Temporal range: Eocene–Oligocene
|Cynthiacetus and Ambulocetus skeletons|
|Families and clades|
Archaeoceti ("ancient whales"), or Zeuglodontes in older literature, is a paraphyletic group of primitive cetaceans that lived from the Early Eocene to the late Oligocene ( ). Representing the earliest cetacean radiation, they include the initial amphibious stages in cetacean evolution and are thus the ancestors of both modern cetacean suborders, Mysticeti and Odontoceti. This initial diversification occurred in the shallow waters that separated India and Asia , resulting in some 30 species adapted to a fully oceanic life; though both echolocation and filter-feeding evolved during a second radiation .
All archaeocetes from the Ypresian (56–47.8 mya) and most from the Lutetian (47.8–41.3 mya) are known exclusively from Indo-Pakistan, but Bartonian (41.3–38.0 mya) and Priabonian (38.0–33.9 mya) genera are known from across Earth, including North America, Egypt, New Zealand, and Europe. Although there is no consensus regarding the mode of locomotion cetaceans were capable of during the late Lutetian, they were very unlikely to be nearly as well-adapted to the open ocean as living cetaceans. They probably reached as far as North America along coastal waters: either around Africa and over to South America, or, more likely, over the Tethys Sea (between Eurasia and Africa) and along the coasts of Europe, Greenland, and North America.
Some researchers are convinced, based on morphological similarities between archaeocetes (stem cetaceans) and neocetes, that the two living suborders of cetacean (the crown cetaceans) emerged from within Archaeoceti and therefore consider Archaeoceti paraphyletic or a non-natural group. Uhen 2008 introduced the clade Pelagiceti to accommodate the fully marine basilosaurids. Other researchers argue, despite these morphological similarities, that no archaeocete fossil have been placed within Neoceti, and therefore that the radiation of extant whales can be described independently of Archaeoceti.
First identified as cetaceans by West 1980, the Pakicetids, the most archaic of whales, had long slender legs, a long narrow tail, and could reach the size of a modern wolf. They have only been found in sediments from freshwater streams in north-western India and northern Pakistan and were probably waders rather than swimmers.
Dozens of fossils are known, but only of skulls, teeth, and jaw fragments; no complete skeletons have been found. The dentition varied: the smallest species had teeth like modern fish eaters, and the largest were more like modern hyenas. The pakicetids may have been predators or carrion feeders. Neither the skull nor the dentition of pakicetids resemble those of modern whales, but the sigmoid process, involucrum, pachyostotic (compact) and rotated ossicles of their ears still reveal their cetacean nature.
The next diverging family of whales, the Ambulocetids, were large, already fully aquatic, and crocodile-like with large feet and a strong tail. Sediments indicate that they lived in coastal areas and their compact bones suggest that they were ambush rather than fast pursuit predators. Also known exclusively from Pakistan and India, the ambulocetids include the oldest known whale Himalayacetus, which is believed to be , some 4 million years older than the rest of its family.
Of the less than ten fossils that have been described, one, Ambulocetus natans, is nearly complete and the main source of information concerning early cetacean evolution. The size of a male sea lion, it had a large head with a long snout and robust, strongly worn teeth. The lower jaw shows that Ambulocetus had an unusual soft tissue connecting the back of the jaw to the middle ear — a small equivalent to the large sound-receiving fat pad in modern odontocetes. Its eyes were placed dorsally on the head, but were facing laterally. The musculature of the head, neck, and back was strong and the fluke-less tail was long. The hindlimbs were short, but equipped with long feet. The forelimbs were also short and equipped with five short hooves. Ambulocetus probably swam with its hindfeet like a modern otter, and was incapable of supporting its own weight on land. It probably was an ambush hunter like modern crocodiles.
The Remingtonocetids had short limbs, and a strong and powerful tail with flattened vertebrae. Their long snout, tiny eyes, and ear morphology suggest their vision was poor and that hearing was their dominant sense. They too have only been found in Pakistan and India, and sediments suggest that they lived in turbid waters in coastal areas. Though they were probably able to live on land, they apparently used their tails to swim.
