteran family Vespertilionidae. Acta Chiropterologica, 5(Supplement), 1-63.|Volleth, M., Heller, K. G., & Fahr, J. (2006). Phylogenetic relationships of three “Nycticeiini” genera (Vespertilionidae, Chiroptera, Mammalia) as revealed by karyological analysis. Mammalian Biology, 71(1), 1-12.|Baird, A. B., Hillis, D. M., Patton, J. C., & Bickham, J. W. (2008). Evolutionary history of the genus Rhogeessa (Chiroptera: Vespertilionidae) as revealed by mitochondrial DNA sequences. Journal of Mammalogy, 89(3), 744-754.|Roehrs, Z. P., Lack, J. B., & Van Den Bussche, R. A. (2010). Tribal phylogenetic relationships within Vespertilioninae (Chiroptera: Vespertilionidae) based on mitochondrial and nuclear sequence data. Journal of Mammalogy, 91(5), 1073-1092.|Roehrs, Z. P., Lack, J. B., & Van Den Bussche, R. A. (2011). A molecular phylogenetic reevaluation of the tribe Nycticeiini (Chiroptera: Vespertilionidae). Acta Chiropterologica, 13(1), 17-31."
Neusticomys,Neusticomys,"five species to Daptomys from Anthony, 1929",genus addition,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Ictonyx,Poecilictis,one species of Ictonyx to Poecilictis from Thomas & Hinton 1920,genus addition,"Sato, J. J., Wolsan, M., Prevosti, F. J., D’Elía, G., Begg, C., Begg, K., ... & Suzuki, H. (2012). Evolutionary and biogeographic history of weasel-like carnivorans (Musteloidea). Molecular Phylogenetics and evolution, 63(3), 745-757."
Crossogale_hantu,Chimarrogale_hantu,moved back from Crossogale to Chimarrogale tentatively,genus change,"Abramov, A. V., Bannikova, A. A., Lebedev, V. S., & Rozhnov, V. V. (2017). Revision of Chimarrogale (Lipotyphla: Soricidae) from Vietnam with comments on taxonomy and biogeography of Asiatic water shrews. Zootaxa, 4232(2), 216-230.|Wilson D.E. & Mittermeier R.A. 2018. Handbook of the mammals of the world. Vol. 8. Insectivores, Colugos, and Sloths. Lynx Edicions, Barcelona."
Crossogale_phaeura,Chimarrogale_phaeura,moved back from Crossogale to Chimarrogale tentatively,genus change,"Abramov, A. V., Bannikova, A. A., Lebedev, V. S., & Rozhnov, V. V. (2017). Revision of Chimarrogale (Lipotyphla: Soricidae) from Vietnam with comments on taxonomy and biogeography of Asiatic water shrews. Zootaxa, 4232(2), 216-230.|Wilson D.E. & Mittermeier R.A. 2018. Handbook of the mammals of the world. Vol. 8. Insectivores, Colugos, and Sloths. Lynx Edicions, Barcelona."
Crossogale_sumatrana,Chimarrogale_sumatrana,moved back from Crossogale to Chimarrogale tentatively,genus change,"Abramov, A. V., Bannikova, A. A., Lebedev, V. S., & Rozhnov, V. V. (2017). Revision of Chimarrogale (Lipotyphla: Soricidae) from Vietnam with comments on taxonomy and biogeography of Asiatic water shrews. Zootaxa, 4232(2), 216-230.|Wilson D.E. & Mittermeier R.A. 2018. Handbook of the mammals of the world. Vol. 8. Insectivores, Colugos, and Sloths. Lynx Edicions, Barcelona."
Hylomys_megalotis,Otohylomys_megalotis,moved from Hylomys to the recently described Otohylomys,genus change,"Bannikova, A. A., Lebedev, V. S., Abramov, A. V., & Rozhnov, V. V. (2014). Contrasting evolutionary history of hedgehogs and gymnures (Mammalia: Erinaceomorpha) as inferred from a multigene study. Biological Journal of the Linnean Society, 112(3), 499-519."
Doryrhina_corynophyllus,Hipposideros_corynophyllus,moved back to Hipposideros because initial movement to Doryrhina based on supposed and untested relation to D. cyclops was premature,genus change,"Foley, N. M., Goodman, S. M., Whelan, C. V., Puechmaille, S. J., & Teeling, E. (2017). Towards navigating the Minotaur's labyrinth: cryptic diversity and taxonomic revision within the speciose genus Hipposideros (Hipposideridae). Acta Chiropterologica, 19(1), 1-18.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."
Doryrhina_muscina,Hipposideros_muscinus,moved back to Hipposideros because initial movement to Doryrhina based on supposed and untested relation to D. cyclops was premature,genus change,"Foley, N. M., Goodman, S. M., Whelan, C. V., Puechmaille, S. J., & Teeling, E. (2017). Towards navigating the Minotaur's labyrinth: cryptic diversity and taxonomic revision within the speciose genus Hipposideros (Hipposideridae). Acta Chiropterologica, 19(1), 1-18.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."
Doryrhina_semoni,Hipposideros_semoni,moved back to Hipposideros because initial movement to Doryrhina based on supposed and untested relation to D. cyclops was premature,genus change,"Foley, N. M., Goodman, S. M., Whelan, C. V., Puechmaille, S. J., & Teeling, E. (2017). Towards navigating the Minotaur's labyrinth: cryptic diversity and taxonomic revision within the speciose genus Hipposideros (Hipposideridae). Acta Chiropterologica, 19(1), 1-18.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."
Doryrhina_stenotis,Hipposideros_stenotis,moved back to Hipposideros because initial movement to Doryrhina based on supposed and untested relation to D. cyclops was premature,genus change,"Foley, N. M., Goodman, S. M., Whelan, C. V., Puechmaille, S. J., & Teeling, E. (2017). Towards navigating the Minotaur's labyrinth: cryptic diversity and taxonomic revision within the speciose genus Hipposideros (Hipposideridae). Acta Chiropterologica, 19(1), 1-18.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."
Doryrhina_wollastoni,Hipposideros_wollastoni,moved back to Hipposideros because initial movement to Doryrhina based on supposed and untested relation to D. cyclops was premature,genus change,"Foley, N. M., Goodman, S. M., Whelan, C. V., Puechmaille, S. J., & Teeling, E. (2017). Towards navigating the Minotaur's labyrinth: cryptic diversity and taxonomic revision within the speciose genus Hipposideros (Hipposideridae). Acta Chiropterologica, 19(1), 1-18.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."
Doryrhina_edwardshilli,Hipposideros_edwardshilli,moved back to Hipposideros because initial movement to Doryrhina based on supposed and untested relation to D. cyclops was premature,genus change,"Foley, N. M., Goodman, S. M., Whelan, C. V., Puechmaille, S. J., & Teeling, E. (2017). Towards navigating the Minotaur's labyrinth: cryptic diversity and taxonomic revision within the speciose genus Hipposideros (Hipposideridae). Acta Chiropterologica, 19(1), 1-18.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."
