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North Pacific Radiolarian Assemblages and their Relationship to Oceanographic Parameters

Published online by Cambridge University Press:  20 January 2017

Harvey Maurice Sachs*
Affiliation:
CLIMAP, Department of Geological Sciences, Brown University, Providence Rhode Island 02912
*
Current address: School of Oceanography, Oregon State University, Corvallis, Oregon 97331

Abstract

A quantitative study of the distribution of Radiolaria in surface sediments of the North Pacific has demonstrated the feasibility of utilizing complete radiolarian thanatocoenoses as indicators of past oceanographic conditions.

In samples from 36 core tops from the region 33° N-54° N, 148° E-140° W, 87–96% of all radiolarians encountered could be assigned to one of 120 taxa recognized. Q-mode factor analysis of distributional data for the 57 most abundant species yields four independent assemblages. Three of these reflect near-surface oceanographic conditions, and the fourth responds to bottom conditions. Regression-developed transfer functions describe the relationship between the assemblages and oceanographic parameters.

Type
Original Articles
Copyright
University of Washington

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References

Bandy, O.L., Casey, R.E., Wright, R.C., (1971). Late Neogene planktonic zonation, magnetic reversals, and radiometric dates, Antarctic to the Tropics. Reid, J.L., Antarctic Oceanology I. American Geophysical Union Antarctic Research Series 15, 126.CrossRefGoogle Scholar
Benson, R.N., (1966). Recent Radiolaria from the Gulf of California. Doctoral dissertation University of Minnesota 578(University Microfilms No. 66-12.189).Google Scholar
Bradshaw, J.S., (1959). Ecology of living planktonic Foraminifera in the North and Equatorial Pacific Ocean. Contributions from the Cushman Foundation for Foraminiferal Research 10, 2564.Google Scholar
Casey, R.E., (1971). Radiolarians as indicators of past and present water masses. Funnell, B.M., Riedel, W.R., Micropalaeontology of Oceans Cambridge University Press 331341.Google Scholar
Dodimead, A.J., Favorite, F., Hirano, T., (1963). Review of Oceanography of the Subarctic Pacific Region. International North Pacific Fisheries Commission Bulletin 13, 195.Google Scholar
Fager, E.W., (1957). Determination and analysis of recurrent groups. Ecology 38, 586595.CrossRefGoogle Scholar
Fager, E.W., McGowan, J.A., (1963). Zooplankton species groups in the North Pacific. Science 140, 453460.CrossRefGoogle ScholarPubMed
Hays, J.D., (1965). Radiolaria and late Tertiary and Quaternary history of Antarctic Seas. Biology of Antarctic Seas II. American Geophysical Union Antarctic Research Series 5, 125184.Google Scholar
Horn, D.R., Horn, B.M., Delach, M.N., (1970). Sedimentary provinces of the North Pacific. Hays, J.D., Geological Investigations of the North Pacific Geological Society of America Memoir 126, 121.CrossRefGoogle Scholar
Horst, P., (1966). An overview of the essentials of multivariate analysis methods. Cattell, R.B., Handbook of Multivariate Experimental Psychology Rand McNally Chicago 129152.Google Scholar
Imbrie, J., Kipp, N.G., (1971). A new micropaleontological method for quantitative paleoclimatology: application to a late Pleistocene Caribbean core. Turekian, K.K., The Late Cenozoic Glacial Ages Yale University Press New Haven 71181.Google Scholar
Jousé, A.P., Kozlova, O.G., Muhina, V.V., (1971). Distribution of diatoms in the surface layer of sediment from the Pacific Ocean. Funnell, B.M., Riedel, W.R., Micropalaeontology of Oceans Cambridge University Press 263269.Google Scholar