Dozens of fossils have been described, but most are only skulls and lower jaws with few dental and postcranial remains. Remingtonocetids probably varied in size with the smallest species matching Pakicetus and the largest Ambulocetus. Remingtonocetids had longer snouts than other archaeocetes, but except that the cranial morphology also varied considerably, probably reflecting different diets. The eyes were small, but the ears were large and set far apart — probably reflecting an increased emphasis on underwater hearing. The fragmentary remains of Remintonocetid postcrania suggest that they had a long neck and large hindlimbs that were probably able to support the body weight on land.
The remaining families and later crown cetaceans form a clade united by six synapomorphies: the anterior margin of external nares are located above or behind the third upper incisor, the rostrum is wide, the supraorbital processes are present but short, the anterior edge of the orbit is located above the second or third upper molar, the postorbital process forms a 90° angle with the sagittal crest, and the cervical vertebrae are short.
The Protocetids, known from both Africa and America, were a diversified family with hind limbs and a strong tail, indicating that they were strong swimmers that colonized shallow and warm oceans, such as reefs. They greatly affected cetacean evolution , because they spread across Earth's oceans. They had long snouts, large eyes, and a nasal opening located farther up the head than in earlier archaecetes — suggesting they could breathe with the head held horizontally, similar to modern cetaceans — a first step towards a blowhole. Their dentition varied, but started to evolve towards the non-masticating teeth of modern cetaceans, and they were probably active hunters. Their hindlimbs were reduced and probably short. In some species, the pelvis was not connected to the vertebral column, suggesting the hindlimbs could not have supported the body weight.
Basilosaurids, which had tiny hindlimbs and flipper-shaped forelimbs, were obligatory aquatic and came to dominate the oceans. They still lacked the echolocation and baleen tooth of modern odontocetes and mysticeti. Basilosaurids and dorudontids are the oldest obligate aquatic cetaceans for which the entire skeleton is known. They display a number of aquatic adaptations not present in earlier archaeocetes: In the vertebral column, the neck vertebrae are short, the thoracic and lumbar vertebrae of similar length, the sacral vertebrae are unfused, the sacroiliac joints are absent, and the short tail has a ball vertebra (indicating the presence of a fluke). The scapulae are broad and fan-shaped with anterior acromions and small supraspinous fossae. The ulnae are large and have transversely flat olecranons, the wrists and distal forearms are flattened in the plane of the hands, and the hind limbs are tiny.
- Pakicetidae (Thewissen, Madar & Hussain 1996)
- Ambulocetidae (Thewissen, Madar & Hussain 1996)
- Remingtonocetidae (Kumar & Sahni 1986)
- Protocetidae (Stromer 1908)
- Georgiacetinae (Gingerich et al. 2005)
- Makaracetinae (Gingerich et al. 2005)
- Protocetinae (Gingerich et al. 2005)
- Aegyptocetus (Bianucci & Gingerich 2011)
- Artiocetus (Gingerich et al. 2001)
- Crenatocetus (McLeod & Barnes 2008)
- Gaviacetus (Gingerich, Arif & Clyde 1995)
- Indocetus (Sahni & Mishra 1975)
- Maiacetus (Gingerich et al. 2009)
- Protocetus (Fraas 1904)
- Qaisracetus (Gingerich et al. 2001)