Aeorestes_cinereus,Lasiurus_cinereus,moved from Aeorestes to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696845"
Aeorestes_egregius,Lasiurus_egregius,moved from Aeorestes to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696846"
Aeorestes_semotus,Lasiurus_semotus,moved from Aeorestes to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696847"
Aeorestes_villosissimus,Lasiurus_villosissimus,moved from Aeorestes to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696848"
Dasypterus_ega,Lasiurus_ega,moved from Dasypterus to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696849"
Dasypterus_insularis,Lasiurus_insularis,moved from Dasypterus to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696850"
Dasypterus_intermedius,Lasiurus_intermedius,moved from Dasypterus to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696851"
Dasypterus_xanthinus,Lasiurus_xanthinus,moved from Dasypterus to Lasiurus based on a taxonomic decision published by the MDD and Batname Database,genus change,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696852"
Rhogeessa_alleni,Baeodon_alleni,moved from Rhogeessa to Baeodon,genus change,"Hoofer, S. R., & Van Den Bussche, R. A. 2003. Molecular phylogenetics of the chiropteran family Vespertilionidae. Acta Chiropterologica, 5(Supplement), 1-63.|Volleth, M., Heller, K. G., & Fahr, J. (2006). Phylogenetic relationships of three “Nycticeiini” genera (Vespertilionidae, Chiroptera, Mammalia) as revealed by karyological analysis. Mammalian Biology, 71(1), 1-12.|Baird, A. B., Hillis, D. M., Patton, J. C., & Bickham, J. W. (2008). Evolutionary history of the genus Rhogeessa (Chiroptera: Vespertilionidae) as revealed by mitochondrial DNA sequences. Journal of Mammalogy, 89(3), 744-754.|Roehrs, Z. P., Lack, J. B., & Van Den Bussche, R. A. (2010). Tribal phylogenetic relationships within Vespertilioninae (Chiroptera: Vespertilionidae) based on mitochondrial and nuclear sequence data. Journal of Mammalogy, 91(5), 1073-1092.|Roehrs, Z. P., Lack, J. B., & Van Den Bussche, R. A. (2011). A molecular phylogenetic reevaluation of the tribe Nycticeiini (Chiroptera: Vespertilionidae). Acta Chiropterologica, 13(1), 17-31."
Rhogeessa_gracilis,Baeodon_gracilis,moved from Rhogeessa to Baeodon,genus change,"Hoofer, S. R., & Van Den Bussche, R. A. 2003. Molecular phylogenetics of the chiropteran family Vespertilionidae. Acta Chiropterologica, 5(Supplement), 1-63.|Volleth, M., Heller, K. G., & Fahr, J. (2006). Phylogenetic relationships of three “Nycticeiini” genera (Vespertilionidae, Chiroptera, Mammalia) as revealed by karyological analysis. Mammalian Biology, 71(1), 1-12.|Baird, A. B., Hillis, D. M., Patton, J. C., & Bickham, J. W. (2008). Evolutionary history of the genus Rhogeessa (Chiroptera: Vespertilionidae) as revealed by mitochondrial DNA sequences. Journal of Mammalogy, 89(3), 744-754.|Roehrs, Z. P., Lack, J. B., & Van Den Bussche, R. A. (2010). Tribal phylogenetic relationships within Vespertilioninae (Chiroptera: Vespertilionidae) based on mitochondrial and nuclear sequence data. Journal of Mammalogy, 91(5), 1073-1092.|Roehrs, Z. P., Lack, J. B., & Van Den Bussche, R. A. (2011). A molecular phylogenetic reevaluation of the tribe Nycticeiini (Chiroptera: Vespertilionidae). Acta Chiropterologica, 13(1), 17-31."
Koopmania_concolor,Artibeus_concolor,moved form Koopmania to Artibeus,genus change,"Hoofer, S. R., Solari, S., Larsen, P. A., Bradley, R. D., & Baker, R. J. (2008). Phylogenetics of the fruit-eating bats (Phyllostomidae: Artibeina) inferred from mitochondrial DNA sequences. Occasional Papers of the Museum of Texas Tech University, 277, 1-15.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona.|York, H. A., Rodríguez-Herrera, B., Laval, R. K., Timm, R. M., & Lindsay, K. E. (2019). Field key to the bats of Costa Rica and Nicaragua. Journal of Mammalogy, 100(6), 1726-1749.|Turcios-Casco, M. A., Ávila-Palma, H. D., LaVal, R. К., Stevens, R. D., Ordoñez-Trejo, E. J., Soler-Orellana, J. A., & Ordoñez-Mazier, D. I. (2020). A systematic revision of the bats (Chiroptera) of Honduras: an updated checklist with corroboration of historical specimens and new records. Zoosystematics and Evolution, 96, 411.|"
Pediolagus_salinicola,Dolichotis_salinicola,moved back from Pediolagus to Dolichotis,genus change,"Madozzo-Jaén, M. C., Pérez, M. E., & Deschamps, C. M. (2021). The oldest species of Dolichotis (Rodentia, Hystricognathi) from the pliocene of Argentina: redescription and taxonomic status of “Orthomyctera” chapalmalense. Journal of Mammalian Evolution, 28(3), 995-1013."
Petropseudes_dahlii,Pseudochirops_dahlii,moved from Petropseudes to Pseudochirops,genus change,"Meredith, R. W., Westerman, M., & Springer, M. S. (2009). A phylogeny of Diprotodontia (Marsupialia) based on sequences for five nuclear genes. Molecular phylogenetics and Evolution, 51(3), 554-571.|Meredith, R. W., Mendoza, M. A., Roberts, K. K., Westerman, M., & Springer, M. S. (2010). A phylogeny and timescale for the evolution of Pseudocheiridae (Marsupialia: Diprotodontia) in Australia and New Guinea. Journal of Mammalian Evolution, 17, 75-99."
Grammomys_kuru,Thamnomys_kuru,moved from Grammomys to Thamnomys,genus change,"Mikula, O., Nicolas, V., Šumbera, R., Konečný, A., Denys, C., Verheyen, E., ... & Bryja, J. (2021). Nuclear phylogenomics, but not mitogenomics, resolves the most successful Late Miocene radiation of African mammals (Rodentia: Muridae: Arvicanthini). Molecular Phylogenetics and Evolution, 157, 107069."
Grammomys_poensis,Thamnomys_poensis,moved from Grammomys to Thamnomys,genus change,"Mikula, O., Nicolas, V., Šumbera, R., Konečný, A., Denys, C., Verheyen, E., ... & Bryja, J. (2021). Nuclear phylogenomics, but not mitogenomics, resolves the most successful Late Miocene radiation of African mammals (Rodentia: Muridae: Arvicanthini). Molecular Phylogenetics and Evolution, 157, 107069."
Suncus_ater,Palawanosorex_ater,moved from Suncus to Palawanosorex,genus change,"Nations, J. A., Giarla, T. C., Morni, M. A., Dee, J. W., Swanson, M. T., Hiller, A. E., ... & Esselstyn, J. A. (2022).  Molecular data from the holotype of the enigmatic Bornean Black Shrew, Suncus ater Medway, 1965 (Soricidae, Crocidurinae), place it in the genus Palawanosorex. ZooKeys, 1137, 17-31."
Catagonus_wagneri,Parachoerus_wagneri,moved from Catagonus to Parachoerus,genus change,"Parisi Dutra, R., Casali, D. D. M., Missagia, R. V., Gasparini, G. M., Perini, F. A., & Cozzuol, M. A. (2017). Phylogenetic systematics of peccaries (Tayassuidae: Artiodactyla) and a classification of South American tayassuids. Journal of Mammalian Evolution, 24, 345-358."
Neusticomys_ferreirai,Daptomys_ferreirai,moved from Neusticomys to Daptomys,genus change,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Neusticomys_mussoi,Daptomys_mussoi,moved from Neusticomys to Daptomys,genus change,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Neusticomys_oyapocki,Daptomys_oyapocki,moved from Neusticomys to Daptomys,genus change,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Neusticomys_peruviensis,Daptomys_peruviensis,moved from Neusticomys to Daptomys,genus change,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Neusticomys_venezuelae,Daptomys_venezuelae,moved from Neusticomys to Daptomys,genus change,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Chibchanomys_orcesi,Neusticomys_orcesi,moved from Chibchanomys to Neusticomys,genus change,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Ictonyx_libycus,Poecilictis_libyca,moved from Ictonyx to Poecilictis,genus change,"Sato, J. J., Wolsan, M., Prevosti, F. J., D’Elía, G., Begg, C., Begg, K., ... & Suzuki, H. (2012). Evolutionary and biogeographic history of weasel-like carnivorans (Musteloidea). Molecular Phylogenetics and evolution, 63(3), 745-757."
