Mormoops, Leach, 1821

Mormoops View in CoL View at ENA and the Mormoopidae

The estimated ancestral area of Mormoops and the mormoopids ( Fig. 5 View Figure 5 ) encompasses both northern South America ( Smith, 1972) and the Greater Antilles (Czaplewski & Morgan, 2003). The two biogeographical hypotheses are not mutually exclusive, and it is plausible that the most recent common ancestor of mormoopids was widespread from Mexico south to northern South America, and east to the Greater Antilles. Another interpretation of this result is that dispersal-vicariance analysis is inconclusive, and other sources of evidence are needed to clarify the geographical history of mormoopids.

There are several reasons to doubt that the ancestor of Mormoops was as widespread as estimated in Figure 5 View Figure 5 . First, extant Mormoops species do not overlap on the continent, but both are known from the Greater Antilles (albeit, one only as fossil). Second, one additional species, Mormoops magna , is known from late Pleistocene remains on Cuba ( Silva-Taboada, 1974), adding a third Mormoops lineage to the Greater Antilles. Third, it is parsimonious to postulate that the ancestor of Mormoops reached the Greater Antilles before splitting into the extant species but, even if it did not, the divergence between the Antillean blainvillei and its sister taxon is significantly greater than that between megalophylla populations ( Fig. 6A View Figure 6 ). The combination of species diversity and depth of divergence suggests Mormoops expanded its range from north to south.

If Mormoops ranged into the Greater Antilles even before blainvillei and megalophylla differentiated, Caribbean colonization in this family can be traced back to the divergence between the mormoopid genera, and might be as ancient as the Oligocene or Miocene (Czaplewski & Morgan, 2003). A northern neotropical (and perhaps insular) origin for the genus can be overturned by the discovery of a basal Mormoops species in South America. An extensive fossil record shows that M. megalophylla ranged from Florida through the Greater Antilles to Bahia in Brazil during the Late Pleistocene ( Ray, Olsen & Gut, 1963; Silva-Taboada, 1974; Czaplewski & Cartelle, 1998). Studies of morphological variation are necessary to determine the relationships among extant and fossil megalophylla populations and test the hypothesis presented here because more than one species might be involved ( Morgan, 2001).

One prediction following Czaplewski & Morgan’s (2003) biogeographical model is borne by the molecular data: divergences between Antillean and continental mormoopids are greater than those between Central American and northern South American populations ( Fig. 6 View Figure 6 ). There is only one exception in the P. parnellii lineage (subgenus Phyllodia ), where two northern South American populations might not share a most recent common ancestor ( Figs 3 View Figure 3 , 5 View Figure 5 ). For every other mormoopid lineage, and even in one instance within Phyllodia , the divergence between Mexico /Central America and South America appears to be recent ( Fig. 6 View Figure 6 ), and might correspond to the completion of the Isthmus of Panama in the late Pliocene. Either Mexico /Central America or north-western South America was recently colonized by all mormoopid lineages. As discussed above, the direction of this expansion appears to be from north to south in Mormoops and P. personatus s.l., but the evidence is ambiguous for Phyllodia , as well as for P. davyi and gymnonotus .

Because Mormoops is at the base of the mormoopid radiation, restricting its ancestral distribution to the northern Neotropics constrains the geographical origin of the family to that region. Other than differences in branch length (longer for northern neotropical splits, shorter for divergences between Mexico /Central America and South America), the fossil record also supports a north-to-south expansion. The oldest mormoopid diverged before the two extant genera (G. Morgan, pers. comm.), and ranged into Florida in the Oligocene ( Czaplewski, Morgan & Naeher, 2003). In general, mormoopids appear to have reached South America late in their history, after diversifying in Mexico, Central America, and/or the Greater Antilles ( Fig. 6 View Figure 6 ).

This finding is critical to the biogeographical history of noctilionoids. Both morphology ( Simmons & Conway, 2001) and large concatenated molecular datasets ( Teeling et al., 2005) indicate that mormoopids and phyllostomids are each other’s closest relative (this topology was not always recovered in this study, probably because taxon sampling among bat families was poor relative to the higher-level analyses cited above). Two phylogenetic hypotheses have been proposed to explain relationships among phyllostomids. One, based on analyses of mostly morphological data ( Wetterer, Rockman & Simmons, 2000) identified the vampires ( Desmodus , Diaemus , and Diphylla ) as the oldest phyllostomid lineage. A second hypothesis based on mtrDNA and Rag 2 (Baker, Porter, Hoofer & Van Den Bussche, 2003) suggests that Macrotus diverged before any other phyllostomid.

The geographical distribution of the basal lineage of the phyllostomids would have a disproportionate effect on ancestral area reconstructions for that family. Vampires range from Mexico to Chile and Uruguay, and fossils have been found on Cuba ( Koopman, 1994). This lineage would not constrain the ancestral area of the phyllostomids because of its widespread distribution. Since the greatest diversity of phyllostomids is concentrated in northern South America and the vampires include it in their range, this would likely be the most parsimonious ancestral area for the family. By contrast, Macrotus is only known from the southwestern United States south to Guatemala, through the Greater Antilles and Bahamas ( Koopman, 1994). If Macrotus is at the base of the phyllostomid radiation, then the ancestral distributions of mormoopids and phyllostomids were adjacent in the northernmost Neotropics. Phyllostomid fossils are known from the middle Miocene of La Venta ( Czaplewski, 1997), indicating phyllostomids reached South America early in their history. The geographical distribution of these closely related families during their early history might help explain the remarkable differences in taxonomic and adaptive diversity between the two groups.