Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-27T11:50:58.730Z Has data issue: false hasContentIssue false

Stratigraphy of Late Quaternary Estuarine Deposits and Amino Acid Stereochemistry of Oyster Shells Beneath San Francisco Bay, California

Published online by Cambridge University Press:  20 January 2017

Brian F. Atwater
Affiliation:
Geology Department, University of Delaware, Newark, Delaware 19711
Bruce E. Ross
Affiliation:
Moss Landing Marine Laboratory, Box 223, Moss Landing, California 95039
John F. Wehmiller
Affiliation:
Geology Department, University of Delaware, Newark, Delaware 19711

Abstract

The sequence of Quaternary deposits beneath the floor of San Francisco Bay includes four to seven noncontemporaneous estuarine units intercalated with alluvium and dune sand. Units L (0–10,000 B.P.), M (>40,000 B.P., probably ca. 80,000–140,000 B.P.), and N (older than unit M) are distinctly superposed. The dominant molluscan fossil in each of these three units is Ostrea lurida Carpenter, the native oyster along much of the pacific Coast of North America. Despite a lamellar structure that suggests vulnerability to contamination, O. lurida shells generally yield amino acid enantiomeric ratios that are analytically reproducible and stratigraphically consistent. The kinetics of racemization in O. lurida conceivably resembles that of Protothaca and Saxidomus, other bivalves whose kinetics of racemization are relatively well understood. Assuming such a resemblance, enantiomeric ratios in O. lurida imply that (1) unit M is the same approximate age as estuarine terrace deposits bordering San Pablo Bay and Carquinez Strait, providing that the terrace deposits have been at diagenetic temperatures 1°-2°C warmer than unit M; and (2) the age of unit N is about four times greater than that of unit M, providing that both units have been at the same approximate diagenetic temperature.

Type
Original Articles
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allen, W.E. (1920). A quantitative and statistical study of the plankton of the San Joaquin River and its tributaries in and near Stockton, California, in 1913. University of California Publications in Zoology 22. 1292.Google Scholar
Arnal, R.E. (1961). Limnology, sedimentation, and microorganisms of the Salton Sea, California. Geological Society of America Bulletin 72. 427478.Google Scholar
Arnal, R.E., Quinterno, P.J., Conomons, T.J., Gram, K. (1980). Trends in the distribution of recent foraminifera in San Francisco Bay Sliter, W. Cushman Foundation Special Publication, Orville Bandy Memorial Volumein pressGoogle Scholar
Ashley, G.H. (1896). The Neocene stratigraphy of the Santa Cruz Mountains of California. Proceedings of the California Academy of Science, Second Series 5. 273367pt. 1Google Scholar
Atwater, B.F., Belknap, D.F. (1980). Tidalwetland deposits of the Sacramento-San Joaquin Delta, California. InQuaternary Depositional Environments of the Pacific Coast. (Field, M.E., Bouma, A.H., Colburn, I.P., Douglas, R.G., Ingle, J.C., Eds.). pp. 89103. Society of Economic Paleontologists and Mineralogists, Pacific Section, Pacific Coast Paleogeography Symposium 4.Google Scholar
Atwater, B.F., Hedel, C.W., Helley, E.J. (1977). Late Quaternary depositional history, Holocene sea-level changes, and vertical crustal movement, southern San Fancisco Bay, California. U.S. Geological Survey Professional Paper 1014. 15 Google Scholar
Belknap, D.F. (1979). Application of amino acid geochronology to stratigraphy of late Cenozoic marine units of the Atlantic coastal plain. Unpublished Ph.D. thesis. University of Delaware, Newark 549 Google Scholar
Bloom, A.L., Broecker, W.S., Chappell, J.M.A., Matthews, R.K., Mesolella, K.J. (1974). Quaternary sea level flucturations on a tectonic coast: New 230Th234U dates from the Huron Peninsula, New Guinea. Quaternary Research 4. 185205.Google Scholar