Dendromus_melanotis,Poemys_melanotis,moved from Dendromus to Poemys,genus change,"Voelker, G., Huntley, J. W., Bryja, J., Denys, C., Šumbera, R., Demos, T. C., ... & Peterhans, J. K. (2021). Molecular systematics and biogeographic history of the African climbing-mouse complex (Dendromus). Molecular Phylogenetics and Evolution, 161, 107166."
Sminthopsis_longicaudata,Antechinomys_longicaudatus,moved from Sminthopsis to Antechinomys,genus change,"Westerman, M., Umbrello, L., & Woolley, P. A. (2023). On the composition of Antechinomys (Marsupialia: Dasyuridae): how many species?. Australian Journal of Zoology, 70(3), 95-103."
Crossogale,Chimarrogale,all of genus Crossogale into Chimarrogale,genus lump,"Abramov, A. V., Bannikova, A. A., Lebedev, V. S., & Rozhnov, V. V. (2017). Revision of Chimarrogale (Lipotyphla: Soricidae) from Vietnam with comments on taxonomy and biogeography of Asiatic water shrews. Zootaxa, 4232(2), 216-230.|Wilson D.E. & Mittermeier R.A. 2018. Handbook of the mammals of the world. Vol. 8. Insectivores, Colugos, and Sloths. Lynx Edicions, Barcelona."
Aeorestes,Lasiurus,all of genus Aeorestes into Lasiurus,genus lump,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696848"
Dasypterus,Lasiurus,all of genus Dasypterus into Lasiurus,genus lump,"Francis, C. M., Simmons, N. B., Van Cakenberghe, V., Upham, N. S., & Burgin, C. J. (2023). On the taxonomy of Lasiurus. Zenodo, 1-11. DOI: https://doi.org/10.5281/zenodo.7696848"
Koopmania,Artibeus,monotypic genus Koopmania into Artibeus,genus lump,"Hoofer, S. R., Solari, S., Larsen, P. A., Bradley, R. D., & Baker, R. J. (2008). Phylogenetics of the fruit-eating bats (Phyllostomidae: Artibeina) inferred from mitochondrial DNA sequences. Occasional Papers of the Museum of Texas Tech University, 277, 1-15.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona.|York, H. A., Rodríguez-Herrera, B., Laval, R. K., Timm, R. M., & Lindsay, K. E. (2019). Field key to the bats of Costa Rica and Nicaragua. Journal of Mammalogy, 100(6), 1726-1749.|Turcios-Casco, M. A., Ávila-Palma, H. D., LaVal, R. К., Stevens, R. D., Ordoñez-Trejo, E. J., Soler-Orellana, J. A., & Ordoñez-Mazier, D. I. (2020). A systematic revision of the bats (Chiroptera) of Honduras: an updated checklist with corroboration of historical specimens and new records. Zoosystematics and Evolution, 96, 411.|"
Pediolagus,Dolichotis,monotypic genus Pediolagus into Dolichotis,genus lump,"Madozzo-Jaén, M. C., Pérez, M. E., & Deschamps, C. M. (2021). The oldest species of Dolichotis (Rodentia, Hystricognathi) from the pliocene of Argentina: redescription and taxonomic status of “Orthomyctera” chapalmalense. Journal of Mammalian Evolution, 28(3), 995-1013."
Petropseudes,Pseudochirops,monotypic genus Petropseudes into Pseudochirops,genus lump,"Meredith, R. W., Westerman, M., & Springer, M. S. (2009). A phylogeny of Diprotodontia (Marsupialia) based on sequences for five nuclear genes. Molecular phylogenetics and Evolution, 51(3), 554-571.|Meredith, R. W., Mendoza, M. A., Roberts, K. K., Westerman, M., & Springer, M. S. (2010). A phylogeny and timescale for the evolution of Pseudocheiridae (Marsupialia: Diprotodontia) in Australia and New Guinea. Journal of Mammalian Evolution, 17, 75-99."
Catagonus,Parachoerus,"monotypic genus Catagonus into Parachoerus from Rusconi, 1930",genus lump and addition,"Parisi Dutra, R., Casali, D. D. M., Missagia, R. V., Gasparini, G. M., Perini, F. A., & Cozzuol, M. A. (2017). Phylogenetic systematics of peccaries (Tayassuidae: Artiodactyla) and a classification of South American tayassuids. Journal of Mammalian Evolution, 24, 345-358."
Cebus_aequatorialis,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_brunneus,Cebus_olivaceus,tentativey lumped back into C. olivaceus given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_castaneus,Cebus_olivaceus,tentativey lumped back into C. olivaceus given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_cesarae,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_cuscinus,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_imitator,Cebus_capucinus,tentativey lumped back into C. capucinus given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_leucocephalus,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_malitiosus,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_unicolor,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_versicolor,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Cebus_yuracus,Cebus_albifrons,tentativey lumped back into C. albifrons given the confusion surrounding Cebus taxonomy and the limited data used to support its species status,lump,"Boubli, J. P., Rylands, A. B., Farias, I. P., Alfaro, M. E., & Alfaro, J. L. (2012). Cebus phylogenetic relationships: a preliminary reassessment of the diversity of the untufted capuchin monkeys. American Journal of Primatology, 74(4), 381-393.|Mittermeier R.A., Wilson D.E., Rylands A.B. 2013. Handbook of the mammals of the world. Vol. 3. Primates. Lynx Edicions.|Ruiz-García, M., Sanchez-Castillo, S., Castillo, M. I., Luengas, K., Ortega, J. M., Moreno, P., ... & Shostell, J. M. (2018). How many species, taxa, or lineages of Cebus albifrons (Platyrrhini, Primates) inhabit Ecuador? insights from mitogenomics. International Journal of Primatology, 39, 1068-1104."
Madoqua_hindei,Madoqua_cavendishi,lumped into M. cavendishi,lump,"Brotherton, P. N. M. 2013. Madoqua kirkii Kirk's Dik-dik. In: J. S. Kingdon and M. Hoffmann (eds), The Mammals of Africa, Bloomsbury, London, UK, pp. 327-333."
Murina_rongjiangensis,Murina_shiupuensis,tentatively lumped into M. shiupuensis because rongjiangensis is a nomen nudum,lump,"Chen, J., Liu, T., Deng, H., Xiao, N., & Zhou, J. A new species of Murina bats was discovered in Guizhou Province, China."
Piliocolobus_lulindicus,Piliocolobus_foai,lumped into P. foai tentatively,lump,"Groves, C.P. 2007. The taxonomic diversity of the Colobinae of Africa. Journal of Anthropological Sciences 85: 7-34.|Hart, J.A., Maisels, F. & Ting, N. 2020. Piliocolobus lulindicus. The IUCN Red List of Threatened Species 2020: e.T18262A96192471. https://dx.doi.org/10.2305/IUCN.UK.2020-1.RLTS.T18262A96192471.en. Downloaded on 11 August 2020."
Lemniscomys_bellieri,Lemniscomys_macculus,lumped into L. macculus,lump,"Hánová, A., Konečný, A., Nicolas, V., Denys, C., Granjon, L., Lavrenchenko, L. A., ... & Bryja, J. (2021). Multilocus phylogeny of African striped grass mice (Lemniscomys): stripe pattern only partly reflects evolutionary relationships. Molecular Phylogenetics and Evolution, 155, 107007."
Peromyscus_arcticus,Peromyscus_maniculatus,"although the Yukon population that arcticus was said to represent likely represents a species, arcticus does not apply to this population and is considered a synonym within the distribution of P. maniculatus",lump,"Lucid, M. K., & Cook, J. A. (2007). Cytochrome-b haplotypes suggest an undescribed Peromyscus species from the Yukon. Canadian Journal of Zoology, 85(8), 916-919.|Bradley, R. D., Francis, J. Q., Platt II, R. N., Soniat, T. J., Alvarez, D., & Lindsey, L. L. (2019). Mitochondrial DNA sequence data indicate evidence for multiple species within Peromyscus maniculatus. Museum of Texas Tech University.|Greenbaum, I. F., Honeycutt, R. L., & Chirhart, S. E. (2019). Taxonomy and phylogenetics of the Peromyscus maniculatus species group. From field to laboratory: a memorial volume in honor of Robert J. BaNer, 988-1001."
