Abstract
Balaenopteroids (Balaenopteridae + Eschrichtiidae) are a diverse lineage of living mysticetes, with seven to ten species divided between three genera (Megaptera, Balaenoptera and Eschrichtius). Extant members of the Balaenopteridae (Balaenoptera and Megaptera) are characterized by their engulfment feeding behavior, which is associated with a number of unique cranial, mandibular, and soft anatomical characters. The Eschrichtiidae employ suction feeding, which is associated with arched rostra and short, coarse baleen. The recognition of these and other characters in fossil balaenopteroids, when viewed in a phylogenetic framework, provides a means for assessing the evolutionary history of this clade, including its origin and diversification. The earliest fossil balaenopterids include incomplete crania from the early late Miocene (7–10 Ma) of the North Pacific Ocean Basin. Our preliminary phylogenetic results indicate that the basal taxon, “Megaptera” miocaena should be reassigned to a new genus based on its possession of primitive and derived characters. The late late Miocene (5–7 Ma) balaenopterid record, except for Parabalaenoptera baulinensis and Balaenoptera siberi, is largely undescribed and consists of fossil specimens from the North and South Pacific and North Atlantic Ocean basins. The Pliocene record (2–5 Ma) is very diverse and consists of numerous named, but problematic, taxa from Italy and Belgium, as well as unnamed taxa from the North and South Pacific and eastern North Atlantic Ocean basins. For the most part Pliocene balaenopteroids represent extinct species and genera and reveal a greater degree of morphological diversity than at present. The Pleistocene record is very limited and, unfortunately, fails to document the evolutionary details leading to modern balaenopteroid species diversity. It is evident, however, that most extant species evolved during the Pleistocene. Morphological and molecular based phylogenies support two competing hypotheses concerning relationships within the Balaenopteroidea: (1) balaenopterids and eschrichtiids as sister taxa, and (2) eschrichtiids nested within a paraphyletic Balaenopteridae. The addition of fossil taxa (including a new Pliocene species preserving a mosaic of balaenopterid and eschrichtiid characters) in morphological and “total evidence” analyses, offers the potential to resolve the current controversy concerning the possible paraphyly of Balaenopteridae.
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References
Aguilar, A. (2001). Fin Whale Balaenoptera physalus. In: Encyclopedia of Marine Mammals, W. F. Perrin, B. Wursig, and J. G. M. Thewissen, eds., pp. 435–438, Academic Press, San Diego.
Andrews, R. C. (1914). Monographs of Pacific Cetacea. 1-The California gray whale (Rhachianectes glaucus Cope). 1. Member Am. Mus. Nat. Hist. new series 1: 227–287.
Andrews, R. C. (1916). Monographs of Pacific Cetacea. 2-The sei whale (Balaenoptera borealis Lesson). 1. History, habits, external anatomy, osteology, and relationship. Member Am. Mus. Nat. Hist., new series 1: 289–388.
Andrews, R. C. (1918). A note on the skeletons of Balaenoptera edeni, Anderson, in the Indian Museum, Calcutta. Records Indian Mus. 15: 105–107.
Arnason, U., and Gullberg, A. (1994). Relationship of baleen whales established by cytochrome b sequence comparison. Nature 367: 726–728.
Arnason, U., and Gullberg, A. (1996). Cytochrome b nucleotide sequences and the identifcation of five primary lineages of extant cetaceans. Mol. Biol. Evol. 13: 407–417.
Arnason, U., Gullberg, A., and Widegren, B. (1993). Cetacean mitochondrial DNA control region: sequences of all extant baleen whales and two sperm whale species. Mol. Biol. Evol. 10: 960–970.
Arnason, U., Gullberg, A., and Janke, A. (2004). Mitogenomic analyses provide new insights into cetacean origin and evolution. Gene 333: 27–34.
Arnold, P., Marsh, H., and Heinsohn, G. (1987). The occurrence of two forms of minke whales in east Australian waters with a description of external characters and skeleton of the diminutive or dwarf form. Sci. Rep. Whales Res. Inst. 38: 1–46.
