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Pakicetidae

January 01, 1970

Pakicetidae ("Pakistani whales") is an extinct family of Archaeoceti (early whales) that lived during the Early Eocene in Pakistan.[1]

Pakicetidae
Temporal range: Early Eocene, 50–49 Ma
Pakicetus
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Infraorder: Cetacea
Informal group: Archaeoceti
Family: Pakicetidae
Thewissen, Madar & Hussain 1996
Genera

Pakicetus
Nalacetus
Ichthyolestes

Description edit

Dehm & Oettingen-Spielberg 1958 described the first pakicetid, Ichthyolestes, but at the time they did not recognize it as a cetacean, identifying it, instead, it as a fish-eating mesonychid. Robert West was the first to identify pakicetids as cetaceans in 1980 and, after discovering a braincase, Phillip Gingerich and Donald Russell described the genus Pakicetus in 1981. On October 26, 2016, a publication represented the idea that the emergence of cetacea in the Paleogene presents the best idea of microevolution that resulted in the phenotype of pakicetid.[2] During the following two decades, more research resulted in additional pakicetid cranial material and by 2001 postcranial material for the family had been described. Though all parts of pakicetid postcrania are known, no complete skeleton from a single individual has been recovered.[3] The pakicetid goldmine is the "H-GSP Locality 62" site in the Kala Chitta Hills where fossils from all three genera have been found. However, this site is so littered with bones that identifying bones from a single individual is impossible, and pakicetid skeletons are consequently composites of bones from several individuals.[4]

Pakicetids have been found in or near river deposits in northern Pakistan and northwestern India, a region which was probably arid with only temporary streams when these animals lived there. No pakicetids have been found in marine deposits, and they were apparently terrestrial or freshwater animals. Their long limbs and small hands and feet also indicate they were poor swimmers. Their bones are heavy and compact and were probably used as ballast; they clearly indicate pakicetids were not fast runners notwithstanding their otherwise cursorial morphology. Most likely, pakicetids lived in or near bodies of freshwater and their diet could have included both land animals and aquatic organisms. During the Eocene, Pakistan was an island-continent off the coastal region of the Eurasian land mass and therefore an ideal habitat for the evolution, and diversification of the Pakicetids.[3]

Pakicetids have many apomorphic traits (derived traits shared by several taxa) found in artiodactyls, including:[1] Traits linking pakicetids to cetaceans include:[1]
  • a pachyosteosclerotic (thick, heavy bone) auditory bulla with an involucrum and sigmoid process
  • cheek teeth adapted for shearing with reentrant grooves on the anterior surfaces
  • lower molars lacking trigonid and talonid basins and upper molars with very small trigon basins
  • incisors and canines aligned to the cheek teeth
  • narrow elongated postorbital (behind eyes) cranium

Hearing edit

Pakicetid ears had an external auditory meatus and ear ossicles (i.e. incus, malleus, tympanic ring, etcetera) similar to those in living land mammals and most likely used normal land mammal hearing in air. In the pakicetid mandible, the mandibular foramen is small and comparable in size to those of extant land mammals and the acoustic mandibular fat pad characteristic of later whales was obviously not present. The lateral wall of the mandible is also relatively thick in pakicetids, further preventing sound transmission through the jaw. The tympanic bulla in pakicetid ears is similar to those in all cetaceans, with a relatively thin lateral wall and thickened medial part known as the involucrum. However, in contrast to later cetaceans, the tympanic bone makes contact with the periotic bone which is firmly attached to the skull leaving no space for isolating air sinuses, effectively preventing directional hearing in water. Pakicetids most likely used bone conduction for hearing in water.[5]

Locomotion edit

 
Pakicetus attocki

Interpretations of pakicetid habitat and locomotion behaviour varies considerably:

In 2001, it was concluded by Thiwissen et al. that "pakicetids were terrestrial mammals, no more amphibious than a tapir." According to them, none of the aquatic adaptations found in the oldest obligate aquatic cetaceans, basilosaurids and dorudontids, are present in pakicetids. Pakicetid cervical vertebrae are longer than in late Eocene whales, the thoracic vertebrae increase in size from the neck backwards, and the lumbar and caudal vertebrae are longer than in modern cetaceans (but still shorter than in some extinct cetaceans with undulating spines.) Motion in the spine of pakicetids was further reduced by the revolute zygapophyses (processes between the vertebrae) like in stiff-backed runners such as mesonychians. The sacral vertebrae are fused and the sacroiliac joints present like in land mammals and amphibious cetaceans.[6]