Anoura_aequatoris,Anoura_caudifer,lumped into A. caudifer,lump,"Mantilla-Meluk, H., & Baker, R. J. (2006). Systematics of small Anoura (Chiroptera: Phyllostomidae) from Colombia, with description of a new species. Museum of Texas Tech University, 261, 1-18.|Kunz, T. H. (2008). Taxonomic history of the genus Anoura (Chiroptera: Phyllostomidae) with insights into the challenges of morphological species delimitation. Acta Chiropterologica, 10(2), 257-269.|Griffiths, T.A., Gardner, A.L., 2008. Subfamily Glossophaginae Bonaparte, 1845. In: Gardner, A. (Ed.), Mammals of South America, Vol 1. Marsupials, Xenarthrans,Shrews, and Bats. Chicago: The University of Chicago Press, pp. 224–244.|Calderón-Acevedo, C. A., Bagley, J. C., & Muchhala, N. (2022). Genome-wide ultraconserved elements resolve phylogenetic relationships and biogeographic history among Neotropical leaf-nosed bats in the genus Anoura (Phyllostomidae). Molecular Phylogenetics and Evolution, 167, 107356."
Anoura_peruana,Anoura_geoffroyi,lumped into A. geoffroyi,lump,"Mantilla-Meluk, H., & Baker, R. J. (2006). Systematics of small Anoura (Chiroptera: Phyllostomidae) from Colombia, with description of a new species. Museum of Texas Tech University, 261, 1-18.|Kunz, T. H. (2008). Taxonomic history of the genus Anoura (Chiroptera: Phyllostomidae) with insights into the challenges of morphological species delimitation. Acta Chiropterologica, 10(2), 257-269.|Griffiths, T.A., Gardner, A.L., 2008. Subfamily Glossophaginae Bonaparte, 1845. In: Gardner, A. (Ed.), Mammals of South America, Vol 1. Marsupials, Xenarthrans,Shrews, and Bats. Chicago: The University of Chicago Press, pp. 224–244.|Calderón-Acevedo, C. A., Bagley, J. C., & Muchhala, N. (2022). Genome-wide ultraconserved elements resolve phylogenetic relationships and biogeographic history among Neotropical leaf-nosed bats in the genus Anoura (Phyllostomidae). Molecular Phylogenetics and Evolution, 167, 107356."
Miniopterus_blepotis,Miniopterus_fuliginosus,tentatively included under M. fuliginosus until a more adequate revision is conducted since blepotis was initially split based on very limited evidence,lump,"Miller-Butterworth, C. M., Murphy, W. J., O'Brien, S. J., Jacobs, D. S., Springer, M. S., & Teeling, E. C. (2007). A family matter: conclusive resolution of the taxonomic position of the long-fingered bats, Miniopterus. Molecular Biology and Evolution, 24(7), 1553-1561.|Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."
Mimetillus_thomasi,Mimetillus_moloneyi,tentatively included under M. moloneyi until further research is conducted,lump,"Monadjem, A., Taylor, P. J., Cotterill, F. P. D., & Schoeman, M. C. (2010). Bats of southern Africa: a biogeographic and taxonomic synthesis. University of the Witwatersrand, Johannesburg, South Africa.|Monadjem, A., Taylor, P. J., & Schoeman, M. C. (2020). Bats of southern and central Africa: a biogeographic and taxonomic synthesis. Wits University Press."
Bos_domesticus,Bos_javanicus,lumped into B. javanicus because very few works recognize domesticus as a distinct species,lump,NA
Bos_indicus,Bos_taurus,lumped into B. taurus to conform to most modern publications,lump,NA
Hylomyscus_kaimosae,Hylomyscus_stella,lumped into H. stella,lump,"Nicolas, V., Fabre, P. H., Bryja, J., Denys, C., Verheyen, E., Missoup, A. D., ... & Demos, T. (2020). The phylogeny of the African wood mice (Muridae, Hylomyscus) based on complete mitochondrial genomes and five nuclear genes reveals their evolutionary history and undescribed diversity. Molecular phylogenetics and evolution, 144, 106703."
Sciurus_gilvigularis,Sciurus_aestuans,lumped into S. aestuans,lump,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Sciurus_flammifer,Sciurus_igniventris,lumped into S. igniventris,lump,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Sciurus_sanborni,Sciurus_ignitus,lumped into S. ignitus,lump,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Ctenomys_famosus,Ctenomys_coludo,lumped into C. coludo,lump,"Sánchez, R. T., Tomasco, I. H., Díaz, M. M., & Barquez, R. M. (2023). Review of three neglected species of Ctenomys (Rodentia: Ctenomyidae) from Argentina. Journal of Mammalogy, gyad001."
Microcebus_mittermeieri,Microcebus_lehilahytsara,lumped inot M. lehilahytsara,lump,"Schüßler, D., Blanco, M. B., Salmona, J., Poelstra, J., Andriambeloson, J. B., Miller, A., ... & Louis Jr, E. E. (2020). Ecology and morphology of mouse lemurs (Microcebus spp.) in a hotspot of microendemism in northeastern Madagascar, with the description of a new species. American Journal of Primatology, 82(9), e23180."
Myotis_browni,Myotis_muricola,tentatively lumped into M. muricola until further research is conducted,lump,"Zhang, Z., Tan, X., Sun, K., Liu, S., Xu, L., & Feng, J. (2009). Molecular systematics of the Chinese Myotis (Chiroptera, Vespertilionidae) inferred from cytochrome-b sequences. Mammalia, 73(4), 323-330."
Hylaeamys_laticeps,Hylaeamys_seuanezi,"name changed because the name laticeps is now considered a synonym of H. megacephalus, making seuanezi the oldest available name for this species",name change,"Brennand, P. G., Langguth, A., & Percequillo, A. R. (2013). The genus Hylaeamys Weksler, Percequillo, and Voss 2006 (Rodentia: Cricetidae: Sigmodontinae) in the Brazilian Atlantic Forest: geographic variation and species definition. Journal of Mammalogy, 94(6), 1346-1363."
Genetta_maculata,Genetta_fieldiana,name changed from maculata to fieldiana because maculata is preoccupied,name change,"Gaubert, P., Tranier, M., Veron, G., Kock, D., Dunham, A. E., Taylor, P. J., ... & Wozencraft, W. C. (2003). Viverra maculata Gray, 1830 (currently Genetta maculata; Mammalia, Carnivora): proposed conservation of the specific name. Bulletin of Zoological Nomenclature, 60(1), 45-47.|Grubb, P. 2004. Comment on the proposed conservation of Viverra maculata Gray, 1830 (currently Genetta maculata; Mammalia, Carnivora). Bulletin of Zoological Nomenclature 61(2):119-122.|International Commission on Zoological Nomenclature. 2007. Opinion 2183 (Case 3204). Viverra maculata Gray, 1830 (currently Genetta maculata; Mammalia, Carnivora): specific name not conserved. Bulletin of Zoological Nomenclature 64(3):205-206."
Chionomys_syriacus,Chionomys_nivalis,"although syriacus has priority, an ICZN case is being put in to retain nivalis as the specific epithet for this species given that the change will cause considerable taxonomic instability, so nivalis is retained here for now",name change,"Kryštufek, B., Shenbrot, G., & Janžekovič, F. (2021). Long-standing taxonomic confusion over the identity of Hypudaeus syriacus Brants, 1827, at last resolved. Mammalia, 85(6), 603-611.|Kryštufek, B., & Shenbrot, G. (2022). Voles and Lemmings (Arvicolinae) of the Palaearctic Region. University of Maribor Press, Maribor.|International Commission on Zoological Nomenclature. (2021). Notice of New Applications to the Commission (Case 3858–3862). The Bulletin of Zoological Nomenclature, 78(3), 166-166."