Baker, C. S., Slade, R. W., Bannister, J. L., Abernathy, R. B., Weinrich, M. T., Lien, J., Urban, J., Corkeron, P., Calambokidis, J., Vazquez, O., and Palumbi, S. R. (1994). The hierarchical structure of mitochondrial, DNA gene flow among humpback whales worldwide. Mol. Ecol. 3: 313–327.
Baker, R. H., and DeSalle, R. (1997). Multiple sources of character information and the phylogeny of Hawaiian drosophilids. Syst. Biol. 46: 654–673.
Baker, R. H., Yu, X., and DeSalle, R. (1998). Assessing the relative contribution of molecular and morphological characters in simultaneous analysis trees. Mol. Phylogenet. Evol. 9: 427–436
Barnes, L. G. (1977). Outline of eastern north Pacific fossil cetacean assemblages. Syst. Zool. 25: 321–343.
Barnes, L. G. (1990). The fossil record and evolutionary relationships of the genus Tursiops, In: The Bottlenose Dolphin, S. Leatherwood and R. R. Reeves, eds., pp. 3–26, Academic Press, New York.
Barnes, L. G., and McLeod, S. (1984). The fossil record and phyletic relationship of gray whales. In: The Gray Whale Eschrichtius robustus, M. L. Jones, S. L. Swartz, and S. Leatherwood, eds., pp. 3–32, Academic Press, New York.
Berube, M., and Aguilar, A. (1998). A new hybrid between a blue whale, Balaenoptera musculus, and a fin whale, B. physalus: Frequency and implications of hybridization. Mar. Mamm. Sci. 14: 82–98.
Best, P. (1985). External characters of the southern minke whales and the existence of a diminutive form. Sci. Rep. Whales Res. Inst. 36: 1–33.
Bisconti, M. (2003). Systemtics, palaeoecology, and palaeogeography of archaic mysticetes from the Italian Neogene. Unpublished Ph.D. dissertation, University of Pisa.
Brandt, J. F. (1873). Untersuchungen über die Fossilen und Subfossilen Cetaceen Europa's. Mémoires de l'Academie Imperiale des Sciences de St. Pétersbourg [7] 20: 1–372.
Bremer, K. (1988). The limits of amino acid sequence data in angiosperms phylognetic reconstruction. Evolution 42: 785–803.
Bremer, K. (1994). Branch support and tree stability. Cladistics 10: 295–304.
Capellini, G. (1875). Sui Cetoterii bolognesi. Memoire dell’ Accademia delle Scienze dell’ Instituto di Bologna [3] 5: 595–626.
Caretto, P. G. (1970). La balenottera delle sabbie plioceniche di Valmontasca (Vigliano d'Asti). Boll. Soc. Paleontol. 9: 3–75.
Cassens, I., Vicario, S., Waddell, V. G., Balchowsky, H., Van Belle, D., Ding, W., Fan, C., Lai Mohan, R. S., Simones, P. C., Bastida, R., Meyer, A., Stanhope, M. J., and Milinkovitch, M. C. (2000). Independent adaptation to riverine habitats allowed survival of ancient lineages. Proc. Natl. Acad. Sci. U.S.A. 97: 11343–11347.
Cederlund, B. A. (1939). A subfossil gray whale discovered in Sweden in 1859. Zool. Bidr. Uppsala 18: 269–285.
Clarke, R. (2004). Pygmy fin whales. Mar. Mamm. Sci. 20: 329–334.
Cope, E. D. (1872). On an extinct whale from California. Proc. Acad. Nat. Sci. Philadelphia 24: 29–30.
Cope, E. D. (1890). The Cetacea. Am. Nat. 24: 599–616.
Cope, E. D. (1896). Sixth contribution to the knowledge of the marine Miocene fauna of North America. Proc. Am. Philos. Soc. 35: 139–146
Dalebout, M. L., Mead, J. G., Baker, C. S., Baker, A. N., and Helden, A. van (2002). A new species of beaked whale Mesoplodon perrini sp. N. (Cetacea: Ziphiidae) discovered through phylogenetic analysis of mitochondrial DNA sequences. Mar. Mamm. Sci. 18: 577–608.
