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Jamaican Cretaceous Crinoidea

Published online by Cambridge University Press:  20 May 2016

Stephen K. Donovan
Affiliation:
1Department of Geology, University of the West Indies, Mona, Kingston 7, Jamaica
Clare V. Milsom
Affiliation:
2King Alfred's College, Winchester, Hampshire, England
Cornelis J. Veltkamp
Affiliation:
3Department of Environmental and Evolutionary Biology, University of Liverpool, P.O. Box 147, Liverpool, L69 3BX, England

Abstract

Jamaica has the best-known fauna of fossil crinoids of the Antillean islands. Two Cretaceous species have been reexamined on the basis of new material. Lower Cretaceous Apiocrinites sp., previously referred to Austinocrinus n. sp. and first documented from a short pluricolumnal, is now known from brachials and further fragments of column. This is the first millericrinid, and only the second non-isocrinid stalked crinoid, to be identified from the Jamaican and Antillean fossil record. Other ossicles may be derived from the cirri of a comatulid. Applinocrinus cretacea (Bather) is well known from the upper Senonian of England, North America and the West Indies, although Caribbean specimens have not been figured previously. Functional interpretations of the mode of life of Applinocrinus suggest that it was a benthic crinoid, presumably with arms. It lived embedded in the sediment.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Bather, F. A. 1924. Saccocoma cretacea n. sp., a Senonian crinoid. Proceedings of the Geologists’ Association, 35:111121.Google Scholar
Broadhead, T. W., and Russell, E. E. 1985. Arm structure of Applinocrinus (Cretaceous Crinoidea). Geological Society of America Abstracts with Programs, 17(2):82.Google Scholar
Burke, K., Coates, A. G., and Robinson, E. 1968. Geology of the Benbow Inlier and surrounding areas, Jamaica, p. 299307. In Saunders, J. B. (ed.), Transactions of the 4th Caribbean Geological Conference, Port of Spain, Trinidad, 28th March-12th April, 1965.Google Scholar
Cowen, R. 1981. Crinoid arms and banana plantations: an economic harvesting analogy. Paleobiology, 7:332343.Google Scholar
Donovan, S. K. 1991. The taphonomy of echinoderms: calcareous multi-element skeletons in the marine environment, p. 241269. In Donovan, S. K. (ed.), The Processes of Fossilization. Belhaven Press, London.Google Scholar
Donovan, S. K. 1993a. Contractile tissues in the cirri of ancient crinoids: criteria for recognition. Lethaia, 26:163169.Google Scholar
Donovan, S. K. 1993b. Jamaican Cretaceous Echinoidea, p. 93103. In Wright, R. M. and Robinson, E. (eds.), Biostratigraphy of Jamaica. Geological Society of America Memoir, 182.Google Scholar
Donovan, S. K. 1995. Isocrinid crinoids from the Late Cenozoic of Jamaica. Atlantic Geology, 31:195203.Google Scholar
Donovan, S. K., Gordon, C. M., Veltkamp, C. J., and Scott, A. D. 1993. Crinoids, asteroids and ophiuroids in the Jamaican fossil record, p. 125130. In Wright, R. M. and Robinson, E. (eds.), Biostratigraphy of Jamaica. Geological Society of America Memoir, 182.Google Scholar
Donovan, S. K., Miller, S. A., Graham, A. P., and Dixon, H. L. 1994. New fossil crinoids from Jamaica. Journal of Paleontology, 68:842845.Google Scholar
Gaster, C. T. A. 1924. The chalk of the Worthing district, Sussex. Proceedings of the Geologists’ Association, 35:89110.Google Scholar
Hazel, J. E., and Kamiya, T. 1993. Ostracode biostratigraphy of the Titanosarcolites-bearing limestones and related sequences of Jamaica, p. 6576. In Wright, R. M. and Robinson, E. (eds.), Biostratigraphy of Jamaica. Geological Society of America Memoir, 182.Google Scholar
Jablonski, D., and Bottjer, D. J. 1988. Onshore-offshore evolutionary patterns in post-Paleozoic echinoderms: a preliminary analysis, p. 8190. In Burke, R. D., Mladenov, P. V., Lambert, P., and Parsley, R. L. (eds.), Echinoderm Biology: Proceedings of the Sixth International Echinoderm Conference, Victoria, British Columbia, 23-28 August, 1987. Balkema, Rotterdam.Google Scholar
Jaekel, O. 1892. Über Plicatocriniden, Hyocrinus und Saccocoma. Zeitschrift der Deuschten Geologischen Gesellschaft, 44:619696.Google Scholar