Crocidura_dongyangjiangensis,Crocidura_huangshanensis,name changed because huangshanensis has priority over dongyangjiangensis,name change,NA
Lepus_victoriae,Lepus_microtis,epithet changed from victoriae to microtis because microtis has priority over victoriae and is not a nomen nudum as previously expected,name change,NA
Makalata_obscura,NA,"removed, as it is now generally considered a nomen dubium",removed,"Pereira, A. L., Malcher, S. M., Nagamachi, C. Y., de Souza, A. C. P., & Pieczarka, J. C. (2020). Karyotypic diversity within the genus Makalata (Echimyidae: Echimyinae) of Brazilian Amazon: Chromosomal evidence for multiple species. Plos one, 15(7), e0235788.|Miranda, C. L., Nunes, M. D. S., Farias, I. P., Silva, M. N. F. D., Rossi, R. V., Eler, E., ... & Pieczarka, J. C. (2021). A molecular and chromosomic meta‐analysis approach and its implications for the taxonomy of the genus Makalata Husson, 1978 (Rodentia, Echimyidae) including an amended diagnosis for M. macrura (Wagner, 1842). Journal of Zoological Systematics and Evolutionary Research, 59(8), 2387-2409.|Pieczarka, J. C., Nagamachi, C. Y., Oliveira, T. G. D., Silva, R. D. F. D., Feldberg, E., Eler, E. S., ... & Miranda, C. L. (2021). A molecular and chromosomic meta-analysis approach and its implications for the taxonomy of the genus Makalata Husson, 1978 (Rodentia, Echimyidae) including an amended diagnosis for M. macrura (Wagner, 1842). Volume 59, Edição 8, Págs 2387-2409."
Myomyscus_verreauxii,Myomyscus_verreauxi,spelling changed to match original corrected spelling in original description,spelling change,"Grubb, P. (2004). Controversial scientific names of African mammals. African Zoology, 39(1), 91-109."
Carollia_brevicaudum,Carollia_brevicauda,spelling changed since original description spelling was an incorrect original spelling due to a printer error,spelling change,NA
Sicista_tianshanica,Sicista_tianschanica,spelling changed to match spelling in original description,spelling change,NA
Ovis_gmelini,Ovis_gmelinii,spelling changed to match original description,spelling change,NA
Lycalopex_griseus,Lycalopex_grisea,specific epithet changed to match generic gender,spelling change,NA
Lycalopex_gymnocercus,Lycalopex_gymnocerca,specific epithet changed to match generic gender,spelling change,NA
Lycalopex_vetulus,Lycalopex_vetula,specific epithet changed to match generic gender,spelling change,NA
Urva_vitticolla,Urva_vitticollis,specific epithet changed to match generic gender,spelling change,NA
Murexia_melanurus,Murexia_melanura,spelling changed to match generic gender,spelling change,NA
Thylogale_browni,Thylogale_brownii,spelling changed to match original description,spelling change,NA
Echinosorex_gymnurus,Echinosorex_gymnura,spelling changed to match original description because it is treated as a noun in apposition,spelling change,NA
Crocidura_tarfayensis,Crocidura_tarfayaensis,spelling changed to match original description,spelling change,NA
Sorex_monticola,Sorex_monticolus,spelling changed to match original description,spelling change,NA
Avahi_ramanantsoavanai,Avahi_ramanantsoavani,spelling changed to match original description,spelling change,NA
Cercartetus_nanus,Cercartetus_nana,"name changed to match original description because 'nana' is considered a noun in apposition rather than an adjective, which doesn't change to match the generic gender",spelling change,NA
Mazama_nana,Mazama_nanus,"name changed to match original description because 'nanus' is considered a noun in apposition rather than an adjective, which doesn't change to match the generic gender",spelling change,NA
Microperoryctes_murina,Microperoryctes_murinus,spelling changed for gender agreement with genus,spelling change,NA
Peroryctes_raffrayana,Peroryctes_raffrayanus,spelling changed for gender agreement with genus,spelling change,NA
Phataginus_tetradactyla,Phataginus_tetradactylus,spelling changed for gender agreement with genus,spelling change,NA
Hipposideros_swinhoei,Hipposideros_swinhoii,spelling changed to match original description,spelling change,NA
Macronycteris_vittatus,Macronycteris_vittata,spelling changed to match the generic gender,spelling change,NA
Pteropus_gilliardorum,Pteropus_gilliardi,spelling changed to match original description,spelling change,NA
Tomopeas_ravus,Tomopeas_ravum,spelling changed to match generic gender,spelling change,NA
Myoictis_wavicus,Myoictis_wavica,spelling changed to match generic gender,spelling change,NA
Caluromysiops_irrupta,Caluromysiops_irruptus,spelling changed to match generic gender,spelling change,NA
Spermophilus_alashanicus,Spermophilus_alaschanicus,spelling changed to match original description,spelling change,NA
Oxymycterus_caparoae,Oxymycterus_caparaoe,spelling changed to match original description,spelling change,NA
Uromys_neobritannicus,Uromys_neobrittanicus,specific epithet spelling changed to match the original description,spelling change,NA
Hydromys_neobritannicus,Hydromys_neobrittanicus,specific epithet spelling changed to match the original description,spelling change,NA
Desmalopex_leucopterus,Desmalopex_leucoptera,epithet changed to match generic gender,spelling change,NA
Desmalopex_microleucopterus,Desmalopex_microleucoptera,epithet changed to match generic gender,spelling change,NA
Stenonycteris_lanosus,Stenonycteris_lanosa,epithet changed to match generic gender,spelling change,NA
Styloctenium_mindorensis,Styloctenium_mindorense,epithet changed to match generic gender,spelling change,NA
Pteropus_vetula,Pteropus_vetulus,"the specific epithet was originally spelt 'vetula' and is a noun in apposition, thus, the name shouldn't change to match the generic gender; however, the spelling 'vetulus' has been used for most of the taxonomic history of this species (with almost no publications using 'vetula') and is considered in prevailing use as a justified emendation here",spelling change,NA
Chrysospalax_villosa,Chrysospalax_villosus,epithet changed to match generic gender,spelling change,NA
Gardnerycteris_crenulatum,Gardnerycteris_crenulata,epithet changed to match generic gender,spelling change,NA
Crocidura_greenwoodae,Crocidura_greenwoodi,spelling changed to match original description,spelling change,NA
Nyctimene_varius,Nyctimene_varia,epithet changed to match generic gender,spelling change,NA
Piliocolobus_waldronae,Piliocolobus_waldroni,spelling changed to match original description,spelling change,NA
Vampyriscus_nymphaea,Vampyriscus_nymphaeus,epithet changed to match generic gender,spelling change,NA
Lepilemur_ahmansonorum,Lepilemur_ahmansoni,spelling changed to match original description,spelling change,NA
Lepilemur_grewcockorum,Lepilemur_grewcocki,spelling changed to match original description,spelling change,NA
Lepilemur_hubbardorum,Lepilemur_hubbardi,spelling changed to match original description,spelling change,NA
Lepilemur_jamesorum,Lepilemur_jamesi,spelling changed to match original description,spelling change,NA
Lepilemur_wrightae,Lepilemur_wrighti,spelling changed to match original description,spelling change,NA
Marmosa_waterhousii,Marmosa_waterhousei,"spelling changed to 'waterhousei', which is a emendation in prevailing use, making it justified",spelling change,"Voss, R.S. 2022. An annotated checklist of Recent opossums (Mammalia: Didelphidae). Bulletin of the American Museum of Natural History 455:1-74."