Furthermore, according to Thewissen et al., the pakicetid scapulae have large supraspinous fossae with small acromions, in contrast to other cetaceans. The deltopectoral crests are absent in the long and slender humeri like in cursorial animals but unlike other Eocene cetaceans. Pakicetid elbows are rigid hinge joints like in running mammals and the forearms are not flattened like in truly aquatic cetaceans. In the pakicetid pelvis, the innominates are large and the ischia are longer than the ilia. The pakicetid tibiae are long with a short tibial crest. Hindlimb features that all more reminiscent of running and jumping animals than swimming animals.[6]

Gingerich 2003 disagreed and got support from Madar 2007: postcranial morphology and microstructural features suggest that pakicetids were adapted to an aquatic lifestyle which included bottom wading, paddling, and undulatory swimming, but probably not sustained running. Isotopic evidence indicate Pakicetids spent a considerable part of their life in freshwater and probably ate freshwater prey.[1]

Subtaxa edit

See also edit

 
Wikispecies has information related to Pakicetidae.

Notes edit

  1. ^ a b c d Uhen 2010, pp. 199–201
  2. ^ Gatesy, John; Geisler, Jonathan H.; Chang, Joseph; Buell, Carl; Berta, Annalisa; Meredith, Robert W.; Springer, Mark S.; McGowen, Michael R. (2013). "A phylogenetic blueprint for a modern whale". Molecular Phylogenetics and Evolution. 66 (2): 479–506. doi:10.1016/j.ympev.2012.10.012. PMID 23103570. from the original on 2022-09-06. Retrieved 2022-03-19.
  3. ^ a b Thewissen & Williams 2002, pp. 75–8
  4. ^ Thewissen et al. 2009, p. 277
  5. ^ Nummela et al. 2007, Pakicetids, pp. 722–3
  6. ^ a b Thewissen et al. 2001, pp. 277–8
  7. ^ Pakicetidae in the Paleobiology Database. Retrieved February 24, 2013.

References edit

  • Cooper, Lisa Noelle; Thewissen, J. G. M.; Hussain, S. T. (2009). "New middle Eocene archaeocetes (Cetacea: Mammalia) from the Kuldana Formation of northern Pakistan". Journal of Vertebrate Paleontology. 94 (4): 1289–99. Bibcode:2009JVPal..29.1289C. doi:10.1671/039.029.0423. OCLC 506008976. S2CID 84127292.
  • Dehm, Richard; Oettingen-Spielberg, Therese zu (1958). Paläontologische und geologische Untersuchungen im Tertiär von Pakistan. 2. Die mitteleocänen Säugetiere von Ganda Kas bei Basal in Nordwest-Pakistan. Abhandlungen / Neue Folge, 91. Munich: Beck. OCLC 163296508.
  • Gingerich, Philip D. (2003). "Land-to-sea transition in early whales: evolution of Eocene Archaeoceti (Cetacea) in relation to skeletal proportions and locomotion of living semiaquatic mammals". Paleobiology. 29 (3): 429–54. doi:10.1666/0094-8373(2003)029<0429:ltiewe>2.0.co;2. OCLC 716582744. S2CID 86600469.
  • Gingerich, Philip D.; Russell, Donald E. (1981). "Pakicetus inachus, A New Archaeocete (Mammalia, Cetacea) from the Early-Middle Eocene Kuldana Formation of Kohat (Pakistan)" (PDF). Contributions from the Museum of Paleontology, the Museum of Michigan. 25 (11). OCLC 742729300. Retrieved February 24, 2013.
  • Madar, S. I. (2007). "The postcranial skeleton of early Eocene pakicetid cetaceans". J. Paleontol. 81 (1): 176–200. doi:10.1666/0022-3360(2007)81[176:TPSOEE]2.0.CO;2. OCLC 204527975. S2CID 86353851.
  • Nummela, Sirpa; Thewissen, J.G.M.; Bajpai, Sunil; Hussain, Taseer; Kumar, Kishor (2007). "Sound transmission in archaic and modern whales: Anatomical adaptations for underwater hearing". The Anatomical Record. 290 (6): 716–33. doi:10.1002/ar.20528. PMID 17516434.
  • Thewissen, J. G. M.; Cooper, Lisa Noelle; George, John C.; Bajpai, Sunil (2009). "From Land to Water: the Origin of Whales, Dolphins, and Porpoises". Evolution: Education and Outreach. 2 (2): 272–288. doi:10.1007/s12052-009-0135-2.
  • Thewissen, J. G. M.; Hussain, S. T. (1998). "Systematic review of the Pakicetidae, Early and middle Eocene Cetacea (Mammalia) from Pakistan and India". Bulletin of the Carnegie Museum. 34: 220–38.
  • Thewissen, J.G.M.; Madar, S.I.; Hussain, S.T. (1996). Ambulocetus natans, an Eocene cetacean (Mammalia) from Pakistan. Courier Forschungsinstitut Senckenberg. Vol. 191. pp. 1–86. ISBN 9783929907322. OCLC 36463214.
  • Thewissen, J.G.M.; Williams, E.M. (2002). "The Early Radiations of Cetacea (Mammalia): Evolutionary Pattern and Developmental Correlations" (PDF). Annual Review of Ecology and Systematics. 33: 73–90. doi:10.1146/annurev.ecolsys.33.020602.095426. OCLC 4656321698. Retrieved February 24, 2013. [permanent dead link]
  • Thewissen, J. G. M.; Williams, E. M.; Roe, L. J.; Hussain, S. T. (2001). "Skeletons of terrestrial cetaceans and the relationship of whales to artiodactyls" (PDF). Nature. 413 (6853): 277–81. Bibcode:2001Natur.413..277T. doi:10.1038/35095005. OCLC 118116179. PMID 11565023. S2CID 4416684. Retrieved February 24, 2013.
  • Uhen, Mark D (2010). "The Origin(s) of Whales". Annual Review of Earth and Planetary Sciences. 38 (1): 189–219. Bibcode:2010AREPS..38..189U. doi:10.1146/annurev-earth-040809-152453.
  • West, Robert M (1980). "Middle Eocene large mammal assemblage with Tethyan affinities, Ganda Kas region, Pakistan". Journal of Paleontology. 54 (3): 508–533. JSTOR 1304193. OCLC 4899161959.

