Palaeochiropterygidae Explained

Palaeochiropterygidae is a family of extinct bats. It was originally erected by the Swiss naturalist Pierre Revilliod in 1917 after discoveries of Palaeochiropteryx fossils from the Messel Pit of Germany. Palaeochiropterygidae was merged into Archaeonycteridae by Kurten and Anderson in 1980, but modern authorities specializing in bat fossils maintain the distinction between the two.[1] It was classified to the unranked clade Microchiropteramorpha by Smith et al. in 2007.[2]

They existed from the Ypresian to the Lutetian ages of the Middle Eocene epoch (55.8 to 40.4 million years ago).

Paleobiology

Two species of Palaeochiropterygidae, Palaeochiropteryx tupaiodon and P. spiegeli, are known from complete skeletons from the famous Messel Pit fossil deposits in Germany. Palaeochiropteryx tupaiodon is the most common mammal found at Messel. An additional species of Palaeochiropteryx, P. sambuceus, has been described from the middle Eocene of North America.[3] All other species belonging to Palaeochiropterygidae are known only from isolated teeth and jaw fragments from Europe, India, Turkey, and possibly North America.[4] [5] [6]

At Messel, the two species of Palaeochiropteryx are hypothesized to have occupied similar niches to living hipposiderids and rhinolophids that forage close to the ground and among vegetation. Wings with low aspect ratio and wing loading and preserved stomach contents of small moths and caddisflies support the idea that these palaeochiropterygids were slow but maneuverable fliers.[7] The widespread distribution of Palaeochiropterygidae among the northern continents in the early and middle Eocene conflicts with the known morphology of P. tupaiodon and P. spiegeli, however, suggesting that other species of palaeochiropterygids had body plans much more suitable to long distance dispersal.

Evolutionary relationships

Palaeochiropterygidae are generally considered to be the most advanced of the early bat families. Phylogenetic analyses have consistently shown Palaeochiropterygidae to be the closest relatives of the living, or crown, groups of bats.[8] [9] Most phylogenetic analyses only include species of fossil bats known from complete skeletons, so relationships of species within Palaeochiropterygidae are currently unknown.

Both Matthesia and Cecilionycteris may be junior synonyms of Palaeochiropteryx. Stehlinia has been previously considered to be a member of the superfamily Vespertilionoidea, possibly aligned with Natalidae or Kerivoulidae,[10] but is now more commonly recognized as a palaeochiropterygid. Stehlinia, along with Lapichiropteryx and Anatolianycteris, possesses a very simple lower fourth premolar compared to other palaeochiropterygids and a close relationship between those three species has been proposed.

Genera

It contains the following genera. The list may be incomplete or inaccurate:[1]

Notes and References

  1. Thierry Smith. Rajendra S. Rana. Pieter Missiaen. Kenneth D. Rose. Ashok Sahni. Hukam Singh. Lachham Singh. amp. 2007. High bat (Chiroptera) diversity in the Early Eocene of India. Naturwissenschaften. 94. 12. 1003–1009. 10.1007/s00114-007-0280-9. May 19, 2011. 17671774. 2007NW.....94.1003S. dead. https://web.archive.org/web/20110722225230/http://biblio.ugent.be/input/download?func=downloadFile&fileOId=1136492. July 22, 2011. 1854/LU-385394. 12568128. free.
  2. Web site: Higher-level Classification of Bats. Nancy B. Simmons . Tenley Conway . amp . 1998. Tree of Life web project. May 17, 2011.
  3. Czaplewski . Nicholas J. . Three New Early Middle Eocene Bats (Mammalia: Chiroptera) from Elderberry Canyon, Nevada, USA . Morgan . Gary S. . Emry . Robert J. . M. Gignac . Paul . D. O’Brien . Haley . Smithsonian Contributions to Paleobiology . 2022-05-25 . 106 . 2–25 . Smithsonian Institution Scholarly Press . en . 10.5479/si.19874677.
  4. Book: Systematics and paleobiogeography of early bats. Gunnell. Gregg F.. Simmons. Nancy B.. March 2012. Evolutionary History of Bats: Fossils, Molecules and Morphology. 10.1017/cbo9781139045599.003. Habersetzer. Jörg. Smith. Thierry. Evolutionary History of Bats. 23–66. 9781139045599.
  5. Jones. Matthew F.. Coster. Pauline M. C.. Licht. Alexis. Métais. Grégoire. Ocakoğlu. Faruk. Taylor. Michael H.. Beard. K. Christopher. 2019-06-01. A stem bat (Chiroptera: Palaeochiropterygidae) from the late middle Eocene of northern Anatolia: implications for the dispersal and palaeobiology of early bats. Palaeobiodiversity and Palaeoenvironments. 99. 2. 261–269. 10.1007/s12549-018-0338-z. 135184030. 1867-1608.
  6. Ostrander. Gregg E.. 1987. The early Oligocene (Chadronian) Raben Ranch local fauna, northwest Nebraska: Marsupialia, Insectivora, Dermoptera, Chiroptera, and Primates. Dakoterra. 3. 92–104.
  7. Habersetzer. Jörg. Richter. Gotthard. Storch. Gerhard. 1994-10-01. Paleoecology of early middle Eocene bats from Messel, FRG. aspects of flight, feeding and echolocation. Historical Biology. 8. 1–4. 235–260. 10.1080/10292389409380479. 0891-2963.
  8. Gunnell. Gregg F.. Jörg Habersetzer. Seymour. Kevin L.. Simmons. Nancy B.. February 2008. Primitive Early Eocene bat from Wyoming and the evolution of flight and echolocation. Nature. 451. 7180. 818–821. 10.1038/nature06549. 1476-4687. 2027.42/62816. free. 18270539. 2008Natur.451..818S. 4356708.
  9. Gunnell. Gregg F.. Simmons. Nancy B.. 2005-06-01. Fossil Evidence and the Origin of Bats. Journal of Mammalian Evolution. 12. 1. 209–246. 10.1007/s10914-005-6945-2. 1573-7055. 2027.42/44972. 5920611. free.
  10. Marandat. Bernard. Crochet. Jean-Yves. Godinot. Marc. Hartenberger. Jean-Louis. Legendre. Serge. Remy. Jean Albert. Sigé. Bernard. Sudre. Jean. Vianey-Liaud. Monique. 1993-01-01. Une nouvelle faune à mammifèresd'âge éocène moyen (Lutétien supérieur) dans les phosphorites du Quercy. Geobios. 26. 5. 617–623. 10.1016/0016-6995(93)80042-P. 0016-6995.