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Genus Arctomelon (Gastropoda, Volutidae) in the Tertiary of the northwestern Pacific: Evolution and adaptations

Published online by Cambridge University Press:  20 May 2016

Anton E. Oleinik
Anton E. Oleinik*
Affiliation:
Department of Earth and Atmospheric Sciences, Purdue University, West Lafayette, Indiana 47907
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Abstract

The fossil record of the volutid gastropod Arctomelon is represented by three species from the Koryak Upland and the Kamchatka Peninsula (Russian northeast), ranging in age from late middle Eocene to early Miocene. Although Recent Arctomelon stearnsii (Dall, 1872) from the northeastern Pacific is a cold-water species, paleontological data point to the origin of the genus in shallow, warm-water conditions that existed in high latitudes of the northwestern Pacific during Paleogene time. The fossil record also indicates survival of the genus during the climatic coolings through the Cenozoic. It is apparent that Arctomelon successfully adapted to the new cooler and deeper-water conditions. Despite this major change of life habit, shell morphology has remained fairly unchanged since the Eocene. Two new species of the genus Arctomelon, A. harasewychi sp. nov. and A. rateginense sp. nov., are described.

Type
Research Article
Information
Journal of Paleontology , Volume 70 , Issue 2 , March 1996 , pp. 236 - 246
Copyright
Copyright © The Paleontological Society 

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References

Adams, H., and Adams, A. 1853-1858. The genera of Recent Mollusca arranged according to their organization, Vol. 1:484 p., Vol. 2: 661 p., Vol. 3: 138 pl., London, John Van Voorst.Google Scholar
Akhmetiev, M. A. 1976. Climatic fluctuations during Paleogene and Neogene in the middle and high latitudes of the Earth (paleobotanical data), p. 138146. In IGC XXV, Reports of the Soviet Geologists, Paleontology, Marine Geology. Nauka Publishers, Moscow, [in Russian].Google Scholar
Allison, R. C., and Marincovich, L. Jr. 1982. A late Oligocene or earliest Miocene molluscan fauna from Sitkinak Island, Alaska. U.S. Geological Survey Professional Paper, 1233:111.Google Scholar
Batten, R. L. 1984. Neopilina, Neomphalus, and Neritopsis, living fossil mollusks, p. 218224. In Eldredge, N. and Stanley, S. M. (eds.), Living Fossils. Springer-Verlag, New York.CrossRefGoogle Scholar
Bratseva, G. M., Vitukhin, D. I., Giterman, R. E., et al. 1984. Atlas of the fauna and flora from the Neogene of the Far East. Tochilinsky Key Section, Western Kamchatka. Transactions of the USSR Academy of Sciences Geological Institute, 385, 335 p., Moscow, Nauka Publishers [in Russian].Google Scholar
Chinzei, K. 1978. Neogene molluscan faunas in the Japanese islands: an ecologic and zoogeographic synthesis. The Veliger, 21:155170.Google Scholar
Clench, W. J., and Turner, R. D. 1964. The subfamilies Volutinae, Zidoninae, Odontocymbiolinae and Calliotectinae in the Western Atlantic. Johnsonia, 4:129180.Google Scholar
Cuvier, G. 1797. Tableau elementaire de l'histoire naturelle des animaux. Paris, 710 p.CrossRefGoogle Scholar
Dall, W. H. 1872. Descriptions of new species of mollusks from the northwest coast of America. Proceedings of the California Academy of Sciences, 4:270.Google Scholar
Dall, W. H. 1896. Diagnoses of new species of mollusks from the west coast of America. Proceedings of the United States National Museum, 18:720.Google Scholar
Dall, W. H. 1906. Notes on some names in the Volutidae. The Nautilus, 19:143144.Google Scholar
Dall, W. H. 1909. Contributions to the Tertiary paleontology of the Pacific Coast. I. The Miocene of Astoria and Coos Bay, Oregon. U.S. Geological Survey Professional Paper, 59, 100 p.Google Scholar
Dall, W. H. 1915. A monograph of the molluscan fauna of the Orthaulax pugnax zone of the Oligocene of Tampa, Florida. Bulletin of the U.S. National Museum, 90:5759.Google Scholar