January 01, 1970
pakicetidae, pakistani, whales, extinct, family, archaeoceti, early, whales, that, lived, during, early, eocene, pakistan, temporal, range, early, eocene, preꞒ, pakicetus, scientific, classification, domain, eukaryota, kingdom, animalia, phylum, chordata, clas. Pakicetidae Pakistani whales is an extinct family of Archaeoceti early whales that lived during the Early Eocene in Pakistan 1 PakicetidaeTemporal range Early Eocene 50 49 Ma PreꞒ Ꞓ O S D C P T J K Pg N Pakicetus Scientific classification Domain Eukaryota Kingdom Animalia Phylum Chordata Class Mammalia Order Artiodactyla Infraorder Cetacea Informal group Archaeoceti Family PakicetidaeThewissen Madar amp Hussain 1996 Genera Pakicetus Nalacetus Ichthyolestes Contents 1 Description 2 Hearing 3 Locomotion 4 Subtaxa 5 See also 6 Notes 7 ReferencesDescription editDehm amp Oettingen Spielberg 1958 described the first pakicetid Ichthyolestes but at the time they did not recognize it as a cetacean identifying it instead it as a fish eating mesonychid Robert West was the first to identify pakicetids as cetaceans in 1980 and after discovering a braincase Phillip Gingerich and Donald Russell described the genus Pakicetus in 1981 On October 26 2016 a publication represented the idea that the emergence of cetacea in the Paleogene presents the best idea of microevolution that resulted in the phenotype of pakicetid 2 During the following two decades more research resulted in additional pakicetid cranial material and by 2001 postcranial material for the family had been described Though all parts of pakicetid postcrania are known no complete skeleton from a single individual has been recovered 3 The pakicetid goldmine is the H GSP Locality 62 site in the Kala Chitta Hills where fossils from all three genera have been found However this site is so littered with bones that identifying bones from a single individual is impossible and pakicetid skeletons are consequently composites of bones from several individuals 4 Pakicetids have been found in or near river deposits in northern Pakistan and northwestern India a region which was probably arid with only temporary streams when these animals lived there No pakicetids have been found in marine deposits and they were apparently terrestrial or freshwater animals Their long limbs and small hands and feet also indicate they were poor swimmers Their bones are heavy and compact and were probably used as ballast they clearly indicate pakicetids were not fast runners notwithstanding their otherwise cursorial morphology Most likely pakicetids lived in or near bodies of freshwater and their diet could have included both land animals and aquatic organisms During the Eocene Pakistan was an island continent off the coastal region of the Eurasian land mass and therefore an ideal habitat for the evolution and diversification of the Pakicetids 3 Pakicetids have many apomorphic traits derived traits shared by several taxa found in artiodactyls including 1 Traits linking pakicetids to cetaceans include 1 small mandibular foramina and canals elongated cervical vertebrae long and gracile limbs featuring double pulleyed astragalus in the ankle long metapodials and four fused sacral vertebrae a pachyosteosclerotic thick heavy bone auditory bulla with an involucrum and sigmoid process cheek teeth adapted for shearing with reentrant grooves on the anterior surfaces lower molars lacking trigonid and talonid basins and upper molars with very small trigon basins incisors and canines aligned to the cheek teeth narrow elongated postorbital behind eyes craniumHearing editPakicetid ears had an external