Kanaya, T., Koizumi, I., (1966). Interpretation of diatom thanatocoenoses from the North Pacific applied to a study of core V20-130 (Studies of a deep-sea core V20-130. Part IV). Scientific Reports of Tohoku University, Japan. Second Series (Geology) 37, 89130.Google Scholar
Klovan, J.E., Imbrie, J., (1971). An algorithm and Fortran IV program for large-scale Q-mode factor analysis. Journal of the International Association for Mathematical Geology 3, 6167.CrossRefGoogle Scholar
Ling, H.-Y., Stadum, C.J., Welch, M.L., (1971). Polycystine Radiolaria from Bering Sea surface sediments. Farinacci, A., Proceedings of the II Planktonic Conference Roma, 1970Edizioni Teenoscienza Roma 705729.Google Scholar
McGary, J.W., Jones, E.C., Graham, J.J., (1958). Enrichment in the transition zone between the Subaretic and Central Water Masses of the central North Pacific. Proceedings of the Ninth Pacific Science Congress, Bangkok. (Oceanography) 16, 8289.Google Scholar
McIntyre, A., , A., Biscaye, P., Burckle, C., Gardner, J., Geitzenauer, K., Goll, R., Kellogg, T., Prell, W., Roche, M., Imbrie, J., Kipp, N., Ruddiman, W., Moore, T., Heath, R., (1972). The glacial North Atlantic 17,000 years ago: paleoisotherm and oceanographic maps derived from floral-faunal parameters by CLIMAP. Geological Society of America Abstracts with Programs 4, 590591.Google Scholar
Moore, T. C. Jr.MS., Methods for randomly distributing grains for microscopic examination. (in preparation).Google Scholar
Nigrini, C.A., (1967). Radiolaria in pelagic sediments from the Indian and Atlantic Oceans. Bulletin of Scripps Institution of Oceanography 11, 1106.Google Scholar
Nigrini, C.A., (1970). Radiolarian assemblages in the North Pacific and their application to a study of Quaternary sediments in core V20-130. Hays, J.D., Geological Investigations of the North Pacific. Geological Society of America Memoir 126, 139183.CrossRefGoogle Scholar
NORPAC Committee(1960). Oceanic observations of the Pacific: 1955. The NORPAC Atlas. University of California Press and University of Tokyo Press Berkeley and Tokyo 123Maps.Google Scholar
Petrushevskaya, M.G., (1968). Radiolarians of orders Spumellaria and Nassellaria of the Antarctic region (from material of the Soviety Antarctic expedition). Andriyashev, A.P., Ushakov, E.P., Biological Reports of the Soviet Antarctic Expedition (1955–1958) Israel Program for Scientific Translations Jerusalem 2186.Google Scholar
Reid, J.L. Jr., (1962). On circulation, phosphate-phosphorus content, and zooplankton volumes in the upper part of the Pacific Ocean. Limnology and Oceanography 7, 287306.CrossRefGoogle Scholar
Reshetnjak, V.V., (1971). Occurrence of phaeodarian Radiolaria in Recent sediments and Tertiary deposits. Funnell, B.M., Riedel, W.R., Micropalaeontology of Oceans Cambridge University Press 343349.Google Scholar
Riedel, W.R., (1958). Radiolaria in Antarctic sediments. B. A. N. Z. Antarctic Research Expedition Reports, Series B 6, 10 217255.Google Scholar
Riedel, W.R., Foreman, H., (1961). Type specimens of North American Paleozoic Radiolaria. Journal of Palentology 35, 628632.Google Scholar
Sachs, H.M., (1973). Quantitative Radiolarianbased Paleo-Oceanography in Late Pleistocene Subarctic Pacific Sediments. Doctoral dissertation Brown University.Google Scholar
Shepard, F.P., (1963). Second Ed. Submarine Geology Harper and Row New York.Google Scholar
Stommel, H., (1957). A survey of ocean current theory. Deep-Sea Research 4, 149184.Google Scholar
Veeh, H.H., Chappell, J., (1970). Astronomical theory of climatic change: support from New Guinea. Science 167, 862865.CrossRefGoogle ScholarPubMed
Venrick, E.L., (1971). Recurrent groups of diatom species in the North Pacific. Ecology 52, 614625.CrossRefGoogle ScholarPubMed