Dathe, F. (1983). Megaptera hubachi n. sp, ein fossiler Bartenwal aus marinen Sandsteinschichten des tieferen Pliozäns Chiles. Z. geol. Wiss. Berlin 11: 813–848.
Deméré, T. A. (1986). The fossil whale Balaenoptera davidsonii (Cope 1872) with a review of other Neogene species of Balaenoptera (Cetacea: Mysticeti). Mar. Mamm. Sci. 2: 277–298.
Deméré, T. A., and Cerutti, R. A. (1981). A Pliocene shark attack on a cetotheriid whale. J. Paleontol. 56: 1480–1482.
Deinse, A. B. van, and Junge, G. C. A. (1937). Recent and other finds of the gray whale in the Atlantic. Temminckia 2: 161–188.
Desmoulins, A. (1822). Dictionaire Classique d'Historie Naturalle 2: 155–165.
Dizon, A., Lux, C. A., LeDuc, R. G., Urban, J., Henshaw, M., Baker, C. S., and Brownell, R., Jr. (1996). An interim phylogenetic analysis of sei and Bryde's whales; whale mitochondrial DNA control region sequences. Rep. Int. Whaling Commun 46: 669.
Dizon, A., Lux, C. A., LeDuc, R. G., Urban, J., Henshaw, M., Baker, C. S., Cipriano, F., and Brownell, R., Jr. (1998). Molecular phylogeny of the Bryde's whale/sei whale complex: separate species status for the pygmy Bryde's form? Rep. Int. Whaling Commun 47: 398.
Dooley, A. C., Jr., Fraser, N. C., and Luo, Z.-X. (2004). The earliest known member of the rorqual-gray whale clade (Mammalia, Cetacea). J. Vertebr. Paleontol. 24: 453–463.
Fischer, J. B. (1829). Synopsis Mammalium, Sumtibus. JG Cottae, Stuttgart, 752 pp.
Flower, W. H. (1869). On the osteology of the cachalot or sperm whale (Physeter macrocephalus). Trans. Zool. Soc. Lond. 6: 309–369.
Fordyce, E. (1984). Evolution and zoogeography of cetaceans in Australia. In: Vertebrate Zoogeography and Evolution in Australasia, M. Archer and G. Clayton, eds., pp. 929–948, Hesperian Press, Perth, Western Australia.
Fordyce, E. (1994). Waipatia maerewhenua, new genus and new species (Waipatiidae, new family), and archaic late Oligocene dolphin (Cetacea: Odontoceti: Platanistoidea) from New Zealand. Proc. San Diego Soc. Nat. Hist. 29: 147–176.
Gatesy, J. G., Milinkovitch, M., Waddell, V., and Stanhope, M. (1999). Stability of cladistic relationships between Cetacea and higher-level artiodactyla taxa. Syst. Biol. 48: 6–20.
Geisler, J. H., and Luo, Z.-X, (1996). The petrosal and inner ear of Herpetocetus sp. (Mammalia: Cetacea) and their implications for the phylogeny and hearing of archaic mysticetes. J. Paleontol. 70: 1045–1066.
Geisler, J. H., and Sanders, A. E. (2003). Morphological evidence for the phylogeny of the Cetacea. J. Mamm. Evol. 10: 23–129.
Gillette, D. D. (1975). Catalogue of type specimens of fossil vertebrates, Academy of Natural Sciences, Philadelphia. Introduction and part 1: Marine Mammals. Proc. Acad. Nat. Sci. Philadelphia 127: 63–66.
Gingerich, P. D., Arif, M., and Clyde, W. (1995). New archaeocetes (Mammalia: Cetacea) from the middle Eocene Domanda Formation of the Sulaiman Range, Punjab (Pakistan). Contr. Mus. Paleontol. Univ. Mich. 29: 291–230.
Gray, J. E. (1864). Notes on the whalebone-whales; with a synopsis of the species. Ann. Mag. Nat. Hist. 3: 345–353.
Gray, J. E. (1868). Synopsis of the Species of Whales and Dolphins in the Collection of the British Museum, Bernard Quaritch, London.