Neoromicia_anchieta,Neoromicia_anchietae,"previously included populations now attributed to N. hlandzeni; moved from Hypsugo to Neoromicia; sometimes spelt 'anchieta', but 'anchietae' is considered a justified emendation and is retained despited not matching the original description (see Kock, 2001 and Grubb, 2004)",spelling change,"Kock, D. 2001. Rousettus aegyptiacus (E. Geoffroy St. Hilaire, 1810) and Pipistrellus anchietae (Seabra, 1900), justified emendations of original spellings. Acta Chiropterologica 3(2):245-256.|Grubb, P. 2004. Controversial scientific names of African mammals. African Zoology 39(1):91-109.|Fasel, N. J., Mamba, M. L., & Monadjem, A. (2020). Penis morphology facilitates identification of cryptic African bat species. Journal of Mammalogy, 101(5), 1392-1399.|Monadjem, A., Demos, T. C., Dalton, D. L., Webala, P. W., Musila, S., Kerbis Peterhans, J. C., & Patterson, B. D. (2020). A revision of the pipistrelle-like bats (Mammali: Chiroptera: Vespertilionidae) in East Africa with the description of new genera and species. Zoological Journal of the Linnean Society, zlaa087.|Taylor, P. J., Strydom, E., Richards, L., Markotter, W., Toussaint, D. C., Kearney, T., ... & Monadjem, A. (2022). Integrative taxonomic analysis of new collections from the central Angolan highlands resolves the taxonomy of African pipistrelloid bats on a continental scale. Zoological Journal of the Linnean Society, zlac071."
Sousa_sahulensis,Sousa_sahulensis,"changed spelling of common name from ""Austalian Humpback Dolphin"" to ""Australian Humpback Dolphin""",spelling change of common name,NA
Lemmus_lemmus,Lemmus_amurensis,split from L. lemmus,split,"Abramson, N., Petrova, T., & Dokuchaev, N. (2022). Analysis of “historical” DNA of museum samples resolve taxonomic, nomenclature and biogeography issues: case study of true lemmings. Biological Communications, 67(4), 340-348."
Lemmus_lemmus,Lemmus_sibiricus,split from L. lemmus,split,"Abramson, N., Petrova, T., & Dokuchaev, N. (2022). Analysis of “historical” DNA of museum samples resolve taxonomic, nomenclature and biogeography issues: case study of true lemmings. Biological Communications, 67(4), 340-348."
Lemmus_lemmus,Lemmus_novosibiricus,"split from L. lemmus under the name novosibiricus, although Abramson et al., 2022 used bungei, which is considered a synonym of L. sibiricus by Kryštufek and Shenbrot, 2023",split,"Abramson, N., Petrova, T., & Dokuchaev, N. (2022). Analysis of “historical” DNA of museum samples resolve taxonomic, nomenclature and biogeography issues: case study of true lemmings. Biological Communications, 67(4), 340-348.|Kryštufek, B., & Shenbrot, G. I. (2023). The name-bearing type is essential for the objective identification of a taxonomic name: the message from the lectotypification of Lemmus obensis bungei. Mammalia, X(XX), XX-XX."
Reithrodontomys_sumichrasti,Reithrodontomys_australis,split from R. sumichrasti,split,"Arellano, E., Almendra, A. L., Martínez-Borrego, D., González-Cózatl, F. X., & Rogers, D. S. (2023). Revisiting species delimitation within Reithrodontomys sumichrasti (Rodentia: Cricetidae) using molecular and ecological evidence. Therya, 14(1), 161-179."
Reithrodontomys_sumichrasti,Reithrodontomys_nerterus,split from R. sumichrasti,split,"Arellano, E., Almendra, A. L., Martínez-Borrego, D., González-Cózatl, F. X., & Rogers, D. S. (2023). Revisiting species delimitation within Reithrodontomys sumichrasti (Rodentia: Cricetidae) using molecular and ecological evidence. Therya, 14(1), 161-179."
Podogymnura_truei,Podogymnura_minima,split from P. truei,split,"Balete, D. S., Heaney, L. R., Rickart, E. A., Quidlat, R. S., Rowsey, D. M., & Olson, L. E. (2023). A re-assessment of diversity among Philippine gymnures (Mammalia: Erinaceidae: Podogymnura), with a new species from eastern Mindanao. Zootaxa, 5228(3), 244-266."
Rhinolophus_hipposideros,Rhinolophus_midas,split from R. hipposideros,split,"Benda, P., Uvizl, M., Vallo, P., Reiter, A., & Uhrin, M. (2022). A Revision of the Rhinolophus hipposideros group (Chiroptera: Rhinolophidae) with Definition of an Additional Species from the Middle East. Acta Chiropterologica, 24(2), 269-298."
Xanthonycticebus_pygmaeus,Xanthonycticebus_intermedius,split from X. pygmaeus,split,"Blair, M. E., Cao, G. T., López-Nandam, E. H., Veronese-Paniagua, D. A., Birchette, M. G., Kenyon, M., ... & Le, M. D. (2023). Molecular Phylogenetic Relationships and Unveiling Novel Genetic Diversity among Slow and Pygmy Lorises, including Resurrection of Xanthonycticebus intermedius. Genes, 14(3), 643."
Dobsonia_moluccensis,Dobsonia_magna,tentatively split from D. moluccensis because of the taxonomic uncertainty associated with the two taxa,split,"Byrnes, D.G.P. 2005. Evolution among the barebacked fruit bats, Dobsonia (Chiroptera, Pteropodidae). Unpublished Ph.D. dissertation. University of Wisconsin, Madison.|Giannini, N.P. 2019. Pteropodidae. In D.E. Wilson and R. Mittermeier (editors), Handbook of the Mammals of the World. 9. Bats: 16–61. Barcelona: Lynx Edicions."
Oryzomys_couesi,Oryzomys_peninsulae,split from O. couesi,split,"Carleton, M. D., & Arroyo-Cabrales, J. (2009). Review of the Oryzomys couesi complex (Rodentia: Cricetidae: Sigmodontinae) in western Mexico. Bulletin of the American Museum of Natural History, 331, 94-127."
Peromyscus_eremicus,Peromyscus_avius,split from P. eremicus,split,"Cornejo-Latorre, C., Cortés-Calva, P., & Álvarez-Castañeda, S. T. (2017). The evolutionary history of the subgenus Haplomylomys (Cricetidae: Peromyscus). Journal of Mammalogy, 98(6), 1627-1640."
Scotophilus_trujilloi,Scotophilus_borbonicus,"tentatively split back out of S. trujilloi, where it was considered a nomen dubium; this seems premature and if the species is synonymous with S. trujilloi, borbonicus should be considered the senior name",split,"Goodman, S. M., Fratpietro, S., & Tortosa, P. (2020). Insight into the Identity and Origin of Scotophilus borbonicus (E. Geoffroy, 1803). Acta Chiropterologica, 22(1), 41-47."
Saguinus_imperator,Saguinus_subgrisescens,split from S. imperator,split,"Gregorin, R., Athaydes, D., dos Santos-Júnior, J. E., & Ayoub, T. B. (2023). Taxonomic status of Tamarinus imperator subgrisescens (Lönnberg, 1940)(Cebidae, Callitrichinae). Papéis Avulsos de Zoologia, 63, 1-14."
Lophocebus_albigena,Lophocebus_johnstoni,"tentatively split from L. albigena, although some authorities retain the species as a subspecies",split,"Groves, C. P. (2007). The endemic Uganda mangabey, Lophocebus ugandae, and other members of the albigena-group (Lophocebus). Primate Conservation, 22(1), 123-128.|Maisels, F., Hart, J. & Laudisoit, A. 2020. Lophocebus aterrimus (amended version of 2019 assessment). The IUCN Red List of Threatened Species 2020: e.T12310A166607638. https://dx.doi.org/10.2305/IUCN.UK.2020-1.RLTS.T12310A166607638.en. Downloaded on 15 August 2020."