Bonilla, M.G. (1965). Geologic map of the San Francisco South quadrangle, California. U.S. Geological Survey open-file reportscale 1:20,000Google Scholar
Britton, L.J. (1977). Periphyton and phytoplankton of the Sacramento River, California, May 1972 to April 1973. U.S. Geological Survey Journal of Research 5. 547559.Google Scholar
California Division of Bay Toll Crossings, . (1955). Final report on foundation explorations for the Southern Crossing of San Francisco BayContract 2001Google Scholar
Carlson, P.R., McCulloch, D.S. (1970). Bedrock-surface map of central San Francisco Bay, California. U.S. Geological Survey Open-File Reportscale 1:27,200Google Scholar
Conomos, T.J. (1979). Properties and circulation of San Francisco Bay waters. InSan Francisco Bay: The Urbanized Estuary.” (Conomos, T.J., Eds.). pp. 4784. Pacific Div., American Association for the Advancement of Science, San Francisco, Calif..Google Scholar
Gilliam, H. (1962). Weather of the San Francisco Bay Region. University of California Press, Berkeley Calif. 72 Google Scholar
Glen, William. (1959). Pliocene and lower Pleistocene of the western part of the San Francisco peninsula. University of California, Department of Geology Bulletin 36. 147198.Google Scholar
Greenberg, A.E. (1964). Plankton of the Sacramento River. Ecology 45. 4049.Google Scholar
Hall, N.T. (1966). Late Cenozoic stratigraphy between Mussel Rock and Fleishhacker Zoo, San Francisco peninsula A Walker's Guide to the Geology of San Francisco. California Division of Mines and Geology, Special Supplement of the Mineral Information Service 19. 2225(11)Google Scholar
Hare, P.E., Mitterer, R.M. (1967). Non-protein amino acids in fossil shells. Carnegie Institute of Washington Yearbook 65. 362364.Google Scholar
Hazelwood, R.M. (1976). Contour map and interpretive cross sections showing depth and configuration of bedrock surface, south San Francisco Bay region, California. U.S. Geological Survey Miscellaneous Field Studies Map MF-796 500scale 1:62Google Scholar
Helley, E.J., Lajoie, K.R., Spangle, W.E., Blair, W.L. (1979). Flatland deposits of the San Francisco Bay region—their geology and engineering properties and their importance to comprehensive planning. U.S. Geological Survey Professional Paper 943. 290 Google Scholar
Janda, R.J., Croft, M.G. (1967). The stratigraphic significance of a sequence of non-calcic brown soils formed as the Quaternary alluvium of the northeastern San Joaquin Valley, California. InQuaternary Soils.” (Morrison, R.B., Wright, H.E., Eds.). pp. 7192. INQUA Congress VII, Proceedings 9. Desert Research Institute, Reno, Nevada.Google Scholar
Kennedy, G.L. (1978). Pleistocene paleoecology, zoogeography, and geochronology of marine invertebrate faunas of the Pacific Northwest coast (San Francisco Bay to Puget Sound). Unpublished Ph.D. thesis. University of California, Davis 824 Google Scholar
Kvenvolden, K.A. (1962). Normal paraffin hydrocarbons in sediments from San Francisco Bay, California. American Association of Petroleum Geologists Bulletin 46. 16431652.Google Scholar
Kvenvolden, K.A., Blunt, D.J., Clifton, H.E. (1979). Amino-acid racemization in Quaternary shell deposits at Willipa Bay, Washington. Geochemica et Cosmochimica Acta 43. 15051520.CrossRefGoogle Scholar
Kvenvolden, K.A., Peterson, E., Wehmiller, J.F., Hare, P.E. (1973). Racemization of amino acids in marine sediments determined by gas chromatography. Geochimica et Cosmochimica Acta 37. 22152225.Google Scholar
Lajoie, K.R., Wehmiller, J.F., Kennedy, G.L. (1980). Inter- and intrageneric trends in apparent racemization kinetics of amino acids in Quaternary mollusks. InAdvances in the Biogeochemistry of Amino Acids.” (Hare, P.E., Hoering, T.C., King, K. Jr., Eds.) pp. 305340. Wiley, New York.Google Scholar
