Abstract
We used sediment chronology data from fourteen published studies of lake cores across much of North America and Scandinavia in order to make a large scale comparison of the different dating techniques. The uncertainty of210Pb derived dates was determined using common sediment event markers: the stable Pb rise, the137Cs rise, and theAmbrosia pollen rise. For all data combined, the 95% confidence intervals for the stable Pb rise and theAmbrosia rise, were approximately 30 years. These 95% confidence intervals are slightly higher than those derived by First-Order Error analysis performed by others on210Pb derived dates. When comparing the concordance of two210Pb models (CRS and CIC) against markers of known history, we found that the CRS model dates (constant rate of supply) had consistently better agreement than the CIC model dates (constant initial concentration). Major discrepancies between137Cs and210Pb were common, but were consistently more severe in sediments of soft water lakes pointing to an inability of sediments with low mineral content to ‘immobilize’ Cs.
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References
Appleby, P. G., F. Oldfield, R. Thompson, P. Huttunen, 1979.210Pb dating of annually laminated sediments from Finland. Nature 280: 53–55.
Appleby, P. G. & F. Oldfield, 1978. The calculation of lead-210 dates assuming a constant rate of supply of unsupported lead-210 to the sediment. Catena 5: 1–8.
Appleby, P. G. & F. Oldfield. 1992. Application of lead-210 to sedimentation studies. In Uranium Series Disequilibrium (eds) M. Ivanovich and R. S. Hamon. OUP: 731–778.
Benoit, G. & H. F. Hemond, 1990.210Po and210Pb remobilization from lake sediments in relation to iron and manganese cycling. Envir. Sci. Technol. 24: 1224–1234.
Binford, M. W., J. S. W. Kahl, S. A. Norton. 1993. Interpretation of210Pb profiles and verification of the CRS dating model in PIRLA project lake sediment cores. J. Paleolimnol. 9: 275–296.
Binford, M. W., 1990. Calculation and uncertainty analysis of210Pb dates for PIRLA project lake sediment cores. J. Paleolimnol. 3: 253–267.
Brunskill, G. J., S. D. Ludlam, T.-H. Peng, 1984. Fayetteville Green Lake, N.Y., U.S.A. (VIII). Mass balance for137Cs in water, varved and non-varved sediment. Chem. Geol. 44: 101–117.
Charles, D. F., M. W. Binford, E. T. Furlong, R. A. Hites, M. J. Mitchell, S. A. Norton, F. Oldfield, M. J. Patterson, J. P. Smol, A. J. Uutala, J. R. White, D. R. Whitehead, R. J. Wise, 1990. Paleoecological investigation of recent lake acidification in the Adirondack Mountains. J. Paleolimnol. 3: 195–241.
Davis, R. B., C. T. Hess, S. A. Norton, D. W. Hanson, K. D. Hoagland & D. S. Anderson, 1984.137Cs and210Pb dating of sediments from soft water lakes in New England (USA) and Scandinavia, a failure of137Cs dating. Chem. Geol. 44: 151–185.
Dixit, S. S., A. S. Dixit & R. D. Evans, 1986. Paleolimnological study of LRTAP network lakes, Quebec region. Report prepared for the Department of Supply and Services Canada. Trent University, 53 pp.
Dillon, P. J. & R. D. Evans, 1982. Whole-lake lead burdens in sediments of lakes in southern Ontario, Canada. Hydrobiol. 91: 121–130.
Durham, R. W. & S. R. Joshi, 1980. The210Pb and137Cs profiles in sediment cores from lakes Matagami and Quevillon, Northwest Quebec, Canada. Can. J. Earth Sci. 17: 1746–1750.
Edgington, D. N. & J. A. Robbins, 1976. Records of lead deposition in Lake Michigan sediments since 1800. Envir. Sci. Technol. 10: 266–274.
Evans, R. D., 1991. The impact of sediment focusing on total residual210Pb: implications for choice of a dating model. Verh. int. Ver. Limnol. 24: 2335–2339.
Evans, R. D. & F. H. Rigler, 1985. Long distance transport of anthropogenic lead as measured by lake sediments. Wat. Air Soil Pollut. 24: 141–151.
Francis, C. W., F. S. Brinkley, 1976. Preferential adsorption of137Cs to micaceous minerals in contaminated freshwater sediment. Nature 260: 511–513.
Frank, R., R. L. Thomas, H. E. Braun, D. L. Gross, T. T. Davies, 1981. Organochlorine insecticides and PCB in surficial sediments of lake Michigan. J. Great Lakes Res. 7:42–50.
Guinasso, N. L. & D. R. Schink, 1975. Quantitative estimates of biological mixing rates in abyssal sediments. J. Geophys. Res. 80: 3032–3043.