- Rodhocetus (Gingerich et al. 1994)
- Takracetus (Gingerich, Arif & Clyde 1995)
- Togocetus (Gingerich & Cappetta 2014)
- Basilotritus (Goldin & Zvonok 2013)
- Basilosaurus (Harlan 1834)
- Basiloterus (Gingerich et al. 1997)
- Ancalecetus (Gingerich & Uhen 1996)
- Chrysocetus (Uhen & Gingerich 2001)
- Cynthiacetus (Uhen 2005)
- Dorudon (Gibbes 1845)
- Masracetus (Gingerich 2007)
- Ocucajea (Uhen et al. 2011)
- Saghacetus (Gingerich 1992)
- Stromerius (Gingerich 2007)
- Supayacetus (Uhen et al. 2011)
- Zygorhiza (True 1908)
- "Archaeoceti". Paleobiology Database. Retrieved June 2013. Check date values in:
- Thewissen 2002, pp. 36–8
- Fordyce 2002, p. 216
- Geisler, Sanders & Luo 2005, Biogeography, pp. 50–2
- Fordyce 2008, p. 758
- Uhen 2008, p. 591
- Steeman et al. 2009, p. 573
- Bajpai, Thewissen & Sahni 2009, p. 675
- Konami Ando, Shin-ichi Fujiwara, Farewell to life on land – thoracic strength as a new indicator to determine paleoecology in secondary aquatic mammals, First published: 10 July 2016 DOI: 10.1111/joa.12518
- Geisler, Sanders & Luo 2005, Discussion, p. 45
- Thewissen et al. 2001, p. 277
- Rose 2006, p. 273
- Clementz et al. 2014, Fig. 1
- Gingerich 2005, Table 15.1
- Andrews, C. W. (1920). "A description of new species of zeuglodont and of leathery turtle from the Eocene of Southern Nigeria" (PDF). Proceedings of the Zoological Society of London 1919. 18: 309–19. OCLC 228169273. doi:10.1111/j.1096-3642.1919.tb02124.x. Retrieved April 2013. Check date values in:
- Bajpai, Sunil; Gingerich, Philip D (December 1998). "A new Eocene archaeocete (Mammalia, Cetacea) from India and the time of origin of whales". PNAS. 95 (26): 15464–68. Bibcode:1998PNAS...9515464B. OCLC 678707438. doi:10.1073/pnas.95.26.15464.
- Bajpai, Sunil; Thewissen, J. G. M. (2000). "A new, diminutive Eocene whale from Kachchh (Gujarat, India) and its implications for locomotor evolution" (PDF). Current Science. 79 (10): 1478–82. Retrieved July 2013. Check date values in:
- Bajpai, S; Thewissen, JG; Sahni, A (2009). "The origin and early evolution of whales: macroevolution documented on the Indian subcontinent" (PDF). J Biosci. 34 (5): 673–86. OCLC 565869881. PMID 20009264. doi:10.1007/s12038-009-0060-0. Retrieved February 2013. Check date values in:
- Bianucci, Giovanni; Gingerich, Philip D. (2011). "Aegyptocetus tarfa, n. gen. et sp. (Mammalia, Cetacea), from the middle Eocene of Egypt: clinorhynchy, olfaction, and hearing in a protocetid whale" (PDF). Journal of Vertebrate Paleontology. 31 (6): 1173–88. doi:10.1080/02724634.2011.607985. Retrieved September 2013. Check date values in:
- Clementz, Mark T.; Fordyce, R. Ewan; Peek, Stephanie L.; Fox, David L. (2014). "Ancient marine isoscapes and isotopic evidence of bulk-feeding by Oligocene cetaceans". Palaeogeography, Palaeoclimatology, Palaeoecology. 400: 28–40. doi:10.1016/j.palaeo.2012.09.009.
- 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.
- Flower, William Henry (1883). "On the Arrangement of the Orders and Families of Existing Mammalia" (PDF). Proceedings of the Zoological Society of London: 178–86. OCLC 83091701.
- Fordyce, Ewan (2002). "Cetacean Evolution". In Perrin, William R; Wiirsig, Bernd; Thewissen, J G M. Encyclopedia of Marine Mammals. Academic Press. pp. 214–25. ISBN 0-12-551340-2.
- Fordyce, R. E. (2008). "Neoceti". In Perrin, W. F.; Wursig, B.; Thewissen, J. G. M. Encyclopedia of Marine Mammals (2 ed.). Academic Press. pp. 758–763. ISBN 978-0-12-373553-9.
