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Radiocarbon Dates from the East China Sea and Their Geological Implications

Published online by Cambridge University Press:  20 January 2017

Chen Yijian
Affiliation:
Institute of Geology, National Bureau of Seismology, Beijing, China
Peng Gui
Affiliation:
Institute of Geology, National Bureau of Seismology, Beijing, China
Jiao Wengiang
Affiliation:
Institute of Geology, National Bureau of Seismology, Beijing, China

Abstract

Radiocarbon analysis plays an important role in studying the Quaternary geologic history of the East China Sea. More than 200 14C dates have been published in various Chinese publications. The continental shelf of the East China Sea is one of the few large continental shelves in the world. Many low-lying flats and deltaic plains lie along the coast making it a favorable site for sea-level studies. Radiocarbon data from Neolithic sites, chenier ramparts, peaty deposits, and submarine sediments converge to suggest that oscillations of sea level have occurred: they also suggest that the lowest glacial sea levels probably occurred between 22,000 and 19,000 yr B.P. Calculation of the volume of the Yangtze River Delta, together with 14C dates, indicates that more than 89% of the solid particles carried by the river were deposited in the delta. Due to the sedimentary load, the crust beneath the delta has subsided isostatically and tilted seaward. Marine shells provide many acceptable 14C dates, but because they are easily transported, most samples from the continental shelf cannot be directly related to the history of sea-level changes.

Type
Research Article
Copyright
University of Washington

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References

Emery, K.O. Nino, H. Sullivan, B. (1971). Post-Pleistocene level of East China Sea Turekian, K.K. The Late Cenozoic Glacial Ages Yale Univ. Press New Haven, Conn 380390 Google Scholar
Fairbridge, R.W. (1961). Eustatic changes in sea level Physics and Chemistry of the Earth 4, 99185 CrossRefGoogle Scholar
Geyh, M.A. (1979). 14C routine dating of marine sediments Berger, R. Suess, H.E. Radiocarbon Dating Univ. of California Press Berkeley 475491 Google Scholar
Gillespie, R. Polach, H.A. (1979). The suitability of marine shells for radiocarbon dating of Australian prehistory Berger, R. Suess, H.E. Radiocarbon Dating Univ. of California Press Berkeley 404421 CrossRefGoogle Scholar
Grootes, P.M. (1976). Chronology of the early part of the last glacial Papers of 4th European Colloquium of Geochronology, Cosmochronology and Isotope Geology Vol. 44 AmsterdamGoogle Scholar
Jardine, W.G. (1979). Radiocarbon ages of raised beach shells from Oronsay, Inner Hebrides, Scotland: A lesson in interpretation deduction Boreas 7, 183196 CrossRefGoogle Scholar
Macintyre, I.G. Pilkey, O.H. Stuckenrath, R. (1978). Relict oysters on the United States Atlantic Continental Shelf: A reconsideration of their usefulness in understanding late Quaternary sea level history Geological Society of America Bulletin 89, 277 2.0.CO;2>CrossRefGoogle Scholar
Otsson, I.U. Eriksson, K.G. (1965). Remark on 14C dating of shell material in sea sediments Progress in Oceanography 3, 253266 Google Scholar
Peng, T.H. (1977). Tectoniuc uplift rates of the Taiwan Island since the early Holocene Geological Society of China (Taipei) Memoir 2, 5769 Google Scholar
Pirazzoli, P.A. (1978). High stands of Holocene sea levels in the northwest Pacific Quaternary Research 10, 129 CrossRefGoogle Scholar
Rafter, T.A. Jansen, H.S. Lockerbie, L. Trotter, M.M. (1972). New Zealand radiocarbon reference standards Proceedings of the 8th Radiocarbon Conference (Lower Hutt, N.Z.) Vol 2 625626 Google Scholar
Rhodes, E.G. Polach, H.A. Thom, B.G. Wilson, S.R. (1980). Age structure of Holocene coastal sediments, Gulf of Carpentaria, Australia Radiocarbon 22, 718727 CrossRefGoogle Scholar
Stuiver, M. Borns, H.W. (1975). Late Quaternary marine invasion in Maine. Its chronology and associated crustal movement Geological Society of America Bulletin 86, 99104 2.0.CO;2>CrossRefGoogle Scholar
Taira, K. (1980). Radiocarbon dating of shell middens and Holocene sea-level fluctuations in Japan Palaeogeography. Palaeoclimatology, Palaeoecology 32, 7987 CrossRefGoogle Scholar
Taylor, R.E. Berger, R. (1967). Radiocarbon content of marine shells from the Pacific coasts of Central and South America Science (Washington, D.C.) 158, 1180 CrossRefGoogle ScholarPubMed
Tolley, R.E. (1978). Sea Level Changes, North-west England during the Flandrian Stage Oxford Univ. Press London/New York Google Scholar
CPAM. Chekiang Province and Chekiang Provincial Museum, (1978). Excavations (first season) at Homutu, Yuyao County, Chekiang Provice Acta Archacologia Sinica 1, 3994 Google Scholar
CPAM. City of Shanghai, (1978). Excavations (first and second) at the Mach Site. In Shanghai Acta Archacologia Sinica 1, 109137 Google Scholar
Gao, M. (1982). The basic character of submerged delta of Yangtze River Geology of Yellow Sea and East China Sea Science Press 208219 Google Scholar
Jin, Q. (1980). The recognition of some problems concerning deposition and geomorphology in East China Sea Ocean Practice 2, 39 Google Scholar
Jin, X. Yu, P. (1982). Tectonics of the Yellow Sea and the East China Sea Geology of the Yellow Sea and The East China Sea Science Press 122 Google Scholar
Li, C. Wan, J. Xue, S. Guo, X. Li, P. (1980). Holocene transgressive-regressive sequence in Yangize Delta area Scientia Geological Sinica 4, 322330 Google Scholar
Nanking, Museum (1978). The periodization of primitive culture in the Lake Tai area Acta Archaeologia Sinica 3, Google Scholar
Tan, G. (1973). The process of shore progress and development in the land part of Shanghai Archaeology 1, Google Scholar
Wang, X. (1976). A discussion on emerged dates and development of port in Shanghai area based on archaeological discovery Cultural Relics 11, Google Scholar
Ying, H. (1962). The recognition of Neolithic culture in Taihu area, Jiangsu province Archaeology 3, 147157 Google Scholar
You, K. (1981). The modern deposition rate at the Yangtze River mouth and adjacent to continental shelf area Ocean Practice 2, 2226 Google Scholar
Yu, Z. Chen, D. Tang, Y. (1982). On the formation of fossil barriers in Middle Flat of Jiangsu northern part Journal of Marine Science 4, 1114 Google Scholar
Zhu, Y. (1982). The effect of eustatic movement on geomorphology of the East China Sea during late Pleistocene Ocean Practice 1, 13 Google Scholar