Hamilton, H., Caballero, S., Collins, A. G., and Brownell, R. L., Jr. (2001). Evolution of river dolphins. Proc. Roy. Soc. Lond. B 268: 549–556.
Hanna, G. D., and McLellan, M. E. (1924). A new species of fin whale from the type locality of the Monterey Group. Proc. Calif. Acad. Sci. 13: 237–241.
Harington, C. (1977). Marine mammals in the Champlain Sea and the Great Lakes. Ann. New York Acad. Sci. 288: 508–537.
Harland, W. B., Armstrong, R. L., Cox, A. V., Craig, L. E., Smith, A. G., and Smith, D. G. (1990). A Geologic Time Scale 1989, Cambridge University Press, Cambridge, UK.
Hershkovitz, P. (1966). Catalog of living whales. Bull.US Natl. Mus. 246: 1–259.
Heyning, J. E. (1997). Sperm whale phylogeny revisited: Analysis of the morphological evidence. Mar. Mamm. Sci. 13: 596–613.
Huelsenbeck, J. P., Bull, J., and Cunningham, C. (1996). Combining data in phylogenetic analyses. Trends Ecol. Evol. 11: 152–157.
Ichihara, T. (1966). The pygmy blue whale Balaenoptera musculus brevicauda, a new subspecies from the Antarctic, In: Whales, Dolphins and Porpoises, K. S. Norris, ed., pp. 79–113, University of California Press, Berkeley.
Ivashin, M. V, (1958). O sistematicheskom polozhenii gorbatogo kita Megaptera nodosa lalandii Fischer) yuzhnogo polushariya. Byulleten’ Sovetskoi Antarkticheskoi Ekspeditsii 3: 77–78.
Jaeger, G. F. von. (1837). Ueber die fossilien Säugethiere, welche in Wurtemberg in verschiedenen Formationene aufgefunden worden sind, nebst geognostischen Bemerkungen uber diese Formatiolnen.Stuttgart.
Jefferson, T. A., Leatherwood, S., and Webber, M. A. (1993). Marine Mammals of the World FAO Species Identification Guide, United Nations Environment Programme, Food and Agriculture Organization of the United Nations, Rome.
Junge, G. C. A. (1950). On a specimen of the rare fin whale, Balaenoptera edeni Anderson, stranded on Pulu Sugi near Singapore. Zool. Verhandelingen 9: 1–26.
Kearney, M., and Clark, J. (2003). Problems due to missing data in phylogenetic analyses including fossils: a critical review. J. Vertebr. Paleontol. 23: 263–274.
Kellogg, R. (1922). Description of the skull of Megaptera miocaena, a fossil humpback whale from the Miocene diatomaceous earth of Lompoc, California. Proc. US Natl. Mus. 61: 1–18.
Kellogg, R. (1924). Description of a new genus and species of whalebone whale from the Calvert Cliffs, Maryland. Proc. US Natl. Mus. 63: 1–14.
Kellogg, R. (1928). The history of whales-their adaptation to life in the water. Q. Rev. Biol. 3: 29–76, 176–208.
Kellogg, R. (1931). Pelagic mammals of the Temblor Formation of the Kern River region, California. Proc. Calif. Acad. Sci. [4] 19: 217–397.
Kellogg, R. (1934). The Patagonian fossil whalebone whale, Cetotherium moreni (Lydekker). Carnegie Inst. Washington 447: 64–81.
Kellogg, R. (1944). Fossil cetaceans from the Florida Tertiary. Bull. Mus. Comp. Zool. 44: 433–471.
Kellogg, R. (1969). Cetothere skeletons from the Miocene Choptank Foramtion of Maryland and Virginia. US Natl. Mus. Bull. 294: 1–39.
Kimura, T., and Ozawa, T. (2002). A new cetothere (Cetacea: Mysticeti) from the early Miocene of Japan. J. Vertebr. Paleontol. 22: 684–702.
Lambertsen, R. H. (1983). Internal mechanism of rorqual feeding. J. Mamm. 64: 76–88.
Lambertsen, R. H., Ulrich, N., and Straley, J. (1995). Frontomandibular stay of Balaenopteridae: a mechanism for momentum recapture during feeding. J. Mamm. 76: 877–899.