- Fraas, Eberhard (1904). "Neue Zeuglodonten aus dem unteren Mitteleocän vom Mokattam bei Cairo". Geologische und Paläontologische Abhandlungen. Jena: Verlag Gustav Fischer. 6 (3): 199–220. Retrieved July 2013. Check date values in:
- Geisler, Jonathan H; Sanders, Albert E; Luo, Zhe-Xi (July 2005). "A new protocetid whale (Cetacea, Archaeoceti) from the late middle Eocene of South Carolina". American Museum Novitates. 3480: 1–68. OCLC 4630500767. doi:10.1206/0003-0082(2005)480[0001:ANPWCA]2.0.CO;2. Retrieved September 2013. Check date values in:
- Gervais, Paul (1876). "Remarques au sujet du genre Phocodon d'Agasiz" (PDF). Journal de Zoologie. 5: 64–70. Retrieved July 2013. Check date values in:
- Gibbes, Robert Wilson (1845). "Description of the teeth of a new fossil animal found in the Green Sand of South Carolina". Proceedings of the Academy of Natural Sciences of Philadelphia. 2 (9): 254–256. Retrieved July 2013. [R W Gibbes 1845 in the Paleobiology Database. Lay summary] Check
|laysummary=value (help). Check date values in:
- Gingerich, P. D. (1992). "Marine Mammals (Cetacean and Sirenia) from the Eocene of Gebel Mokattam and Fayum, Egypt: Stratigraphy, Age, and Paleoenvironments". University of Michigan Papers on Paleontology. 30: 1–84. OCLC 26941847. Retrieved May 2013. Check date values in:
- Gingerich, Philip D. (2005). "Cetacea". In Rose, K. D.; Archibald, J. D. Placental mammals: origin, timing, and relationships of the major extant clades (PDF). Baltimore: Johns Hopkins University Press. pp. 234–252. Retrieved December 2013. Check date values in:
- Gingerich, Philip D (2007). "Stromerius nidensis, new archaeocete (Mammalia, Cetacea) from the Upper Eocene Qasr El-Sagha Formation, Fayum, Egypt" (PDF). Contributions from the Museum of Paleontology. 31 (13): 363–78. OCLC 214233870.
- Gingerich, Philip D.; Arif, M.; Bhatti, M. Akram; Anwar, M.; Sanders, William J. (1997). "Basilosaurus drazindai and Basiloterus hussaini, New Archaeoceti (Mammalia, Cetacea) from the Middle Eocene Drazinda Formation, with a Revised Interpretation of Ages of Whale-Bearing Strata in the Kirthar Group of the Sulaiman Range, Punjab (Pakistan)". Contributions from the Museum of Paleontology, University of Michigan. 30 (2): 55–81. OCLC 742731913.
- Gingerich, Philip D.; Arif, Muhammad; Clyde, William C. (1995). "New Archaeocetes (Mammalia, Cetacea) from the middle Eocene Domanda Formation of the Sulaiman Range, Punjab (Pakistan)". Contributions from Museum of Paleontology, The University of Michigan. 29 (11): 291–330. OCLC 34123868. Retrieved February 2013. Check date values in:
- Gingerich, Philip D.; Cappetta, Henri (2014). "A New Archaeocete and Other Marine Mammals (Cetacea and Sirenia) from Lower Middle Eocene Phosphate Deposits of Togo". Journal of Paleontology. 88 (1): 109–129. doi:10.1666/13-040.
