The pallid bat was first described in 1856 and first placed in its own genus, Antrozous, in 1862. Several suggestions were made early on about its relationships, including that of Wilhelm Peters in 1865, who placed it in the family Vespertilionidae and considered it to be related to the Australian Nyctophilus. Others suggested a relationship with the vespertilionid genus Plecotus or the Phyllostomidae. In 1897, Gerrit S. Miller described a subfamily Antrozoinae for the pallid bat, but ten years later chose to place Nyctophilus and Antrozous together in a subfamily Nyctophilinae. Van Gelder's bat was described in 1959 as Antrozous dubiaquercus; subsequently, the species has been placed in its own genus, Bauerus, while others have retained it in Antrozous with its close relative, the pallid bat, with the current consensus being toward placing them in separate genera. In 1970, Karl F. Koopman and J. Knox Jones recognized a tribe Antrozoini, which they still placed within Nyctophilinae. In a separate 1970 paper, however, Koopman questioned the affinities between the North American antrozoines and the Australasian Nyctophilus on the basis of biogeography. The next year, Ronald Pine and colleagues further questioned this relationship on the basis of baculum characters, although they cautioned that more penes of Bauerus needed to be studied. Since then, Antrozoini has generally been considered a valid tribe in the subfamily Vespertilioninae, which includes most members of Vespertilionidae. In 1998, Nancy B. Simmons argued that Antrozoini was not, in fact, closely related to other Vespertilioninae and instead placed the two species in their own family, Antrozoidae, which she considered closer to the Molossidae, another family of bats. However, this hypothesis was later refuted by DNA sequence data, which indicated that the Antrozoini nested within Vespertilioninae. Therefore, Simmons placed the two species in Vespertilionidae in the 2005 third edition of Mammal Species of the World, but she kept them as a subfamily separate from Vespertilioninae, called Antrozoinae, because of continued phylogenetic uncertainty. However all DNA studies place antrozoines in Vespertilioninae, and this led Steven Hoofer and Ronald Van Den Bussche as well as Zachary Roehrs and colleagues to classify them as a tribe, Antrozoini, within that subfamily. Hoofer and Van Den Bussche, who used mitochondrial DNA sequences in their study, also expanded Antrozoini to include the American genera Rhogeessa and Baeodon. These genera were previously placed in the tribe Nycticeiini and considered to be related to the Old World genus Otonycteris. In their 2010 paper, Roehrs and colleagues again found that mtDNA sequences supported a relationship between Antrozous, Bauerus, Rhogeessa, and Baeodon, but what limited nuclear DNA data for Baeodon they had suggested that the genus may be more closely related to Lasiurus.
The pallid bat occurs in northern Mexico, the western United States, and marginally southwestern Canada. It is also found on Cuba; the population there has been classified as a separate species, Antrozous koopmani, by some authorities, but it is now included in the pallid bat. Van Gelder's bat is found from Nayarit in western Mexico south and east to Costa Rica. Most species of Rhogeessa occur in Mexico, but several occur further south, reaching to Bolivia and Brazil. The single species of Baeodon, B. alleni, is restricted to Mexico. The oldest fossils identified as Antrozous come from the Barstovian of Nebraska; however, their attribution to the genus is tentative. Undoubted Antrozous come from the Hemphillian of Texas and additional fossils are from the Pliocene of Texas, Idaho, and Florida. No fossils of Bauerus or Baeodon are known; the only fossils of Rhogeessa come from the Pleistocene of Inciarte in Venezuela. In 1969, John A. White named the genus Anzanycteris on the basis of Pliocene fossils from California and included it in Nyctophilinae. Later, Malcolm C. McKenna and Susan K. Bell listed Anzanycteris under Antrozoini in their 1997 Classification of Mammals.
Pine, R.H., Carter, D.C. and LaVal, R.K. 1971. . Journal of Mammalogy 52:663–669.
Roehrs, Z.P., Lack, J.B. and Van Den Bussche, R.A. 2010. . Journal of Mammalogy 91:1073–1092.
Simmons, N.B. 2005. Order Chiroptera. Pp. 312–529 in Wilson, D.E. and Reeder, D.M.. . 3rd ed. Baltimore: The Johns Hopkins University Press, 2 vols., 2142 pp.