Lindow, B. E. K. (2002). The internal relationships of the baleen whales-a preliminary analysis, In: Resume-haefte, Hvaldag 2002, 24 septembre 2002, B. E. K. Lindow ed., Midtsonderjyllands Museum, Gram, Denmark.
Lönnberg, E. (1931). The skeleton of Balaenoptera brydei Ö. Olsen. Arkiv fur Zoologi (A) 23: 1–23.
Lydekker, R. (1887a). The Cetacea of the Suffolk Crag. Q. J. Geol. Soc. Lond. 43: 7–18.
Lydekker, R. (1887b). Catalogue of the Fossil Mammalia in the British Museum (Natural History), Part V, British Museum, London.
Mackintosh, N. A. (1942). The southern stocks of whalebone whales. Discovery Rep. 22: 197–300.
McKenna, M. C., and Bell, S. K. (1997). Classification of Mammals Above the Species Level, Columbia University Press, New York.
McLeod, S. A., Whitmore, F. C., and Barnes, L. G. (1993). Evolutionary relationships and classification, In: The Bowhead Whale, J. J. Burns, J. J. Montague, and C. J. Cowles, eds., pp. 45–70, Special Publication Number 2, The Society for Marine Mammalogy, Lawrence, Kansas.
Mead, J. G., and Mitchell, E. D. (1984). Atlantic gray whales, In: The Gray Whale Eschrictius robustus, M. L. Jones, S. L. Swartz, and S. Leatherwood, eds., pp, 33–53, Academic Press, San Diego.
Messenger, S. L., and McGuire, J. A. (1998). Morphology, molecules, and the phylogenetics of cetaceans. Syst. Biol. 47: 90–124.
Miller, G. S. (1923). The telescoping of the cetacean skull. Smithson. Misc. Coll. 75: 1–55.
Mitchell, E. D. (1989). A new cetacean from the late Eocene La Meseta Formation, Seymour Island, Antarctic Peninsula. Can. J. Fish. Aquat. Sci. 46: 2219–2234.
Morgan, G. S. (1994). Miocene and Pliocene marine mammal faunas from the Bone Valley Formation. Proc. San Diego Soc. Nat. Hist. 29: 239–268.
Muizon, C., de. (1987). The affinities of Notocetus vanbenedeni, an early Miocene platanistoid (Cetacea, Mammalia) from Patagonia, southern Argentina. Am. Mus. Novitates 2904: 1–27.
Oishi, M. (1997). A dentary of Sibbaldus sp. from the lower Pliocene of Hiraizumi, Iwate Prefecture, northeast Japan. Bull. Iwate Prefectural Mus. 15: 1–10.
Oishi, M., and Hasegawa, Y. (1995). Diversity of fossil cetaceans from eastern Japan. Island Arc 3: 436–452.
O'Leary, M., and Geisler, J. (1999). The position of Cetacea within Mammalia: Phylogenetic analysis of morphological data from extinct and extant taxa. Syst. Biol. 48: 455–490.
Omura, H. (1959). Bryde's whale from the coast of Japan. Sci. Rep. Whales Res. Inst. 14: 1–33.
Omura, H. (1966). Bryde's whale in the northwest Pacific, In: K. S. Norris, ed., Whales, Dolphins and Porpoises, pp. 70–78, University of California Press, Berkeley.
Omura, H. (1975). Osteological study of the minke whale form the Antarctic. Sci. Rep. Whales Res. Inst. 27: 1–26.
Omura, H., Ichihara, T., and Kasuya, T. (1970). Osteology of the pygmy blue whale with additional information on external and other characteristics. Sci. Rep. Whales Res. Inst. 22: 1–27.
Oshumi, S., Masaki, Y., and Kawamura, A. (1970). Stock of the Antarctic minke whale. Sci. Rep. Whales Res. Inst. 22: 75–126.
Owen, R. (1844). Appendix to Professor Henslow's paper, consisting of a description of the fossil tympanic bones referable to four distinct species of Balaena. Proc. Geol. Soc. Lond. 4: 283–286.