Locke, J.L. (1971). Sedimentation and Foraminiferal Aspects of the Recent Sediments of San Pablo Bay. Unpublished M.S. thesis. San Jose State University, San Jose, California 100 Google Scholar
Louderback, G.D. (1951). Geologic history of San Francisco Bay. InGeologic Guidebook to the San Francisco Bay Counties.” (Jenkins, O.P. Eds.). pp. 7594. California Division of Mines and Geology Bulletin 154.Google Scholar
Marchand, D.E., Allwardt, Alan. (1981). Late Cenozoic stratigraphic units, northeastern San Joaquin Valley, California. U.S. Geological Survey Bulletin 1470. 70 Google Scholar
Masters, P.M., Bada, J.L. (1977). Racemization of isoleucine in fossil molluscs from Indian middens and interglacial terraces in southern California. Earth and Planetary Science Letters 37. 173183.CrossRefGoogle Scholar
Mason, H.L. (1957). A Flora of the Marshes of California. University of California Press, Berkeley 878 Google Scholar
Meyer, C.E., Woodward, M.J., Sarna-Wojcicki, A.M., Naeser, C.W. (1980). Zircon fission track age of 0.45 million years on ash in the type section of the Merced Formation, west-central California. U.S. Geological Survey Open-File Report 80-1071 9 Google Scholar
Miller, G.H., Hare, P.E. (1975). Use of amino acid reactions in some arctic marine fossils as stratigraphic and geochronologic indicators. Carnegie Institute of Washington Yearbook 74. 612617.Google Scholar
Mitterer, R.M. (1974). Pleistocene stratigraphy in southern Florida based on amino acid diagenesis in fossilMercenaria . Geology 2. 425482.Google Scholar
Mitterer, R.M. (1975). Ages and diagenetic temperatures of Pleistocene deposits of Florida based on isoleucine epimerization inMercenaria . Earth and Planetary Science Letters 28. 275282.Google Scholar
Munroe, R.J., Sass, J.H. (1974). Basic heat-flow data from the Western United States. Pt. 3 of “Basic Heat-Flow Data from the United States”. U.S. Geological Survey Open-File Report 74-9(J. H. Sass and R. J. Munroe, Compilers)Google Scholar
Phleger, F.B. (1965). Ecology and Distribution of Recent Foraminifera. Johns Hopkins Press, Baltimore, Md 297 Google Scholar
Radbruch, D.J. (1957). Areal and engineering geology of the Oakland West quadrangle, California. U.S. Geological Survey Miscellaneous Geologic Investigations Map I-239scale 1:24,000Google Scholar
Ricketts, E.F., Calvin, Jack, Hedgpeth, J.W. (1968). Between Pacific Tides. Stanford University Press, Stanford, Calif. 614 Google Scholar
Ross, B.E. (1977). The Pleistocene history of San Francisco Bay along the Southern Crossing. Unpublished M.S. thesis. San Jose State University, San Jose, Calif. 121 Google Scholar
Sarna-Wojcicki, A.M. (1976). Correlation of late Cenozoic ashes in central California by means of trace-element chemistry. U.S. Geological Survey Professional Paper 972. 30 Google Scholar
Sarna-Wojcicki, A.M., Hall, N.T., Bowman, H.W., Naeser, C.W., Russell, P.C. (1977). Correlation and age of a widespread Pleistocene ash bed in northern California and western Nevada. Geological Society of America Abstracts with Programs 9 7 1155 Google Scholar
Schlocker, J. (1974). Geology of the San Francisco North quadrangle, California. U.S. Geological Survey Professional Paper 782. 109 Google Scholar
Schroeder, R.A., Bada, J.L. (1976). A review of the geochemical applications of the amino acid racemization reaction. Earth Science Reviews 12. 347391.CrossRefGoogle Scholar
Shlemon, R.J. (1972). The lower American River area, California: A model of Pleistocene landscape evolution. Association of Pacific Coast Geographers Yearbook 34. 6186.Google Scholar
Slater, R.A. (1965). Sedimentary environments in Suisun Bay, California. Unpublished M.S. thesis. University of Southern California, Los Angeles 101 Google Scholar