- Gingerich, Philip D.; Raza, S. M.; Arif, M.; Anwar, M.; Zhou, X. (1994). "New whale from the Eocene of Pakistan and the origin of cetacean swimming". Nature. 368 (6474): 844–47. Bibcode:1994Natur.368..844G. OCLC 742745707. doi:10.1038/368844a0. Retrieved April 2013. Check date values in:
- 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 2013. Check date values in:
- Gingerich, Philip D.; Uhen, Mark D. (1996). "Ancalecetus simonsi, a new dorudontine archaeocete (Mammalia, Cetacea) from the early late Eocene of Wadi Hitan, Egypt" (PDF). Contributions from the Museum of Paleontology, University of Michigan. 29 (13): 359–401. OCLC 742731018. Retrieved July 2013. Check date values in:
- Gingerich, Philip D; Ul-Haq, Munir; Khan, Intizar Hussain; Zalmout, Iyad S. (2001). "Eocene stratigraphy and archaeocete whales (Mammalia, Cetacea) of Drug Lahar in the eastern Sulaiman range, Balochistan (Pakistan)". Contributions from the Museum of Paleontology, University of Michigan. 30 (11): 269–319. OCLC 50061585. Retrieved July 2013. Check date values in:
- Gingerich, Philip D.; ul-Haq, Munir; von Koenigswald, Wighart; Sanders, William J.; Smith, B. Holly; Zalmout, Iyad S. (2009). "New Protocetid Whale from the Middle Eocene of Pakistan: Birth on Land, Precocial Development, and Sexual Dimorphism". PLoS ONE. 4 (2): e4366. Bibcode:2009PLoSO...4.4366G. OCLC 678622523. PMC . PMID 19194487. doi:10.1371/journal.pone.0004366.
- Gingerich, Philip D.; Ul-Haq, Munir; Zalmout, Iyad S.; Khan, Intizar Hussain; Malkani, S. (September 2001). "Origin of whales from early artiodactyls: hands and feet of Eocene Protocetidae from Pakistan". Science. 293 (5538): 2239–2242. Bibcode:2001Sci...293.2239G. ISSN 0036-8075. PMID 11567134. doi:10.1126/science.1063902.
- Gingerich, Philip D.; Zalmout, Iyad S.; Ul-Haq, Munir; Bhatti, M. Akram (2005). "Makaracetus bidens, a new protocetid archaeocete (Mammalia, Cetacea) from the early middle Eocene of Balochistan (Pakistan)" (PDF). Contributions from the Museum of Paleontology. 31 (9): 197–210. OCLC 742723177. Retrieved March 2013. Check date values in:
- Goldin, Pavel; Zvonok, Evgenij (2013). "Basilotritus uheni, a New Cetacean (Cetacea, Basilosauridae) from the Late Middle Eocene of Eastern Europe". Journal of Paleontology. 87 (2): 254–68. OCLC 4960242901. doi:10.1666/12-080R.1.
- Harlan, R. (1834). "Notice of fossil bones found in the Tertiary formation of the State of Louisiana". Transactions of the American Philosophical society. 4: 397–403. JSTOR 1004838. OCLC 63356837. doi:10.2307/1004838.
- Hector, J. (1881). "Notes on New Zealand Cetacea, recent and fossil". Transactions and Proceedings of the New Zealand Institute. 13: 434–37. OCLC 31837919. Retrieved July 2013. Check date values in:
- Hulbert, Jr, Richard C.; Petkewich, Richard M.; Bishop, Gale A.; Bukry, David; Aleshire, David P. (September 1998). "A New Middle Eocene Protocetid Whale (Mammalia: Cetacea: Archaeoceti) and Associated Biota from Georgia". Journal of Paleontology. 72 (5): 907–927. JSTOR 1306667. OCLC 4908698029.
- Kumar, K.; Sahni, A. (1986). "Remingtonocetus harudiensis, new combination, a middle Eocene archaeocete (Mammalia, Cetacea) from western Kutch, India". Journal of Vertebrate Paleontology. 6 (4): 326–349. OCLC 4649653943. doi:10.1080/02724634.1986.10011629.
- McLeod, S. A.; Barnes, L. G. (2008). "A new genus and species of Eocene protocetid archaeocete whale (Mammalia, Cetacea) from the Atlantic Coastal plain". In Wang, Xiaoming; Barnes, Lawrence G. Geology and Vertebrate Paleontology of Western and Southern North America (PDF). Science Series, Natural History Museum of Los Angeles County. 41. pp. 73–98. Retrieved February 2013. Check date values in:
- Rose, Kenneth David (2006). The Beginning of the Age of Mammals. JHU Press. ISBN 978-0-8018-8472-6.
