ASSESSMENT OF THE TERRESTRIAL IMPACT OF A NUCLEAR POWER PLANT CESIUM 137 AND CESIUM 134 GASEOUS RELEASES

GAZAL S., PRANGÉ R., MEHIER S. & LAROUSSE A.

Conseil Général de Tarn-et-, Commission Locale d’Information auprès du CNPE de Golfech (Tarn-et-Garonne), 82013, , , [email protected]

Terrestrial contamination by cesium 137 and 134 since 1986 in France is held to originate in atmospheric nuclear weapon tests and/or the releases from the Chernobyl accident. Monthly measurements of radioactivity in terrestrial mosses are part of the monitoring protocol carried out by the Conseil Général de Tarn-et-Garonne to assess the environmental impact of the Golfech nuclear power plant radioactive releases. Since the commissioning of the NPP in 1990, these monthly measurements revealed a contamination by cesium 137 and 134 (up to 700 and 60 BqKg-1 DW) in both downwind sampling sites. This contamination decreased by a factor about 3 to 6 and 10 respectively over 1990-1996, and remained fairly constant throughout 1996-2002 (cesium 134 hardly detectable). This contamination, as well as the isotopic ratio cesium 137/cesium 134, are significantly correlated with the monthly levels of gaseous releases of radioactivity by the Golfech NPP (95%, r2 = 0.40 to >0.75). These results are discussed in the light of the sampled mosses characteristics (species identified, morphological seasonal variations, metabolism), time since radioactive releases and climate variations, as well as of the operating and release conditions of/from the Golfech NPP. Some discrepancies (concerning cesium 137 and 134, sampling sites contamination, raw and extra- contamination calculated from the pre-commissioning measurements) are thus examined. These preliminary results bear evidence of an impact of the Golfech NPP on the terrestrial environment, particularly over the first few years operating. They confirm that specific species of terrestrial mosses are particularly sensitive to low levels of atmospheric radioactive cesium contamination and thus constitute a good indicator of a radioactive fallout. They suggest that terrestrial mosses may serve to elaborate a predictive model of a radioactive release, together with some relevant parameters and in the framework of a carefully defined monitoring protocol.