Sloan, Doris. (1980). Foraminifera of Sangamon(?) estuarine deposits beneath central San Francisco Bay, California InQuaternary Depositional Environments of the Pacific Coast.” (Field, M.E., Bouma, A.H., Colburn, I.P., Douglas, R.G., Ingle, J.C., Eds.). pp. 112. Society of Economic Paleontologists and Mineralogists, Pacific Section, Pacific Coast Paleogeography Symposium 4.Google Scholar
Stenzel, H.B. (1971). Oysters Moore, R.E. Treatise on Invertebrate Paleontology,Part N. Bivalvia Vol. 3 University of Kansas and Geologic Society of America, Boulder, Colo N953N1224.Google Scholar
Stevenson, R.E., Emery, K.O. (1958). Marshlands of Newport Bay, California. Allan Hancock Foundation Occasional Papers 20 University of Southern California, Los Angeles, Calif. 1109.Google Scholar
Storey, J.A., Wessels, V.E., Wolfe, J.A. (1966). Radiocarbon dating of recent sediments in San Francisco Bay. California Division of Mines and GeologyMineral Information Service 19. 4750.Google Scholar
Sumner, F.B., Louderback, G.D., Schmitt, W.L., Johnston, E.C. (1914). A report on the physical conditions in San Francisco Bay, based upon the operations of the United States Fisheries steamer “Albatross” during the years 1912 and 1913. University of California Publications in Zoology 14 1 1198.Google Scholar
Trask, P.D., Rolston, J.W. (1951). Engineering geology of San Francisco Bay, California. Geological Society of America Bulletin 62. 10791110.Google Scholar
U.S. Department of Commerce, . (1964). Climatic summary of the United States, supplement for 1951–1960. Climatography of the United States no. 86-4 Google Scholar
Wagner, D.B. (1978). Environmental history of central San Francisco Bay with emphasis on foraminiferal paleontology and clay mineralogy. Unpublished Ph.D. thesis. University of California, Berkeley 274 Google Scholar
Weaver, C.E. (1949). Geology of the Coast Ranges immediately north of the San Francisco Bay region, California. Geological Society of America Memoir 35. 242 Google Scholar
Wehmiller, J.F., Belknap, D.F. (1978). Alternative kinetic models for the interpretation of amino acid enantiomeric ratios in Pleistocene mollusks: examples from California, Washington, and Florida. Quaternary Research 9. 330348.Google Scholar
Wehmiller, J.F., Emerson, W.K. (1980). Calibration of amino acid racemization in late Pleistocene mollusks: Results from Magdalena Bay, Baja California Sur, with dating applications and paleoclimatic implications. The Nautilus 94. 3136.Google Scholar
Wehmiller, J.F., Hare, P.E. (1971). Racemization of amino acids in marine sediments. Science 173. 907911.Google Scholar
Wehmiller, J.F., Lajoie, K.R., Kvenvolden, K.A., Peterson, E., Belknap, D.F., Kennedy, G.L., Addicott, W.O., Vedder, J.G., Wright, R.W. (1977). Correlation and chronology of Pacific Coast marine terrace deposits by fossil amino acid stereochemistry—technique evaluation, relative ages, kinetic model ages, and geologic implications. U.S. Geological Survey Open-File Report 77-680 191 Google Scholar
Wehmiller, J.F., Lajoie, K.R., Sarna-Wojcicki, A.M., Yerkes, R.F., Kennedy, G.L., Stephens, T.A., Kohl, R.F. (1978). Amino acid racemization dating of Quaternary mollusks, Pacific Coast United States. InShort Papers of the Fourth International Conference on Geochronology, Cosmochronology, and Isotope Geology, 1978” (Zartman, R.E. Eds.), pp. 445448. U.S. Geological Survey Open-File Report 78-701.Google Scholar
Welday, E.E., Anderson, J.W. (1975). Offshore surficial geology of California. California Division of Mines and Geology Map Sheet 26scale 1:500,000Google Scholar
Williams, K.M., Smith, C.G. (1977). A critical evaluation of the application of amino acid racemization to geochronology and geothermometry. Origins of Life 8. 91144.Google Scholar
Wong, R.L.J. (1975). Diatom flora of the phytoplankton of San Francisco Bay. Unpublished M.S. thesis. San Francisco State University, San Francisco, Calif. 144 Google Scholar