Incorporation of radiometric tracers in peat and implications for estimating accumulation rates. Hansson, S. V., Kaste, J. M., Olid, C., & Bindler, R. Science of The Total Environment, 493:170–177, September, 2014. 00007Paper doi abstract bibtex Accurate dating of peat accumulation is essential for quantitatively reconstructing past changes in atmospheric metal deposition and carbon burial. By analyzing fallout radionuclides 210Pb, 137Cs, 241Am, and 7Be, and total Pb and Hg in 5 cores from two Swedish peatlands we addressed the consequence of estimating accumulation rates due to downwashing of atmospherically supplied elements within peat. The detection of 7Be down to 18–20 cm for some cores, and the broad vertical distribution of 241Am without a well-defined peak, suggest some downward transport by percolating rainwater and smearing of atmospherically deposited elements in the uppermost peat layers. Application of the CRS age–depth model leads to unrealistic peat mass accumulation rates (400–600 g m− 2 yr− 1), and inaccurate estimates of past Pb and Hg deposition rates and trends, based on comparisons to deposition monitoring data (forest moss biomonitoring and wet deposition). After applying a newly proposed IP-CRS model that assumes a potential downward transport of 210Pb through the uppermost peat layers, recent peat accumulation rates (200–300 g m− 2 yr− 1) comparable to published values were obtained. Furthermore, the rates and temporal trends in Pb and Hg accumulation correspond more closely to monitoring data, although some off-set is still evident. We suggest that downwashing can be successfully traced using 7Be, and if this information is incorporated into age–depth models, better calibration of peat records with monitoring data and better quantitative estimates of peat accumulation and past deposition are possible, although more work is needed to characterize how downwashing may vary between seasons or years.
@article{hansson_incorporation_2014,
title = {Incorporation of radiometric tracers in peat and implications for estimating accumulation rates},
volume = {493},
issn = {0048-9697},
url = {http://www.sciencedirect.com/science/article/pii/S0048969714007682},
doi = {10.1016/j.scitotenv.2014.05.088},
abstract = {Accurate dating of peat accumulation is essential for quantitatively reconstructing past changes in atmospheric metal deposition and carbon burial. By analyzing fallout radionuclides 210Pb, 137Cs, 241Am, and 7Be, and total Pb and Hg in 5 cores from two Swedish peatlands we addressed the consequence of estimating accumulation rates due to downwashing of atmospherically supplied elements within peat. The detection of 7Be down to 18–20 cm for some cores, and the broad vertical distribution of 241Am without a well-defined peak, suggest some downward transport by percolating rainwater and smearing of atmospherically deposited elements in the uppermost peat layers. Application of the CRS age–depth model leads to unrealistic peat mass accumulation rates (400–600 g m− 2 yr− 1), and inaccurate estimates of past Pb and Hg deposition rates and trends, based on comparisons to deposition monitoring data (forest moss biomonitoring and wet deposition). After applying a newly proposed IP-CRS model that assumes a potential downward transport of 210Pb through the uppermost peat layers, recent peat accumulation rates (200–300 g m− 2 yr− 1) comparable to published values were obtained. Furthermore, the rates and temporal trends in Pb and Hg accumulation correspond more closely to monitoring data, although some off-set is still evident. We suggest that downwashing can be successfully traced using 7Be, and if this information is incorporated into age–depth models, better calibration of peat records with monitoring data and better quantitative estimates of peat accumulation and past deposition are possible, although more work is needed to characterize how downwashing may vary between seasons or years.},
urldate = {2017-04-28},
journal = {Science of The Total Environment},
author = {Hansson, Sophia V. and Kaste, James M. and Olid, Carolina and Bindler, Richard},
month = sep,
year = {2014},
note = {00007},
keywords = {\#nosource, Beryllium, Downwash, Lead, Peat accumulation, mercury},
pages = {170--177},
}
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The detection of 7Be down to 18–20 cm for some cores, and the broad vertical distribution of 241Am without a well-defined peak, suggest some downward transport by percolating rainwater and smearing of atmospherically deposited elements in the uppermost peat layers. Application of the CRS age–depth model leads to unrealistic peat mass accumulation rates (400–600 g m− 2 yr− 1), and inaccurate estimates of past Pb and Hg deposition rates and trends, based on comparisons to deposition monitoring data (forest moss biomonitoring and wet deposition). After applying a newly proposed IP-CRS model that assumes a potential downward transport of 210Pb through the uppermost peat layers, recent peat accumulation rates (200–300 g m− 2 yr− 1) comparable to published values were obtained. Furthermore, the rates and temporal trends in Pb and Hg accumulation correspond more closely to monitoring data, although some off-set is still evident. 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