auditory meatus and ear ossicles i e incus malleus tympanic ring etcetera similar to those in living land mammals and most likely used normal land mammal hearing in air In the pakicetid mandible the mandibular foramen is small and comparable in size to those of extant land mammals and the acoustic mandibular fat pad characteristic of later whales was obviously not present The lateral wall of the mandible is also relatively thick in pakicetids further preventing sound transmission through the jaw The tympanic bulla in pakicetid ears is similar to those in all cetaceans with a relatively thin lateral wall and thickened medial part known as the involucrum However in contrast to later cetaceans the tympanic bone makes contact with the periotic bone which is firmly attached to the skull leaving no space for isolating air sinuses effectively preventing directional hearing in water Pakicetids most likely used bone conduction for hearing in water 5 Locomotion edit nbsp Pakicetus attocki Interpretations of pakicetid habitat and locomotion behaviour varies considerably In 2001 it was concluded by Thiwissen et al that pakicetids were terrestrial mammals no more amphibious than a tapir According to them none of the aquatic adaptations found in the oldest obligate aquatic cetaceans basilosaurids and dorudontids are present in pakicetids Pakicetid cervical vertebrae are longer than in late Eocene whales the thoracic vertebrae increase in size from the neck backwards and the lumbar and caudal vertebrae are longer than in modern cetaceans but still shorter than in some extinct cetaceans with undulating spines Motion in the spine of pakicetids was further reduced by the revolute zygapophyses processes between the vertebrae like in stiff backed runners such as mesonychians The sacral vertebrae are fused and the sacroiliac joints present like in land mammals and amphibious cetaceans 6 Furthermore according to Thewissen et al the pakicetid scapulae have large supraspinous fossae with small acromions in contrast to other cetaceans The deltopectoral crests are absent in the long and slender humeri like in cursorial animals but unlike other Eocene cetaceans Pakicetid elbows are rigid hinge joints like in running mammals and the forearms are not flattened like in truly aquatic cetaceans In the pakicetid pelvis the innominates are large and the ischia are longer than the ilia The pakicetid tibiae are long with a short tibial crest Hindlimb features that all more reminiscent of running and jumping animals than swimming animals 6 Gingerich 2003 disagreed and got support from Madar 2007 postcranial morphology and microstructural features suggest that pakicetids were adapted to an aquatic lifestyle which included bottom wading paddling and undulatory swimming but probably not sustained running Isotopic evidence indicate Pakicetids spent a considerable part of their life in freshwater and probably ate freshwater prey 1 Subtaxa editFamily Pakicetidae 7 Ichthyolestes Dehm amp Oettingen Spielberg 1958 Ichtyolestes pinfoldi Dehm amp Oettingen Spielberg 1958 Nalacetus Thewissen amp Hussain 1998 Nalacetus ratimitus Thewissen amp Hussain 1998 Pakicetus Gingerich amp Russell 1981 Pakicetus inachus Gingerich amp Russell 1981 Pakicetus attocki West 1980 Pakicetus calcis Cooper Thewissen amp Hussain 2009 Pakicetus chittas Cooper Thewissen amp Hussain 2009 See also edit nbsp Wikispecies has information related to Pakicetidae Archaeoceti Evolution of cetaceansNotes edit a b c d Uhen 2010 pp 199 201 Gatesy John Geisler Jonathan H Chang Joseph Buell Carl Berta Annalisa Meredith Robert W Springer Mark S McGowen