#NEXUS [*] [MacClade ToL #28 registered to Proto4 version #28.8 16 January 2001, DO NOT DISTRIBUTE] BEGIN DATA; DIMENSIONS NTAX=3 NCHAR=1; FORMAT MISSING=? GAP=- ; MATRIX [ ] [ ] Nycteridae ? Megadermatidae ? Rhinolophidae ? ; END; BEGIN INTERNET; NETLINK TAXON=3 REPLACE LOCATION='?.html'; END; BEGIN ASSUMPTIONS; OPTIONS DEFTYPE=unord PolyTcount=MINSTEPS ; END; BEGIN TreeOfLife; CladeName Rhinolophoidea; Title Rhinolophoidea; Author Name=Nancy_B._Simmons Email=simmons@amnh.org Institution='American_Museum_of_Natural_History
79th_st._and_Central_Park_West
New_York,_NY,_10024 ' HomePage=_; Author Name=Tenley_Conway Email=conway@amnh.org Institution='American_Museum_of_Natural_History
79th_st._and_Central_Park_West
New_York,_NY,_10024 ' HomePage=_; Correspondent Nancy_Simmons; Email simmons@amnh.org; AfterTreeText 'Tree from Simmons (1998) and Simmons and Geisler (1998).'; IconFolder '/tree/icons/'; DeepEnclosing '../chiroptera.html'; Enclosing Microchiroptera; EnclosingURL '../microchiroptera.html'; WebBrowserCreator MOSS; Copyright Date=1997 Holder=Nancy_Simmons; TEXTNOTE ID=999 TITLE=Introduction TEXT='All rhinolophoids are insectivorous or carnivorous, and all are restricted to the Old World. The largest family in the group is Rhinolophidae, which comprises 10 genera and over 130 species (Koopman, 1993). In addition to Rhinolophidae, two other families are included in the superfamily Rhinolophoidea: Nycteridae and Megadermatidae (Simmons, 1998; Simmons and Geisler, 1998). Nycteridae is a small family that includes only 1 genus and fewer than 20 species (Koopman, 1993), while Megadermatidae currently includes 4 extant genera and 5 species (Koopman, 1993). Macroderma gigas, a member of the family Megadermatidae, is the largest microchiropteran bat, with a wing span of 0.6m (Fenton, 1992).

'; TEXTNOTE ID=1001 TITLE=Discussion_of_Phylogenetic_Relationships TEXT='Many authors recognize Rhinolophidae and Hipposideridae as separate families, but there is overwhelming evidence that these groups are sister taxa (e.g., Pierson, 1986; Simmons, 1998; Simmons and Geisler, 1998; Kirsch et al., in press). Simmons (1998) and Simmons and Geisler (1998) followed Koopman (1993, 1994) in recognizing Hipposiderinae as a subfamily of Rhinolophidae, a nomenclatural arrangement that provides recognition of both the similarities and differences between these clades.

Within Rhinolophoidea, Simmons (1998) and Simmons and Geisler (1998) found strong support for a sister-group relationship between Rhinolophidae and Megadermatidae. This stands in contrast to some previous studies that suggested that Nycteridae and Megadermatidae might be sister-taxa (e.g., Smith, 1976). Monophyly of Nycteridae and Megadermatidae is strongly supported by morphological data (Griffiths, 1994; Simmons, 1998). '; TEXTNOTE REFINDENT ID=1003 TITLE=References TEXT='Fenton, M. B. 1992. Bats. New York: Facts on File, Inc.

Griffiths, T.A. 1994. Phylogeny systematics of the Slit-faced bats (Chrioptera, Nycteridae), based on hyoid and other morpholoyg. American Museum Novitates, 3090:17 pp.

Hill, J.E., and J.D. Smith. 1984. Bats: a natural history. Austin: University of Texas Press.

Kirsch, J. A., J. M. Hutcheon, D. C. Byrnes & B. D. Llyod. In Press. Affinites ad historical zoogeography of the New Zealand Short-tailed bat, Mystacina tuberculata Gray 1843, inferred from DNA-hybridization comparisons. Journal of Mammalian Evolution.

Koopman, K. F. 1983. Order Chiroptera. In Mammal species of the world, a taxonomic and geographic reference, 2nd ed. D. E. Wilson and D. M. Reeder. Washinton, D. C.: Smithsonian Institution Press. Koopman, K. F. 1984. Chiroptera: systematics. Handbook of zoology, vol 8, pt. 60. Mammalia, 217 pp.

Pierson, E. D. 1986. Molecular systematics of the Microchiroptera: higher taxon relationships and biogeography. Ph.D. dissertation. University of California, Berkely, California.

Simmons, N. B. 1998. A reappraisal of interfamilial relationships of bats. In Bats: Phylogeny, Morphology, Echolocation and Conservation Biology. T.H. Kunz and P.A. Racey (eds.). Washington: Smithsonian Institution Press.

Simmons, N. B. & J. H. Geisler. 1998. Phylogenetic relationships of Icaronycteris, Archeonycteris, Hassianycteris, and Palaeochiropteryx to extant bat lineages, with comments on the evolution of echolocation and foraging strategies in microchiroptera. Bulletin of the American Museum of Natural History. 235:1-182.

Smith, J. D. 1976. Chriopteran evolution. In Biology of bats of the New World family Phyllostomidae, part I. R. J. Baker, J. K. Jones and D. C. carter (eds.). Special Publication. The Museum , Texas-Tech University. vol. 10. Lubbock: Texas Tech Univeristy.

'; TEXTNOTE ID=1 TITLE=Geographic_Distribution TEXT='The geographical distribution of Rhinolophoidea is shown in red.

Distribution from Hill and Smith (1984).

'; TEXTNOTE ID=2 TITLE=Characteristics TEXT='All Rhinolophoidea share the following features:

(1) nasal branches of premaxillae reduced or absent.
(2) tympanic annulus semivertical in orientation.
(3) first rib at least twice the width of other ribs.
(4) first costal cartilage ossified and fused to manubrium.
(5) m. subclavius originates from first costal cartilage.
(6) m. omocervicalis originates from transverse process of C2.
(7) shaft of femur with bend that directs distal shaft dorsally.
(8) baculum saddle-shaped or slipper-shaped.
'; TOPICSORDER 999 2 1001 1 1003 ; OPTIONS SQUARECORNERS FOOTPARENTHESES FEETINTREE UNDERCONSTRUCTION DEFRANDICON CenterBranches WRITETXPINTT EXCLUDETOLQUERY BREAKAFTERTITLE WRITENEXTPREV USENEXTPREV NUMRANDPICTURES=6 BRANCHHEIGHT=3 INCERTAEEDGEGAP=5 INCERTAETIPLENGTH=6 TAXONSPACING=1; END; BEGIN TREES; TRANSLATE 1 Nycteridae, 2 Megadermatidae, 3 Rhinolophidae ; TREE * UNTITLED = [&R] (1,(2,3)); END; BEGIN NOTES; TEXT TAXON=1 TEXT= 'Slit-faced_bats'; TEXT TAXON=2 TEXT= False_Vampire_bats; TEXT TAXON=3 TEXT= Horseshoe_bats; END; BEGIN MACCLADE; Version m.1; LastModified -1232468876; Singles 0000&/01; FileSettings treewindow ; Editor 010011 24 Geneva 9 100 1; TaxStatus closed Geneva 9 U ; CharStatus closed Geneva 9 U ; NodeStatus closed Geneva 9 U ; TreeStatus closed Geneva 9 U ; TypeStatus closed Geneva 9 U ; END;