Dall, W. H. 1918. Changes and additions to molluscan nomenclature. Proceedings of the Biological Society of Washington, 31:137138.Google Scholar
Darragh, T. A. 1988. A revision of the Tertiary Volutidae (Mollusca: Gastropoda) of South-Eastern Australia. Memoirs of the Museum of Victoria, 40, 308 p.Google Scholar
Dell, R. K. 1956. The Archibental Mollusca of New Zealand. Dominion Museum Bulletin, 18, 235 p.Google Scholar
Devjatilova, A. D., and Volobueva, V. I. 1981. Atlas of the Paleogene and Neogene fauna of the USSR north-east. Moscow, Nedra Publishers, 219 p. [in Russian].Google Scholar
Douglas, R. G., and Savin, S. M. 1971. Oxygen and carbon isotope analyses of Cretaceous and Tertiary foraminifera from the central North Pacific. Initial Reports of DSDP, 17:591606.Google Scholar
Finlay, H. A. 1926. On Iredalina, a new genus: a volute without plates. Proceedings of the Malacological Society of London, 17:5962.Google Scholar
Finlay, H. A. 1927. New specific names for Austral Mollusca. Transactions and Proceedings of the New Zealand Institute, 57:488533.Google Scholar
Fotyanova, L. I. 1977. Cenozoic floras and climate of the North Pacific, p. 6685. In Fossil fauna and flora of the Far East and questions of the Phanerozoic stratigraphy. Vladivostok, [in Russian].Google Scholar
Frakes, L. A., and Kemp, E. M. 1973. Paleogene continental positions and evolution of climate, p. 539558. In , D. H. and Runcorn, S. K. (eds.), Implications of Continental Drift to the Earth Sciences, volume 1, New York, Academic Press.Google Scholar
Gladenkov, Yu. B., Volobueva, V. I., and Mitrofanova, L. I. 1985. Tertiary strata of the lower Khatyrkian depression (Koryak Upland). Proceedings of the U.S.S.R. Academy of Sciences, Geology Series, 3:7793 [in Russian].Google Scholar
Gladenkov, Yu. B., Sinelnikova, V. N., and Titova, L. V. 1988. Stages of formation of the fauna of Neogene shelf basins of Kamchatka (on the example of Buccinidae), p. 58135. In Timofeev, P. P. and Gladenkov, Yu. B. (eds.), Lithology and Stratigraphy of the Mesozoic and Cenozoic of the Eastern Regions of the U.S.S.R. Moscow, Nauka Publishers, [in Russian].Google Scholar
Gladenkov, Yu. B., and Sinelnikova, V. N. 1990. Mollusks and climatic optima of the Miocene of Kamchatka. Transactions of the USSR Academy of Sciences Geological Institute, Moscow, Nauka Publishers, 453, 172 p. [in Russian].Google Scholar
Gmelin, J. F. 1791. Systema Naturae per Regna Tria Naturae. Editio Decim. Tertia, Aucta Leipzig, Germany, 1:30213910.Google Scholar
Golikov, A. N. 1980. Buccinine mollusks of the World Ocean. Fauna of the U.S.S.R., Mollusks 5. Leningrad, Nauka Publishers, [in Russian].Google Scholar
Goryachev, V. N. 1978. Gastropods of the genus Neptunea of the Bering Sea. Moscow, Nauka Publishers, 90 p. [in Russian].Google Scholar
Habe, T., and Ito, K. 1965. New genera and species of shells chiefly collected from the North Pacific. Venus, The Japanese Journal of Malacology, 24:1645.Google Scholar
Hatai, K., and Koike, K. 1957. On some fossil mollusca from Chiba prefecture, Japan. Japanese Journal of Geology and Geography, 28:7790.Google Scholar
Hayasaka, I., and Matsui, M. 1951. On some gastropoda from the Momijiyama formation. Journal of the Faculty of Science, Hokkaido University, 6(7):331338.Google Scholar
Hickman, C. S. 1976. Pleuratomaria (Archaeogastropoda) in the Eocene of the northeastern Pacific: a review of the Cenozoic biogeography and ecology of the genus. Journal of Paleontology, 50:10901102.Google Scholar
Hickman, C. S. 1984. Pleuratomaria: Pedigreed Perseverance? p. 225231. In Eldredge, N. and Stanley, S. M. (eds.), Living Fossils. Springer-Verlag, New York.CrossRefGoogle Scholar
Houbrick, R. J. 1984. The Giant Creeper, Campanile symbolicum Iredale, an Australian relict marine snail, p. 232235. In Eldredge, N. and Stanley, S. M. (eds.), Living Fossils. Springer-Verlag, New York.CrossRefGoogle Scholar