- Sahni, Ashok; Mishra, Vijay Prakash (1975). "Lower Tertiary vertebrates from western India". Monograph of the PaleontologicalSociety of India. 3: 1–48. ASIN B0007AL8UE. OCLC 3566369.
- Steeman, M. E.; Hebsgaard, M. B.; Fordyce, R. Ewan; Ho, S. Y. W.; Rabosky, D. L.; Nielsen, R.; Rahbek, C.; Glenner, H.; Sørensen, M. V.; Willerslev, E. (2009). "Radiation of Extant Cetaceans Driven by Restructuring of the Oceans". Systematic Biology. 58 (6): 573–585. PMC . PMID 20525610. doi:10.1093/sysbio/syp060.
- Stromer, Ernst (1908). Die Archaeoceti des ägyptischen Eozäns: Beiträge zur paläontologie und geologie Österreich-Ungarns und des Orients (PDF). W. Braumüller. OCLC 21174007. Retrieved July 2013. Check date values in:
- Thewissen, J. G. M. (2002). "Archaeocetes, Archaic". In Perrin, William R; Wiirsig, Bernd; Thewissen, J. G. M. Encyclopedia of Marine Mammals. Academic Press. pp. 36–9. ISBN 0-12-551340-2.
- Thewissen, J. G. M.; Hussain, S.T. (2000). "Attockicetus praecursor, a new remingtonocetid cetacean from marine Eocene sediments of Pakistan". Journal of Mammalian Evolution. 7 (3): 133–46. OCLC 362777268. doi:10.1023/A:1009458618729.
- 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. 191. pp. 1–86. ISBN 9783929907322. OCLC 36463214.
- 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: 277–81. Bibcode:2001Natur.413..277T. OCLC 118116179. PMID 11565023. doi:10.1038/35095005. Retrieved February 2013. Check date values in:
- Trivedy, A. N.; Satsangi, P. P. (1984). "A new archaeocete (whale) from the Eocene of India". Abstracts of 27th International Geological Congress, Moscow. 1: 322–23.
- True, F.W. (1908). "The fossil cetacean, Dorudon serratus Gibbes". Bulletin of the Museum of Comparative Zoology. 52 (4): 5–78. OCLC 355813868. OL 19219818M. Retrieved July 2013. Check date values in:
- Uhen, Mark D (1998). "New protocetid (Mammalia, Cetacea) from the late middle Eocene Cook Mountain Formation of Louisiana". Journal of Vertebrate Paleontology. 18 (3): 664–8. JSTOR 4523937. OCLC 204612030. doi:10.1080/02724634.1998.10011093.
- Uhen, Mark D. (2005). "A new genus and species of archaeocete whale from Mississippi". Southeastern Geology. 43 (3): 157–72.
- Uhen, M. D. (2008). "New protocetid whales from Alabama and Mississippi, and a new cetacean clade, Pelagiceti". Journal of Vertebrate Paleontology. 28 (3): 589–593. doi:10.1671/0272-4634(2008)28[589:NPWFAA]2.0.CO;2. Lay summary (December 2013).
- Uhen, Mark D; Gingerich, Philip D (January 2001). "New genus of dorudontine archaeocete (Cetacea) from the middle-to-late Eocene of South Carolina". Marine Mammal Science. 17 (1): 1–34. OCLC 204061291. doi:10.1111/j.1748-7692.2001.tb00979.x.
- Uhen, Mark D.; Pyenson, Nicholas D.; Devries, Thomas J.; Urbina, Mario; Renne, Paul R. (2011). "New Middle Eocene Whales from the Pisco Basin of Peru". Journal of Paleontology. 85 (5): 955–69. OCLC 802202947. doi:10.1666/10-162.1. Retrieved July 2013. Check date values in:
- 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.