Lophocebus_aterrimus,Lophocebus_opdenboschi,"tentatively split from L. aterrimus, although some authorities retain the species as a subspecies",split,"Groves, C. P. (2007). The endemic Uganda mangabey, Lophocebus ugandae, and other members of the albigena-group (Lophocebus). Primate Conservation, 22(1), 123-128.|Maisels, F., Hart, J. & Laudisoit, A. 2020. Lophocebus aterrimus (amended version of 2019 assessment). The IUCN Red List of Threatened Species 2020: e.T12310A166607638. https://dx.doi.org/10.2305/IUCN.UK.2020-1.RLTS.T12310A166607638.en. Downloaded on 15 August 2020."
Lophocebus_albigena,Lophocebus_osmani,"tentatively split from L. albigena, although some authorities retain the species as a subspecies",split,"Groves, C. P. (2007). The endemic Uganda mangabey, Lophocebus ugandae, and other members of the albigena-group (Lophocebus). Primate Conservation, 22(1), 123-128.|Maisels, F., Hart, J. & Laudisoit, A. 2020. Lophocebus aterrimus (amended version of 2019 assessment). The IUCN Red List of Threatened Species 2020: e.T12310A166607638. https://dx.doi.org/10.2305/IUCN.UK.2020-1.RLTS.T12310A166607638.en. Downloaded on 15 August 2020."
Lophocebus_albigena,Lophocebus_ugandae,"tentatively split from L. albigena, although some authorities retain the species as a subspecies",split,"Groves, C. P. (2007). The endemic Uganda mangabey, Lophocebus ugandae, and other members of the albigena-group (Lophocebus). Primate Conservation, 22(1), 123-128.|Maisels, F., Hart, J. & Laudisoit, A. 2020. Lophocebus aterrimus (amended version of 2019 assessment). The IUCN Red List of Threatened Species 2020: e.T12310A166607638. https://dx.doi.org/10.2305/IUCN.UK.2020-1.RLTS.T12310A166607638.en. Downloaded on 15 August 2020."
Myotis_macropus,Myotis_australis,tentatively split from M. macropus as no recent revision has provided data supporting the inclusion of M. australis under any other species,split,"Jackson, S. M., & Groves, C. (2015). Taxonomy of Australian mammals. CSIRO Publishing, Austalia, Clayton."
Eudorcas_rufifrons,Eudorcas_rufina,"re-added back to the listing tentatively (extinct species), although it is likely to represent a synonym of E. rufifrons in the long run",split,"Kingdon, J. and Hoffmann, M. 2013. Eudorcas tilonura. In: J. Kingdon and M. Hoffmann (eds), The Mammals of Africa, pp. 359. Bloomsbury, London, UK."
Nesonycteris_fardoulisi,Nesonycteris_maccoyi,split from N. fardoulisi,split,"Lavery, T. H., DeCicco, L. H., Olson, K. V., Holland, P. S., & Moyle, R. G. (2023). Phylogeography of Solomon Islands blossom bats reflects oceanic divides and Pleistocene connections. Journal of Biogeography, 00, 1-12."
Nesonycteris_fardoulisi,Nesonycteris_mengermani,split from N. fardoulisi,split,"Lavery, T. H., DeCicco, L. H., Olson, K. V., Holland, P. S., & Moyle, R. G. (2023). Phylogeography of Solomon Islands blossom bats reflects oceanic divides and Pleistocene connections. Journal of Biogeography, 00, 1-12."
Saguinus_mystax,Saguinus_pileatus,split from S. mystax,split,"Lopes, G. P., Rohe, F., Bertuol, F., Polo, E., Lima, I. J., Valsecchi, J., ... & Hrbek, T. (2023). Taxonomic review of Saguinus mystax (Spix, 1823)(Primates, Callitrichidae), and description of a new species. PeerJ, 11, e14526."
Petaurus_notatus,Petaurus_papuanus,split form P. notatus tentatively,split,"Malekian, M., Cooper, S. J., Norman, J. A., Christidis, L., & Carthew, S. M. (2010). Molecular systematics and evolutionary origins of the genus Petaurus (Marsupialia: Petauridae) in Australia and New Guinea. Molecular Phylogenetics and Evolution, 54(1), 122-135.|Cremona, T., Baker, A. M., Cooper, S. J., Montague-Drake, R., Stobo-Wilson, A. M., & Carthew, S. M. (2021). Integrative taxonomic investigation of Petaurus breviceps (Marsupialia: Petauridae) reveals three distinct species. Zoological Journal of the Linnean Society, 191(2), 503-527."
Rhinolophus_sinicus,Rhinolophus_septentrionalis,split from R. sinicus,split,"Mao, X., Tsagkogeorga, G., Bailey, S. E., & Rossiter, S. J. (2017). Genomics of introgression in the Chinese horseshoe bat (Rhinolophus sinicus) revealed by transcriptome sequencing. Biological Journal of the Linnean Society, 121(3), 698-710.|Mao, X., Tsagkogeorga, G., Thong, V. D., & Rossiter, S. J. (2019). Resolving evolutionary relationships among six closely related taxa of the horseshoe bats (Rhinolophus) with targeted resequencing data. Molecular phylogenetics and evolution, 139, 106551."
Microsciurus_flaviventer,Microsciurus_sabanillae,split from M. flaviventer,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Microsciurus_flaviventer,Microsciurus_simonsi,split from M. flaviventer,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Microsciurus_flaviventer,Microsciurus_similis,split from M. flaviventer,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Microsciurus_flaviventer,Microsciurus_otinus,split from M. flaviventer,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Microsciurus_mimulus,Microsciurus_boquetensis,split from M. mimulus,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Microsciurus_mimulus,Microsciurus_isthmius,split from M. mimulus,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Sciurus_aestuans,Sciurus_brasiliensis,split from S. aestuans,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Sciurus_stramineus,Sciurus_nebouxii,split from S. stramineus,split,"Patton, J. L., Pardiñas, U. F., & D'Elía, G. (2015). Mammals of South America, Volume 2: Rodents (Vol. 2). University of Chicago Press.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Museomics of tree squirrels: A dense taxon sampling of mitogenomes reveals hidden diversity, phenotypic convergence, and the need of a taxonomic overhaul. BMC Evolutionary Biology, 20, 1-77.|de Abreu-Jr, E. F., Pavan, S. E., Tsuchiya, M. T., Wilson, D. E., Percequillo, A. R., & Maldonado, J. E. (2020). Spatiotemporal diversification of tree squirrels: is the South American invasion and speciation really that recent and fast?. Frontiers in Ecology and Evolution, 8, 230."
Peromyscus_totontepecus,Peromyscus_angelensis,split from P. totontepecus,split,"Pérez-Montes, L. E., Álvarez-Castañeda, S. T., & Lorenzo, C. (2022). Current status of the Peromyscus mexicanus complex in Oaxaca, México. Therya, 13(3), 85-98."
Sylvilagus_floridanus,Sylvilagus_yucatanicus,split from S. floridanus,split,"Ruedas, L. A., López, L. I., & Mora, J. M. (2023). A propaedeutic to the taxonomy of the Eastern cottontail rabbit (Lagomorpha: Leporidae: Sylvilagus floridanus) from Central America. Therya, 14(1), 99-119."
Sylvilagus_floridanus,Sylvilagus_hondurensis,split from S. floridanus,split,"Ruedas, L. A., López, L. I., & Mora, J. M. (2023). A propaedeutic to the taxonomy of the Eastern cottontail rabbit (Lagomorpha: Leporidae: Sylvilagus floridanus) from Central America. Therya, 14(1), 99-119."
