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Impact of industries in the accumulation of radionuclides inthe lower part of Ebro river (Catalonia, Spain)

Published online by Cambridge University Press:  17 December 2010

M. Palomo
Affiliation:
Unitat de Radioquímica Ambiental i Sanitaria, Universitat Rovira i Virgili, Consorci d’Aigues de Tarragona (CAT), Ctra. Nacional 340 km, 1094 Ap. correus n.7, 43895 L’Ampolla Tarragona, Spain.
A. Peñalver
Affiliation:
Unitat de Radioquímica Ambiental i Sanitaria, Universitat Rovira i Virgili, Consorci d’Aigues de Tarragona (CAT), Ctra. Nacional 340 km, 1094 Ap. correus n.7, 43895 L’Ampolla Tarragona, Spain.
C. Aguilar
Affiliation:
Unitat de Radioquímica Ambiental i Sanitaria, Universitat Rovira i Virgili, Consorci d’Aigues de Tarragona (CAT), Ctra. Nacional 340 km, 1094 Ap. correus n.7, 43895 L’Ampolla Tarragona, Spain.
F. Borrull
Affiliation:
Unitat de Radioquímica Ambiental i Sanitaria, Universitat Rovira i Virgili, Consorci d’Aigues de Tarragona (CAT), Ctra. Nacional 340 km, 1094 Ap. correus n.7, 43895 L’Ampolla Tarragona, Spain.
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Abstract

Ebro River extends over almost 930 km and is the main Spanish river entering theMediterranean Sea. There are several industries located along this river course includinga dicalcium phosphate factory (DCP) and two nuclear power reactors. These installations,together with other factors such as the geology, can contribute to the radiologicalcontent of the river. Therefore, this study was performed to determine some natural andalso some anthropogenic radionuclide concentrations in the Ebro River ecosystem. Weanalysed water samples, solid samples (rice field sludge and surface marine sedimentsamples), and also biota samples (Cladophora glomerata andCynodon dactylon). For water samples, gross alpha, gross beta, tritium,uranium, thorium and also a group of gamma-emitting isotopes’ activities were determined.The main contribution to radioactivity for these samples was due to some isotopes from theuranium and thorium chain. For the solid samples, we quantified some natural andartificial gamma radioisotopes, which may be related to the geological and/or industrialactivities located in this zone. In the case of biota, the results indicate that thepresence of the DCP has a significant influence, since the highest activity was observedin the surroundings of this industry (Flix), where isotopes such as 214Bi and214Pb presented activity values of 105  ±  43 Bq/kg and 100  ±  58 Bq/kg,respectively.

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Article
Copyright
© EDP Sciences, 2010

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References

Baeza, A., Díaz, M., García, E., Miró, C. (2002) Influence of interbasin transfers between the Alcantara and Guadiloba reservoirs on the radiological quality of the drinking water of the city of Caceres (Spain), Journal of Radioanalytical Nuclear Chemistry 252, 441449. Google Scholar
Bonotto, D.M., Bueno, T.O. (2008) The natural radioactivity in Guarani aquifer groundwater, Brazil, Applied Radiation and Isotopes 66, 15071522. Google ScholarPubMed
Casacuberta, N., Masqué, P., Garcia-Orellana, J., Bruach, J.M., Anguita, M., Gasa, J., Villa, M., Hurtado, S., Garcia-Tenorio, R. (2009) Radioactivity contents in dicalcium phosphate and the potential radiological risk to human populations, Journal of Hazardous Materials 170, 814-823. Google ScholarPubMed
CHE (2009) Confederación Hidrográfica del Ebro, December 2009, http://www.chebro.es.
Gäfvert, T., Holm, E., Roos, P. (2001) Radionuclide fluxes at a plant manufacturing dicalcium phosphate for domestic animals, Journal of Environmental Radioactivity 54, 6173. Google Scholar
Gascó, C., Antón, M.P., Pozuelo, M., Meral, J., González, A.M., Papucci, C., Delfanti, R. (2002) Distributions of Pu, Am and Cs in margin sediments from the western Mediterranean (Spanish coast), Journal of Environmental of Radioactivity 59, 75-89. Google Scholar
Loureiro, S., Garcé, E., Fernández-Tejedor, M., Vaqué, D., Camp, J. (2009) Pseudonitzschia spp. (Bacillariophyceae) and dissolved organic matter (DOM) dynamics in the Ebro Delta (Alfacs Bay, NW Mediterranean Sea), Estuarine, Coastal and Shelf Science 83, 539549. Google Scholar
Navas, A., Machín, J., Soto, J. (2005) Mobility of natural radionuclides and selected major and trace elements along a soil toposequence in the Central Spanish Pyrenees, Soil Science 170, 743-757. Google Scholar
Navarro, A., Quirós, L., Casado, M., Faria, M., Carrasco, L., Benejam, L.L., Benito, J., Díez, S., Raldúa, D., Barata, C., Bayona, J.M., Piña, B. (2009) Physiological responses to mercury in feral carp populations inhabiting the low Ebro River (NE Spain), a historically contaminated site, Aquatic Toxicology 93, 150157. Google Scholar
Palomo, M., Peñalver, A., Borrull, F., Aguilar, C. (2007) Measurement of radioactivity in bottled drinking water in Spain, Applied Radiation and Isotopes 65, 11651172. Google ScholarPubMed
Palomo, M., Peñalver, A., Aguilar, C., Borrull, F. (2010) Radioactivity evaluation of Ebro River water and sludge treated in a potable water treatment plant located in the south of Catalonia (Spain), Applied Radiation and Isotopes 68, 474-480. Google Scholar
Pujol, L.L., Sánchez-Cabeza, J.A. (1999) Optimisation of liquid scintillation counting conditions for rapid tritium determination in aqueous samples, Journal of Radioanalytical Nuclear Chemistry 242, 391398. Google Scholar
PVRA (2007) Programa de Vigiláncia Radiológica Ambiental, Colección de Informes Técnicos 28.2008. Madrid.
Real Decreto 140/2003 (2003) Boletín Oficial del Estado n.45, 21 de Febrero del 2003, 72287245.
Sánchez-Cabeza, J.A., Molero, J. (2000) Plutonium, Americium and radiocaesium in the marine environment close to the Vandellós I nuclear power plan before decommissioning, Journal of Environmental Radioactivity 51, 211-228. Google Scholar
Shaban M.H. (2004) Doctoral Thesis, On the human radiation exposure as derived from the analysis of natural and man-made radionuclides in soils, Universität Hannover, Hannover.
Villa, M., Manjón, G. (2004) Low-Level measurements of tritium in water, Applied Radiation and Isotope 61, 319-323. Google ScholarPubMed