Jagt, J. W. M. 1992. Campanian-Maastrichtian pelagic crinoids from NE Belgium and SE Netherlands: preliminary observations. Bulletin de l'Institut Royal des Sciences Naturelles de Belgique, Science de la Terre, 62:155161.Google Scholar
Lane, N. G. 1984. Predation and survival among inadunate crinoids. Paleobiology, 10:453458.Google Scholar
Lane, N. G. and Webster, G. D. 1980. Crinoidea, p. 144157. In Broadhead, T. W. and Waters, J. A. (eds.), Echinoderms: Notes for a Short Course. University of Tennessee Studies in Geology, 3.Google Scholar
Meyer, D. L., Messing, C. G., and Macurda, D. B. Jr. 1978. Zoogeography of tropical western Atlantic Crinoidea (Echinodermata). Bulletin of Marine Science, 28:412441.Google Scholar
Miller, J. S. 1821. A Natural History of the Crinoidea or Lily-Shaped Animals, with Observations on the Genera Asteria, Euryale, Comatula and Marsupites. Bryan and Co., Bristol, 150 p.Google Scholar
Milsom, C. V. 1994. Saccocoma: a benthic crinoid from the Jurassic Solnhofen Limestone, Germany. Palaeontology, 37:121129.Google Scholar
Moore, R. C., Jeffords, R. M., and Miller, T. H. 1968. Morphological features of crinoid columns. University of Kansas Paleontological Contributions, Echinodermata Article 8, 30 p.Google Scholar
Moore, R. C., and Laudon, L. R. 1943. Evolution and classification of Paleozoic crinoids. Geological Society of America Special Papers, 46, 153 p.Google Scholar
Moore, R. C., Ubaghs, G., Breimer, A., and Lane, N. G. 1978. Glossary of crinoid morphological terms, p. T229, T231, T233-242. In Moore, R. C. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(1), Crinoidea. Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Oji, T. 1989. Distribution of the stalked crinoids from Japanese and nearby waters, p. 2743. In Ohba, H., Hayami, I. and Mochizuki, K. (compilers), Current Aspects of Biogeography in West Pacific and Eastern Asian Regions. Nature and Culture, 1.Google Scholar
Orbigny, A. D. D'. 1840. Histoire naturelle, génerale et particulière, des Crinoïdes, vivants et fossiles, comprenant la description géologique et zoologique de ces animaux. Volume 1. Paris, 32 p. [Not seen.]Google Scholar
Orbigny, A. D. D'. 1852. Prodrome de la Paléontologie Stratigraphique Universelle des Animaux Mollusques et Rayonnés faisant suite au cours Élementaire de Paléontologie et de Géologie Stratigraphique. Volume 3. Victor Masson, Paris, 189 p. [Not seen.]Google Scholar
Peck, R. E. 1953. Crinoid Saccocoma cretacea Bather in the Gulf Coast Cretaceous. Geological Society of America Bulletin, 64:14621463.Google Scholar
Peck, R. E. 1973. Applinocrinus: a new genus of Cretaceous microcrinoids and its distribution in North America. Journal of Paleontology, 47:94100.Google Scholar
Rasmussen, H. W. 1961. A monograph of the Cretaceous Crinoidea. Det Kongelige Danske Videnskabernes Selskab, Biologiske Skrifter, 12(1), 428 p.Google Scholar
Rasmussen, H. W. 1978. Articulata, p. T813T928. In Moore, R. C. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(3), Crinoidea. Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Robinson, E. 1994. Jamaica, p. 111127. In Donovan, S. K. and Jackson, T. A. (eds.), Caribbean Geology: An Introduction. University of the West Indies Publishers’ Association, Kingston.Google Scholar
Sieverts-Doreck, H. 1952. In Moore, R. C., Lalicker, C. G., and Fischer, A. G., Invertebrate Fossils. McGraw-Hill, New York, 766 p.Google Scholar
Simms, M. J. 1988. The phylogeny of the post-Palaeozoic crinoids, p. 269284. In Paul, C. R. C. and Smith, A. B. (eds.), Echinoderm Phylogeny and Evolutionary Biology. Clarendon Press, Oxford.Google Scholar
Simms, M. J. 1989. British Lower Jurassic crinoids. Monograph of the Palaeontographical Society, London, 142(581):1103.Google Scholar
Simms, M. J., Gale, A. S., Gilliland, P., Rose, E. P. F., and Sevastopulo, G. D. 1993. Echinodermata, p. 491528. In Benton, M. J. (ed.), The Fossil Record 2. Chapman and Hall, London.Google Scholar
Simms, M. J. and Sevastopulo, G. D. 1993. The origin of articulate crinoids. Palaeontology, 36:91109.Google Scholar
Ubaghs, G. 1978. Skeletal morphology of fossil crinoids, p. T58T216. In Moore, R. C. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(1), Crinoidea. Geological Society of America and University of Kansas Press, Lawrence.Google Scholar