Iredale, T. 1929. Mollusca from the continental shelf of eastern Australia. Records of the Australian Museum, 17:157189.CrossRefGoogle Scholar
Kafanov, A. I. 1982. Cenozoic history of the North Pacific shelf molluscan faunas, p. 134176. In Kussakin, O. G. (ed.), Marine Biogeography. Moscow, Nauka Publishers [in Russian].Google Scholar
Kanehara, K. 1937. Miocene shells from the Joban coal field. Bulletin of the Imperial Geologic Survey of Japan, 27:121.Google Scholar
Kiener, L. C. 1839. Especes general et Iconographie des coquilles vivantes, Voluta . Paris, 3:69.Google Scholar
Knudsen, J. 1973. Guivillea alabastrina (Watson, 1882), an abyssal volutid (Gastropoda: Mollusca). Galathea Report, 12:127131.Google Scholar
Kobayashi, T., and Shikama, T. 1961. The climatic history of the Far East, p. 292306. In Nairn, A. E. M. (ed.), Descriptive Paleoclimatology Interscience Publishers Inc., New York.Google Scholar
Kosuge, S. 1970. Description of a new species of Volutidae from the East China Sea. Venus, The Japanese Journal of Malacology, 29:111113.Google Scholar
Krishtofovich, L. V. 1973. Cenozoic mollusca. In New species of ancient plants and animals of the U.S.S.R. Proceedings of the All-Union Oil Research Institution, 313:7778, Nedra Publishers, Leningrad, [in Russian].Google Scholar
Lamarck, J. B. P. A. de M. C. 1804. Sur deux especes nouvelles de Volutes des Mers de la Nouvelle-Hollande. Annales du Museum National d'Histoire Naturelle, 5:154160.Google Scholar
Lightfoot, J. 1786. In a catalogue of the Portland Museum lately the property of the Duchess Dowager of Portland, deceased: which will be sold by auction, etc Privately printed, London, 194 p.Google Scholar
Linnaeus, C. 1758. Systema naturae per regna tria naturae. Editio decima, refornata, Stockholm, Regnum animale, 1, 824 p.Google Scholar
Margolis, S. V., and Kennett, J. P. 1970. Antarctic glaciation during the Tertiary recorded in sub-Antarctic deep-sea cores. Science, 170:10851087.CrossRefGoogle ScholarPubMed
Marwick, J. 1926. Tertiary and Recent Volutidae of New Zealand. Transactions and Proceedings of the New Zealand Institute, 56:259303.Google Scholar
Masuda, K. 1978. Pectinid biostratigraphy of the Neogene in central to south Japan. Stanford University Publications in Geologic Sciences, 14:3637.Google Scholar
Moore, E. J. 1984. Molluscan paleontology and biostratigraphy of the Lower Miocene upper part of the Lincoln Creek Formation in southwestern Washington. Contributions in Science, Natural History Museum of Los Angeles County, 351:142.Google Scholar
Oleinik, A. E. 1988. New genus of the buccinoid gastropod from the Eocene of the Western Kamchatka p. 52-57. In Timofeev, P. P. and Gladenkov, Yu. B. (eds.), Lithology and Stratigraphy of the Mesozoic and Cenozoic of the Eastern Regions of the U.S.S.R. Moscow, Nauka Publishers [in Russian].Google Scholar
Oleinik, A. E. 1990. Cenozoic paleobiogeography of gastropod family Volutidae: view on Tethys-Pacific connections. Third International Symposium on Shallow Tethys. Sendai, Japan, 5758.Google Scholar
Oleinik, A. E. 1993. The Genus Fulgoraria (Gastropoda: Volutidae) of the northeastern Kamchatka Peninsula and Sakhalin Island, with notes on the paleoecology and distribution of the subfamily Fulgorariinae in the Oligocene of the northern Pacific. The Nautilus, 106:137146.Google Scholar
Oleinik, A. E. 1994. Climatically induced diversifications and extinctions in the Paleogene gastropods from the western North Pacific. Geological Society of America Abstracts with Programs, 26(7):A171.Google Scholar
Oyama, K., Mizuno, A., and Sakamoto, T. 1960. Illustrated handbook of Japanese Paleogene mollusks. Geological Survey of Japan, Dai-Nippon and Hanshichi Printing Companies, 244 p.Google Scholar