Ichthyomys_stolzmanni,Ichthyomys_orientalis,split from I. stolzmanni,split,"Salazar-Bravo, J., Tinoco, N., Zeballos, H., Brito, J., Arenas-Viveros, D., Marín-C, D., ... & Pardiñas, U. F. (2023). Systematics and diversification of the Ichthyomyini (Cricetidae, Sigmodontinae) revisited: evidence from molecular, morphological, and combined approaches. PeerJ, 11, e14319."
Nyctimene_major,Nyctimene_sanctacrucis,species split back out from N. major tentatively following suggestions by Batnames database,split,"Simmons, N. B., & Cirranello, A. L. (2023). Bat Species of the World: A taxonomic and geographic database. Version 1.3. Accessed on 03/11/2023."
Mops_chapini,Mops_shortridgei,split from M. chapini tentatively based on comments from the Batnames database,split,"Simmons, N.B. and A.L. Cirranello. 2023. Bat Species of the World: A taxonomic and geographic database. Version 1.3. Accessed on 03/11/2023."
Muntiacus_vaginalis,Muntiacus_aureus,split from M. vaginalis,split,"Singh, B., Kumar, A., Uniyal, V. P., & Gupta, S. K. (2021). Phylogeography and population genetic structure of red muntjacs: evidence of enigmatic Himalayan red muntjac from India. BMC Ecology and Evolution, 21, 1-15."
Rhinolophus_simulator,Rhinolophus_gorongosae,tentatively retained as a distinct species until further work is done to confirm that the taxon is a synonym of R. simulator,split,"Taylor, P. J., Macdonald, A., Goodman, S. M., Kearney, T., Cotterill, F. P., Stoffberg, S., ... & Richards, L. R. (2018). Integrative taxonomy resolves three new cryptic species of small southern African horseshoe bats (Rhinolophus). Zoological Journal of the Linnean Society, 184(4), 1249-1276.|Demos, T. C., Webala, P. W., Goodman, S. M., Peterhans, J. C. K., Bartonjo, M., & Patterson, B. D. (2019). Molecular phylogenetics of the African horseshoe bats (Chiroptera: Rhinolophidae): expanded geographic and taxonomic sampling of the Afrotropics. BMC evolutionary biology, 19(1), 1-14."
Rhinolophus_simulator,Rhinolophus_rhodesiae,tentatively retained as a distinct species until further work is done to confirm that the taxon is a synonym of R. simulator,split,"Taylor, P. J., Macdonald, A., Goodman, S. M., Kearney, T., Cotterill, F. P., Stoffberg, S., ... & Richards, L. R. (2018). Integrative taxonomy resolves three new cryptic species of small southern African horseshoe bats (Rhinolophus). Zoological Journal of the Linnean Society, 184(4), 1249-1276.|Demos, T. C., Webala, P. W., Goodman, S. M., Peterhans, J. C. K., Bartonjo, M., & Patterson, B. D. (2019). Molecular phylogenetics of the African horseshoe bats (Chiroptera: Rhinolophidae): expanded geographic and taxonomic sampling of the Afrotropics. BMC evolutionary biology, 19(1), 1-14."
Rhinolophus_hildebrandtii,Rhinolophus_cohenae,tentatively retained as a distinct species until further work is done to confirm that the taxon is a synonym of R. hildebrandtii,split,"Taylor, P. J., Stoffberg, S., Monadjem, A., Schoeman, M. C., Bayliss, J., & Cotterill, F. P. (2012). Four new bat species (Rhinolophus hildebrandtii complex) reflect Plio-Pleistocene divergence of dwarfs and giants across an Afromontane archipelago. PLoS one, 7(9), e41744.|Demos, T. C., Webala, P. W., Goodman, S. M., Peterhans, J. C. K., Bartonjo, M., & Patterson, B. D. (2019). Molecular phylogenetics of the African horseshoe bats (Chiroptera: Rhinolophidae): expanded geographic and taxonomic sampling of the Afrotropics. BMC evolutionary biology, 19(1), 1-14."
Rhinolophus_hildebrandtii,Rhinolophus_mabuensis,tentatively retained as a distinct species until further work is done to confirm that the taxon is a synonym of R. hildebrandtii,split,"Taylor, P. J., Stoffberg, S., Monadjem, A., Schoeman, M. C., Bayliss, J., & Cotterill, F. P. (2012). Four new bat species (Rhinolophus hildebrandtii complex) reflect Plio-Pleistocene divergence of dwarfs and giants across an Afromontane archipelago. PLoS one, 7(9), e41744.|Demos, T. C., Webala, P. W., Goodman, S. M., Peterhans, J. C. K., Bartonjo, M., & Patterson, B. D. (2019). Molecular phylogenetics of the African horseshoe bats (Chiroptera: Rhinolophidae): expanded geographic and taxonomic sampling of the Afrotropics. BMC evolutionary biology, 19(1), 1-14."
Rhinolophus_hildebrandtii,Rhinolophus_smithersi,tentatively retained as a distinct species until further work is done to confirm that the taxon is a synonym of R. hildebrandtii,split,"Taylor, P. J., Stoffberg, S., Monadjem, A., Schoeman, M. C., Bayliss, J., & Cotterill, F. P. (2012). Four new bat species (Rhinolophus hildebrandtii complex) reflect Plio-Pleistocene divergence of dwarfs and giants across an Afromontane archipelago. PLoS one, 7(9), e41744.|Demos, T. C., Webala, P. W., Goodman, S. M., Peterhans, J. C. K., Bartonjo, M., & Patterson, B. D. (2019). Molecular phylogenetics of the African horseshoe bats (Chiroptera: Rhinolophidae): expanded geographic and taxonomic sampling of the Afrotropics. BMC evolutionary biology, 19(1), 1-14."
Brotomys_voratus,Brotomys_contractus,"tentatively recognized as a distinct species from B. voratus (extinct), although further studies are needed to determine the authenticity of this arrangement",split,"Turvey, S. T., Kennerley, R. J., Nuñez-Miño, J. M., & Young, R. P. (2017). The last survivors: current status and conservation of the non-volant land mammals of the insular Caribbean. Journal of Mammalogy, 98(4), 918-936."
Heteropsomys_insulans,Heteropsomys_ antillensis,"tentatively recognized as a distinct species from H. insulans (extinct), although further studies are needed to determine the authenticity of this arrangement",split,"Turvey, S. T., Kennerley, R. J., Nuñez-Miño, J. M., & Young, R. P. (2017). The last survivors: current status and conservation of the non-volant land mammals of the insular Caribbean. Journal of Mammalogy, 98(4), 918-936."
Heliophobius_argenteocinereus,Heliophobius_kapiti,split from H. argenteocinereus,split,"Uhrová, M., Mikula, O., Bennett, N. C., Van Daele, P., Piálek, L., Bryja, J., ... & Šumbera, R. (2022). Species limits and phylogeographic structure in two genera of solitary African mole-rats Georychus and Heliophobius. Molecular Phylogenetics and Evolution, 167, 107337."
Pteropus_vampyrus,Pteropus_intermedius,"sometimes included under P. vampyrus or P. medius, but the species is tentatively recognized as distinct here and restricted to the type locality in Myanmar",split,"Wilson, D. E. & Mittermeier, R. A. (2019). Handbook of the Mammals of the World. 9. Bats. Lynx Edicions, Barcelona.|Soisook, P. & Tsang, S.M. 2020. Pteropus intermedius. The IUCN Red List of Threatened Species 2020: e.T136841A22042098. https://dx.doi.org/10.2305/IUCN.UK.2020-2.RLTS.T136841A22042098.en. Accessed on 21 March 2023."
Eptesicus_serotinus,Eptesicus_kobayashii,"tentatively split from E. serotinus because no true revision has occured analyzing the validity of E. kobayashii to date, so lumping it into E. serotinus is premature",split,"Wilson D.E. & Mittermeier R.A. 2019. Handbook of the mammals of the world. Vol. 9. Bats. Lynx Edicions, Barcelona."