Packard, E. L., and Kellogg, R. (1934). A new cetothere from the Miocene Astoria Formation of Newport, Oregon. Carnegie Inst. Washing. Publ. 447: 1–62.
Pastene, L. A., Fujise, Y., and Numachi, K. (1994). Differentiation of mitochondrial DNA between ordinary and dwarf forms of southern minke whale. Rep. Int. Whaling Commun 44: 277–281.
Perrin, W. F., and Brownell, R. L., Jr. (2001). Minke whales. In: The Encyclopedia of Marine Mammals, W. F. Perrin, B. Wursig and J. G. M. Thewissen, eds., pp. 750–754, Academic Press, San Diego.
Perrin, W. F., Reeves, R. R., Taylor, B. L., Baker, C. S., Whales, R. S., Clapham, O. A., Cipriano, F., Dizon, A. E., and Mesnick, S. L. (2004). Report of the Workshop on Shortcomings of Cetacean Taxonomy in Relation to Needs of Conservation and Management, April 30–May 2, 2004, la Jolla, California. NOAA NMFS Technical Memorandum LJ-04.
Pilleri, G., and Pilleri, O. (1989). Balaenoptera siberi, ein neuer balaenopterid (Cetacea) aus der Pisco-Formation Perus I. Beitrage zur Palaeontologie der Cetaceen Perus I, G. Pilleri, ed., pp. 63–106, Hirnanatomisches Institut der Universitat Bern Ostermundigen, Switzerland.
Pilleri, G. (1990). Balaenoptera siberi, ein neuer balaenopterid (Cetacea) aus der Pisco-Formation Perus II. In: Beitrage zur Palaeontologie der Cetaceen und Pinnipedier der Pisco Formation Perus, G. Pilleri, ed., pp. 205–215, Hirnanatomisches Institut der Universitat Bern Ostermundigen, Switzerland.
Pivorunas, A. (1979). The feeding mechanisms of baleen whales. Am. Sci. 67: 432–440.
Portis, A. (1885). Catalogo descrittivo dei Talassoterii rinvenuti nei terreni terziarii del Piemonte e della Liguria. Memoire della R. Accademia delle scienze di Torino, Turin [2] 37: 247–365.
Reynolds, J. E., III, and Rommel, S. A. (eds.). (1999). Biology of Marine Mammals, Smithsonian Instiuition Press, Washingotn, DC.
Rice, D. W. (1998). Marine Mammals of the World: Systematics and Distribution, Special Publication 4, The Society of Marine Mammalogy, Lawrence, KS.
Rychel, A., Reeder, T. W., and Berta, A. (2004). Phylogeny of mysticete whales based on mitochondrial and nuclear data. Mol. Phylogenet. Evol. 32: 892–901.
Sacco, F. (1890). Sopra una mandibola di Balenoptera dell’ Astigiana. Atti della R. Accadmia delle scienze di Torino, Turin 25: 3–8.
Sanderson, S. L., and Wassersug, R. (1993). Convergent and alternative designs for vertebrate suspension feeding, In: The Skull, Vol. 3, J. Hanken and B. K. Hall, eds., pp. 37–112, University of Chicago Press, Chicago.
Sears, R. (2001). Blue Whale Balaenoptera musculus. In: Encyclopedia of Marine Mammals, W. F. Perrin, B. Wursig, and J. G. M. Thewissen, eds., pp. 112–116, Academic Press, San Diego.
Soot-Ryen, T. (1961). On a Bryde's whale stranded on Curacao. Norsk Hvalfangsttidende 50: 323–332.
Sorenson, M. D. (1999). TreeRot, Version 2, Boston University, Boston.
Strobel, P. (1875). Notizie preliminari su le Balenoptere fossili subappenine del Museo parmense. Boll. Com. Geol. Italy, 6: 131–140.
Strobel, P. (1881). Iconografia comparata delle ossa fossili subappeninine del Musueo parmense. Boll. Com. Geol. Italy 6: 131–140.
Swofford, D. L. (2001). PAUP ∗: Phylogenetic Analyis Using Parsimony (∗ and other methods), Version 4.0b8, Sinauer Associates, Sunderland, Massachusetts.