Pilsbry, H. A., and Olsson, A. A. 1954. System of the Volutidae. Bulletins of American Paleontology, 35(152):271306.Google Scholar
Rafinesque, C. S. 1815. Analyses de la nature ou tableau de l'universe et des corps organises. Palermo, 224 p.CrossRefGoogle Scholar
Saul, L. R., and Popenoe, W. P. 1993. Additions to Pacific slope Turonian Gastropoda. The Veliger, 36:351388.Google Scholar
Serova, M. Ya. 1985. Oligocene of the northwestern part of the Pacific province, p. 210243. In Pysharovsky, Yu. M. and Gladenkov, Yu. B. (eds.), Correlation of the Cenozoic strata of the Far East. Part II. U.S.S.R. Academy of Sciences, Geological Institute, Moscow [in Russian].Google Scholar
Sinelnikova, V. N., Oleinik, A. E., Gladenkov, Yu. B., and Titova, L. V. 1991. Systematic descriptions of mollusks, p. 119162. In Devyatkin, E. V. (ed.), Eocene of the Western Kamchatka. Transactions of the USSR Academy of Sciences Geological Institute, Moscow, Nauka Publishers, 467 [in Russian, original title translated].Google Scholar
Slodkevitsch, V. S. 1938. Tertiary pelecypods of the Far East. In Paleontology of the U.S.S.R., Moscow-Leningrad, Academy of Sciences Publisher, 10, 508 p. [in Russian].Google Scholar
Smith, M. 1942. A review of the Volutidae. Synonymy, nomenclature, range and illustrations. Tropical Photographic Laboratory, Lantana, Florida, 127 p.Google Scholar
Sowerby, G. B. 1825. A catalogue of the shells contained in the collection of the Late Earl in Tankerville, arranged according to the Lamarckian conchological system; together with an appendix, containing descriptions of many new species. London, 92 p.CrossRefGoogle Scholar
Stanley, S. M. 1984. Neotrigonia, the sole surviving genus of the Trigoniidae (Bivalvia, Mollusca), p. 243246. In Eldredge, N. and Stanley, S. M. (eds.), Living Fossils. Springer-Verlag, New York.CrossRefGoogle Scholar
Swainson, W. 1831-1832. Zoological Illustrations, London, 2, 19 p.Google Scholar
Tanai, T. 1970. The Oligocene floras from the Kushiro coalfield, Hokkaido, Japan. Journal of Faculty of Science, Hokkaido University, 19:384514.Google Scholar
Tate, R. 1889. New species of marine mollusca from South Australia and Victoria. Transactions of the Royal Society of South Australia, 11:6066.Google Scholar
Titova, L. V. 1993. The early history of the North Pacific Ancistrolepidinae (Gastropoda: Buccinidae). Ruthenica (Russian Journal of Malacology), 3:116.Google Scholar
Vlasov, G. M. 1964. Paleogene and Neogene climatic fluctuations in the Far East. Transactions (Doklady) of the USSR Academy of Sciences, 157:589592.Google Scholar
Watson, R. B. 1882. Mollusca of H.M.S. “Challenger” expedition. Journal of the Linnean Society of London, 16:324343.CrossRefGoogle Scholar
Watson, R. B. 1886. Report on the Gasteropoda Collected by H.M.S. Challenger during the years 1873-76, Zoology. Challenger Expedition, 15:1756.Google Scholar
Weaver, C. E. 1942. Paleontology of the marine Tertiary formations of Oregon and Washington, Parts I, II and III. University of Washington Publications in Geology, Volume 5, 789 p.Google Scholar
Weaver, C. S., and Dupont, J. E. 1970. Living Volutes. A monograph of the Recent Volutidae of the World. Delaware Museum of Natural History, Monograph Series No. 1, 395 p.Google Scholar
Wilson, B. R. 1972. New species and records of Volutidae (Gastropoda) from Western Australia. Journal of the Malacological Society of Australia, 2:339360.CrossRefGoogle Scholar
Wolfe, J. A. 1971. Tertiary Climatic fluctuations and methods of Analysis of Tertiary Floras. Palaeogeography, Palaeoclimatology, Palaeoecology, 9:2757.CrossRefGoogle Scholar
Wolfe, J. A. 1972. An interpretation of Alaskan Tertiary floras, p. 201233. In Graham, A. (ed.), Floristics and Paleofloristics of Asia and Eastern North America. Amsterdam, Elsevier.Google Scholar
Wolfe, J. A. 1978. A paleobotanical interpretation of Tertiary climates in the northern hemisphere. American Scientist, 66:694703.Google Scholar