Atmospheric Pb deposition in Spain during the last 4600 years recorded by two ombrotrophic peat bogs and implications for the use of peat as archive

• Published in: The Science of the total environment Vol. 292; no. 1; pp. 33 - 44
• Main Authors: Martı́nez Cortizas, A., Garcı́a-Rodeja, E., Pontevedra Pombal, X., Nóvoa Muñoz, J.C., Weiss, D., Cheburkin, A.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 20.06.2002
• Subjects: Air Pollutants - analysis; Airborne dust transport; Carbon Radioisotopes; Enrichment factors; Environmental Monitoring - methods; Fractionation of lithogenic elements; Geography; Lead - analysis; Ombrotrophic peat bogs; Pb isotope ratios; Pb pollution; Soil - analysis; Soil Pollutants - analysis; Spain; Time Factors; Titanium - analysis; ANE, Spain, Galicia; Spain; Pb isotope ratios; Ombrotrophic peat bogs; Enrichment factors; Pb pollution; Fractionation of lithogenic elements; Airborne dust transport; Spain
• ISSN: 0048-9697; 1879-1026
• DOI: 10.1016/S0048-9697(02)00031-1

Two ombrotrophic peat bogs in Northwestern Spain provided a history of 4600 years of Pb accumulation. Highest Pb concentrations (84–87 μg g −1) were found near the bogs’ surface, but there were also other significant peaks (6–14 μg g −1), indicating pre-industrial atmospheric pollution. The enrichment factors (EFs) in both cores show a remarkably similar record. Atmospheric Pb pollution dates back to at least approximately 2500 years ago, reaching a first maximum during the Roman period. For the last 300 years, Pb EFs significantly increased due to industrial development, but the uppermost samples of the bogs show decreasing Pb EFs, probably due to the phasing out of leaded gasoline. These results are also supported by 206Pb/ 207Pb isotope ratios, as they continuously decrease from ca. 3000 BP until 2000 BP (from 1.275 at 4070 14C years BP to 1.182), indicating the growing importance of non-radiogenic Pb released from Iberian ores by ancient mining. Peat samples at a 3–5-cm depth are even less radiogenic ( 206Pb/ 107Pb=1.157), indicating the strong influence of leaded gasoline. Despite the common history shared by the two bogs, striking differences were found for Pb enrichment, whether this was calculated by normalising to the Pb/Ti ratio of the upper continental crust or to the Pb/Ti ratios of peats from pre-anthropogenic times. This effect seems to be related to differences in Ti accumulation in both bogs, possibly due to physical fractionation of the airborne dust during wind transport. Enrichment has to be carefully considered when comparing the results obtained for different bogs, since our results suggest that normalising to crustal proportions is meaningless when the bulk of the deposition in an area is strongly influenced by short- and medium-range dust transport.