Tomilin, A. G. (1946). Thermoregulation and the geographical races of cetaceans. (Termoregulyatsiya I geograficheskie racy kitoobraznykh.) Doklady Akademii Nauk CCP 54(5): 465–472. (English and Russian).
True, F. W. (1912). The genera of fossil whalebone whales allied to Balaenoptera. Smithson. Misc. Collect. 59(6): 1–8.
Uhen, M. (1998). Middle to late Eocene Basilosaurines and Dorudontines. In: The Emergence of Whales, J. G. M. Thewissen, ed., pp. 29–61, Plenum, New York.
Uhen, M., (1999). New species of protocetid archaeocete whale, Eocetus wardii (Mammalia: Cetacea) from the middle Eocene of North Carolina. J. Paleontol. 73: 512–528.
Uhen, M., and Gingerich, P. D. (2001). New genus of dorudontine archaeocete (Cetacea) from the middle-to-late Eocene of South Carolina. Mar. Mamm. Sci. 17: 1–34.
Utrecht, W. L. van, and Van der Spoel, S. (1962). Observations on a minke whale (Mammalia, Cetacea) from the Antarctic. Z Saugetierkunde 27: 217–221.
Van Beneden, P.-J. (1859). Sur la decouverte d'ossements fossiles faite a Saint-Nicolas. Bull. Acad. Szci. Belgique (2) VIII: 123–146.
Van Beneden, P.-J. (1872). Les baleines fossiles d'Anvers. Bull. Acad. Sci. Belgique [2] 34: 6–20.
Van Beneden, P.-J. (1875). Le squelette de la Baleine fossile du Musée de Milan. Bull. Acad. Sci. Belgique [2] 40: 736–758.
Van Beneden, P.-J. (1880). Les mysticetes a court fanons des sables des environs d'Anvers. Bull. Acad. Sci. Belgique [2] 50: 11–27.
Van Beneden, P.-J. (1882). Description des ossements fossils des environs d’ Anvers. Troisieme partie. Cétacés, genres Megaptera, Balaenoptera, Burtinopsis, et Erpetocetus. Ann. Mus. Hist. nat. Belgique 7: 1–90.
Van Beneden, P.-J., and Gervais, P. (1868–1879). Osteographie des Cetaces. Atlas, Arthus Bertrand, Paris.
Wada, S., Kobayash, T., and Numachi, K. (1991). Genetic variability and differentiation of mitochondrial DNA in minke whales. Rep. Int. Whaling Commun. 13: 203–215 (special issue).
Wada, S., Oishi, M., and Yamada, T. (2003). A newly discovered species of living baleen whale. Nature 426: 278–281.
Werth, A. (2000). Feeding in marine mammals, In: Feeding K. Schwenk, ed., pp. 487–526, Academic Press, New York.
Wiens, J. J. (1998). Combining data sets with different phylogenetic histories. Syst. Biol. 47: 568–581.
Wikinson, M. (1994). Common cladistic information and its consensus representation: reduced Adams and reduced cladistic consensus trees and profiles. Syst. Biol. 43: 343–368.
Wilkinson, M. (2003). Missing entries and multiple trees: Instability, relationship, and support in parsimony analysis. J. Vertebr. Paleontol. 23: 311–323.
Williamson, G. R. (1959). Three unusual rorqual whales from the Antarctic. Proc. Zool. Soc. Lond. 133: 135–144.
Zeigler, C. V., Chan, G. L., and Barnes, L. G. (1997). A new late Miocene balaenopterid whale (Cetacea: Mysticeti), Parabalaenoptera baulinensis, (new genus and species) from the Santa Cruz Mudstone, Point Reyes Peninsula, California. Proc. Calif. Acad. Sci. 50: 115–138.
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Deméré, T.A., Berta, A. & McGowen, M.R. The Taxonomic and Evolutionary History of Fossil and Modern Balaenopteroid Mysticetes. J Mammal Evol 12, 99–143 (2005). https://doi.org/10.1007/s10914-005-6944-3
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DOI: https://doi.org/10.1007/s10914-005-6944-3