Haworth, E. Y. & J. W. G. Lund, 1984. Lake Sediments and Environmental History. University of Minnesota Press. Minneapolis, 405 pp.
Hermansson, M. H., 1990.210Pb and137Cs chronology of sediments from small Arctic lakes. Geochim. Cosmochim. Acta 54: 1443–1451.
Hermansson, M. H. & E. R. Christensen, 1991. Recent sedimentation in Lake Michigan. J. Great Lakes Res. 17: 33–50.
Johansson, K., 1989. Metals in sediments of lakes in northern Sweden. Wat. Air Soil Pollut. 47: 441–455.
Johnson, M. G., L. R. Culp & S. E. George, 1986. Temporal and spacial trends in metal loadings to sediments of the Turkey lakes, Ontario. Can. J. Fish. aquat. Sci. 43: 754–762.
Kingston, J. C., R. B. Cook, R. G. Kreis, K. E. Camburn, S. A. Norton, P. R. Sweets, M. W. Binford, M. J. Mitchell, S. C. Schindler, L. C. K. Shane, G. A. King. 1990. Paleoecological investigation of recent lake acidification in the Northern Great Lakes. J. Paleolimnol. 4: 153–201.
Norton, S. A., R. W. Bienert, M. W. Binford, J. S. Kahl, 1992. Stratigraphy of total metals in PIRLA sediment cores. J. Paleolimnol. 7: 191–214.
Norton, S. A., P. J. Dillon, R. D. Evans, G. Mierle, J. S. Kahl, 1990. The history of atmospheric deposition of Cd, Hg, and Pb in North America: Evidence from lake and peat bog sediments. In Lindberg, S. E., A. L. Page, S. A. Norton (eds.) Sources, Deposition, and Canopy Interactions. Springer-Verlag, Vol. 3, 332 pp.
Nriagu, J. O., 1990. The rise and fall of leaded gasoline. Sci. Tot. Environ. 92: 13–28.
Nriagu, J. O., 1979. Global inventory of natural and anthropogenic emissions of trace metals to the atmosphere. Nature 279: 409–411.
Oldfield, F. & P. G. Appleby, 1984. Empirical testing of210Pb-dating models for lake sediments. In Haworth, E. Y. and J. W. G. Lund (eds). Lake Sediments and Environmental History. University of Minnesota Press. Minneapolis, 405 pp.
Robbins, J. A., 1978. Geochemical and geophysical application of radioactive lead isotopes. In ‘Biogeochemistry of Lead’, J. O. Nriagu (ed.) Elsevier. Amsterdam: 285–393.
Robbins, J. A., D. N. Edgington, A. L. W. Kemp. 1978. Comparative210Pb,137Cs, and pollen geochronologies of sediments from Lake Ontario and Erie. Quat. Res. 10: 256–278.
Robbins, J. A. & L. R. Herche, 1993. Models and uncertainty in210Pb dating of lake sediments. Verh. int. Ver. Limnol. 25: 217–222.
Rowan, D. J., J. Kalff, J. B. Rasmussen, 1992. Profundal sediment organic content and physical character do not reflect lake trophic status, but rather reflect inorganic sedimentation and exposure. Can. J. Fish. aquat. Sci. 49: 1431–1438.
Schut, P. H., R. D. Evans, W. A. Scheider, 1986. Variations in trace metal exports from small Canadian Shield watersheds. Wat. Air Soil Pollut. 28: 225–237.
Sholkovitz, E. R., D. R. Mann, 1984. The porewater chemistry239,240Pu and137Cs in sediments of Buzzards Bay, Massachusetts. Geochim. Cosmochim. A. 48: 1107–1114.
Swain, E. B., D. R. Engstrom, M. E. Brigham, T. A. Henning, P. L. Brezonik, 1992. Increasing rates of atmospheric mercury deposition in midcontinental North America. Science 257: 784–787.
Sweets, P. R., R. W. Bienert, T. L. Crisman, M. W. Binford, 1990. Paleoecological investigations of recent lake acidification in Northern Florida. J. Paleolimnol. 4: 103–137.
Walling, D. E. & H. Qingping, 1992. Interpretation of caesium −137 profiles in lacustrine and other sediments: the role of catchment derived inputs. Hydrobiology 235: 219–230.
Wilkinson, L., 1989. SYSTAT: the system for statistics. SYSTAT Inc., Evanston, IL. 822 pp.
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This is the ninth of a series of papers to be published by this journal following the 20th anniversary of the first application of210Pb dating of lake sediments, Dr. P. G. Appleby is guest editing this series.
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Blais, J.M., Kalff, J., Cornett, R.J. et al. Evaluation of210Pb dating in lake sediments using stable Pb,Ambrosia pollen, and137Cs. J Paleolimnol 13, 169–178 (1995). https://doi.org/10.1007/BF00678105
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DOI: https://doi.org/10.1007/BF00678105