a new high-pressure squeezing technique for pore fluid extraction from terrestrial soils |
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Authors: | Böttcher Gerd Brumsack Hans-J Heinrichs Hartmut Pohlmann Markus |
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Institution: | 1.Laboratoire de Glaciologie et Géophysique de l'Environnement du CNRS, 54, rue Molière, Domaine Universitaire, B.P. 96, 38402, Saint Martin d'Hères, France ;2.UFR de Mécanique, Université Joseph Fourier de Grenoble (Institut Universitaire de France), Domaine Universitaire, 17, rue du Tour de l'Eau, B.P. 53, 38041, Grenoble, France ;3.Geologisches Institut, Universit?t Bern, Baltzerstrasse 1, 3012, Bern, Switzerland ;4.Groupe de Géochimie de l'Environnement, Laboratoire de Géophysique Interne et Tectonophysique/IRIGM, Université Joseph Fourier de Grenoble/CNRS, Domaine Universitaire, B.P. 53, 38041, Grenoble, France ; |
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Abstract: | A core consisting of minerogenic peat and organic-rich mineral sediments was collected at an altitude of 4275 m in the Ovejuyo valley, 100 km NE of La Paz in Bolivia. Age dating with 210Pb showed that the core represents approximately three centuries of sediment accumulation. None of the peats are ombrotrophic. Despite this, the Cd/Al, Cu/Al, Zn/Al, and Pb/Al ratios are all significantly higher in the surface layers, particularly in the top 6 cm: natural, abiological geochemical processes, therefore, cannot account for these elevated heavy metal/Al ratios. There are two possible explanations for the metal enrichments, relative to Al, in the surface layers: bioaccumulation by living plants, and anthropogenic atmospheric metal deposition. While the living plant layer may be responsible for the Cd, Cu, and Zn enrichments, this is an unlikely explanation for the Pb profile. In contrast to the other metals, the concentration of Pb in the first sample (dating from 1985-1994) is less than that of the second sample (dating from 1970-1985). The Pb/Al profile is consistent with the well documented, rapid increase in atmospheric Pb emissions during the present century (which accelerated following the introduction of leaded gasoline), and the decline in Pb pollution during the past 20 years (as a result of the introduction of unleaded gasoline). Thus, the Ovejuyo Valley mire has provided one of the first records of atmospheric Pb pollution in South America. |
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