14C is one of the most widespread radionuclides in nature. Although it is probably best known, especially by the general public, for dating in archaeology, it represents a useful tracer to study our environment, both in the past and nowadays. For instance, carbonaceous particles, which are in many cases the most abundant among aerosols constituents, are believed to play a major role in both the health and the climatic effects of aerosols. In particular, measurement of radiocarbon concentration in particulate matter samples can give information on the contributions of the fossil fuels combustion and of natural sources to the carbonaceous fraction in aerosols. These measurements are especially effective when separately performed on different carbonaceous fractions, like elemental and organic carbon (EC and OC, respectively). Past climate is also studied thanks to old archives, as marine sediments can be. In this case, instead of radiocarbon dating the bulk sediment, a reliable method to fix chronological markers is represented by dating foraminifera samples (CaCO3) picked from different layers in the sediment. Both the aforementioned applications are characterized by the fact that samples than can be collected for 14C measurements are typically very small, i.e. few mg or less (before any treatment). Accelerator Mass Spectrometry (AMS) is thus the only technique that can be applied to measure radiocarbon in such samples. Anyway, measurements cannot be so straightforward. In the case of the measurement of radiocarbon concentration in aerosol samples, a preparation line especially dedicated to the extraction of only the carbonaceous fraction of interest is mandatory. Actually, this line should include a combustion oven, from which either total carbon or EC and OC can separately evolve, and a system of traps to purify and collect the CO2. In the case of foraminifera, special care must be taken in the pre treatment phase: foraminifera can be contaminated by heterogeneous materials, including organic matter too. Pre treatment should thus remove all the possible contamination without losing too much mass of the samples. Here we present an overview of the environmental radiocarbon applications the INFN LABEC laboratory in Florence is involved in. 14C is measured by AMS, using the dedicated beam line installed at the 3 MV Tandem accelerator. In particular, details about the hardware and the experimental procedures are given.
Applications of radiocarbon measurements in environmental studies at LABEC, Florence / M. Fedi, P. Alvarez Iglesias, L. Caforio, G. Calzolai, V. Bernardoni, M. Chiari, S. Nava, F. Taccetti, R. Vecchi. ((Intervento presentato al convegno Environmental radioactivity tenutosi a Roma nel 2010.
Applications of radiocarbon measurements in environmental studies at LABEC, Florence
V. Bernardoni;R. VecchiUltimo
2010
Abstract
14C is one of the most widespread radionuclides in nature. Although it is probably best known, especially by the general public, for dating in archaeology, it represents a useful tracer to study our environment, both in the past and nowadays. For instance, carbonaceous particles, which are in many cases the most abundant among aerosols constituents, are believed to play a major role in both the health and the climatic effects of aerosols. In particular, measurement of radiocarbon concentration in particulate matter samples can give information on the contributions of the fossil fuels combustion and of natural sources to the carbonaceous fraction in aerosols. These measurements are especially effective when separately performed on different carbonaceous fractions, like elemental and organic carbon (EC and OC, respectively). Past climate is also studied thanks to old archives, as marine sediments can be. In this case, instead of radiocarbon dating the bulk sediment, a reliable method to fix chronological markers is represented by dating foraminifera samples (CaCO3) picked from different layers in the sediment. Both the aforementioned applications are characterized by the fact that samples than can be collected for 14C measurements are typically very small, i.e. few mg or less (before any treatment). Accelerator Mass Spectrometry (AMS) is thus the only technique that can be applied to measure radiocarbon in such samples. Anyway, measurements cannot be so straightforward. In the case of the measurement of radiocarbon concentration in aerosol samples, a preparation line especially dedicated to the extraction of only the carbonaceous fraction of interest is mandatory. Actually, this line should include a combustion oven, from which either total carbon or EC and OC can separately evolve, and a system of traps to purify and collect the CO2. In the case of foraminifera, special care must be taken in the pre treatment phase: foraminifera can be contaminated by heterogeneous materials, including organic matter too. Pre treatment should thus remove all the possible contamination without losing too much mass of the samples. Here we present an overview of the environmental radiocarbon applications the INFN LABEC laboratory in Florence is involved in. 14C is measured by AMS, using the dedicated beam line installed at the 3 MV Tandem accelerator. In particular, details about the hardware and the experimental procedures are given.
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