Michael R 2013 A phylogenetic blueprint for a modern whale Molecular Phylogenetics and Evolution 66 2 479 506 doi 10 1016 j ympev 2012 10 012 PMID 23103570 Archived from the original on 2022 09 06 Retrieved 2022 03 19 a b Thewissen amp Williams 2002 pp 75 8 Thewissen et al 2009 p 277 Nummela et al 2007 Pakicetids pp 722 3 a b Thewissen et al 2001 pp 277 8 Pakicetidae in the Paleobiology Database Retrieved February 24 2013 References editCooper Lisa Noelle Thewissen J G M Hussain S T 2009 New middle Eocene archaeocetes Cetacea Mammalia from the Kuldana Formation of northern Pakistan Journal of Vertebrate Paleontology 94 4 1289 99 Bibcode 2009JVPal 29 1289C doi 10 1671 039 029 0423 OCLC 506008976 S2CID 84127292 Dehm Richard Oettingen Spielberg Therese zu 1958 Palaontologische und geologische Untersuchungen im Tertiar von Pakistan 2 Die mitteleocanen Saugetiere von Ganda Kas bei Basal in Nordwest Pakistan Abhandlungen Neue Folge 91 Munich Beck OCLC 163296508 Gingerich Philip D 2003 Land to sea transition in early whales evolution of Eocene Archaeoceti Cetacea in relation to skeletal proportions and locomotion of living semiaquatic mammals Paleobiology 29 3 429 54 doi 10 1666 0094 8373 2003 029 lt 0429 ltiewe gt 2 0 co 2 OCLC 716582744 S2CID 86600469 Gingerich Philip D Russell Donald E 1981 Pakicetus inachus A New Archaeocete Mammalia Cetacea from the Early Middle Eocene Kuldana Formation of Kohat Pakistan PDF Contributions from the Museum of Paleontology the Museum of Michigan 25 11 OCLC 742729300 Retrieved February 24 2013 Madar S I 2007 The postcranial skeleton of early Eocene pakicetid cetaceans J Paleontol 81 1 176 200 doi 10 1666 0022 3360 2007 81 176 TPSOEE 2 0 CO 2 OCLC 204527975 S2CID 86353851 Nummela Sirpa Thewissen J G M Bajpai Sunil Hussain Taseer Kumar Kishor 2007 Sound transmission in archaic and modern whales Anatomical adaptations for underwater hearing The Anatomical Record 290 6 716 33 doi 10 1002 ar 20528 PMID 17516434 Thewissen J G M Cooper Lisa Noelle George John C Bajpai Sunil 2009 From Land to Water the Origin of Whales Dolphins and Porpoises Evolution Education and Outreach 2 2 272 288 doi 10 1007 s12052 009 0135 2 Thewissen J G M Hussain S T 1998 Systematic review of the Pakicetidae Early and middle Eocene Cetacea Mammalia from Pakistan and India Bulletin of the Carnegie Museum 34 220 38 Thewissen J G M Madar S I Hussain S T 1996 Ambulocetus natans an Eocene cetacean Mammalia from Pakistan Courier Forschungsinstitut Senckenberg Vol 191 pp 1 86 ISBN 9783929907322 OCLC 36463214 Thewissen J G M Williams E M 2002 The Early Radiations of Cetacea Mammalia Evolutionary Pattern and Developmental Correlations PDF Annual Review of Ecology and Systematics 33 73 90 doi 10 1146 annurev ecolsys 33 020602 095426 OCLC 4656321698 Retrieved February 24 2013 permanent dead link Thewissen J G M Williams E M Roe L J Hussain S T 2001 Skeletons of terrestrial cetaceans and the relationship of whales to artiodactyls PDF Nature 413 6853 277 81 Bibcode 2001Natur 413 277T doi 10 1038 35095005 OCLC 118116179 PMID 11565023 S2CID 4416684 Retrieved February 24 2013 Uhen Mark D 2010 The Origin s of Whales Annual Review of Earth and Planetary Sciences 38 1 189 219 Bibcode 2010AREPS 38 189U doi 10 1146 annurev earth 040809 152453 West Robert M 1980 Middle Eocene large mammal assemblage with Tethyan affinities Ganda Kas region Pakistan Journal of Paleontology 54 3 508 533 JSTOR 1304193 OCLC 4899161959 Retrieved from https en wikipedia org w index php title Pakicetidae amp oldid 1201784992, wikipedia, wiki, book, books, library,

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