In-situ radionuclide characterization of a submarine groundwater discharge site at Kalogria Bay, Stoupa, Greece
In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies (214Pb, 214Bi), thoron progeny (208Tl) and 40K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring plat...
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| Published in | Journal of environmental radioactivity Vol. 108; pp. 50 - 59 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article Conference Proceeding |
| Language | English |
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Kidlington
Elsevier Ltd
01.06.2012
Elsevier |
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| Online Access | Get full text |
| ISSN | 0265-931X 1879-1700 1879-1700 |
| DOI | 10.1016/j.jenvrad.2011.08.005 |
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| Abstract | In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies (214Pb, 214Bi), thoron progeny (208Tl) and 40K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring platform along with two conductivity - temperature data loggers while underwater battery packs supplied the system for acquisition periods up to 25 days. The radionuclide time series together with salinity data were obtained for spring (wet) and summer (dry) seasons. The 40K activity concentrations correlated well with salinity of the emanating groundwater. Although the 214Bi and 208Tl activities showed usually similar trends anticorrelating with salinity, in some cases 208Tl did not follow the 214Bi record due to changes in the dynamics of the groundwater aquifer. As the half-life of 220Rn is very short (55.6 s), its concentration in SGD may depend on the distance from its origin to the monitoring point. The observed temporal variations of 214Bi and 208Tl confirmed advantages of continuous in-situ monitoring of SGD in coastal areas.
► In-situ continuous measurement of radioactivity in an SGD spring was performed. ► Time series of 40K, 214Bi, and 208Tl were obtained together with salinity data. ► The mixing process and the recharge of seawater were studied via radio-tracers. ► Thoron progeny 208Tl was monitored for the first time in SGD spring. ► The system provided data for the spring’s behavior and for radioecological purposes. |
|---|---|
| AbstractList | In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies (214Pb, 214Bi), thoron progeny (208Tl) and 40K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring platform along with two conductivity - temperature data loggers while underwater battery packs supplied the system for acquisition periods up to 25 days. The radionuclide time series together with salinity data were obtained for spring (wet) and summer (dry) seasons. The 40K activity concentrations correlated well with salinity of the emanating groundwater. Although the 214Bi and 208Tl activities showed usually similar trends anticorrelating with salinity, in some cases 208Tl did not follow the 214Bi record due to changes in the dynamics of the groundwater aquifer. As the half-life of 220Rn is very short (55.6 s), its concentration in SGD may depend on the distance from its origin to the monitoring point. The observed temporal variations of 214Bi and 208Tl confirmed advantages of continuous in-situ monitoring of SGD in coastal areas. In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies ((214)Pb, (214)Bi), thoron progeny ((208)Tl) and (40)K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring platform along with two conductivity - temperature data loggers while underwater battery packs supplied the system for acquisition periods up to 25 days. The radionuclide time series together with salinity data were obtained for spring (wet) and summer (dry) seasons. The (40)K activity concentrations correlated well with salinity of the emanating groundwater. Although the (214)Bi and (208)Tl activities showed usually similar trends anticorrelating with salinity, in some cases (208)Tl did not follow the (214)Bi record due to changes in the dynamics of the groundwater aquifer. As the half-life of (220)Rn is very short (55.6 s), its concentration in SGD may depend on the distance from its origin to the monitoring point. The observed temporal variations of (214)Bi and (208)Tl confirmed advantages of continuous in-situ monitoring of SGD in coastal areas. In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies (²¹⁴Pb, ²¹⁴Bi), thoron progeny (²⁰⁸Tl) and ⁴⁰K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring platform along with two conductivity - temperature data loggers while underwater battery packs supplied the system for acquisition periods up to 25 days. The radionuclide time series together with salinity data were obtained for spring (wet) and summer (dry) seasons. The ⁴⁰K activity concentrations correlated well with salinity of the emanating groundwater. Although the ²¹⁴Bi and ²⁰⁸Tl activities showed usually similar trends anticorrelating with salinity, in some cases ²⁰⁸Tl did not follow the ²¹⁴Bi record due to changes in the dynamics of the groundwater aquifer. As the half-life of ²²⁰Rn is very short (55.6 s), its concentration in SGD may depend on the distance from its origin to the monitoring point. The observed temporal variations of ²¹⁴Bi and ²⁰⁸Tl confirmed advantages of continuous in-situ monitoring of SGD in coastal areas. In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies ((214)Pb, (214)Bi), thoron progeny ((208)Tl) and (40)K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring platform along with two conductivity - temperature data loggers while underwater battery packs supplied the system for acquisition periods up to 25 days. The radionuclide time series together with salinity data were obtained for spring (wet) and summer (dry) seasons. The (40)K activity concentrations correlated well with salinity of the emanating groundwater. Although the (214)Bi and (208)Tl activities showed usually similar trends anticorrelating with salinity, in some cases (208)Tl did not follow the (214)Bi record due to changes in the dynamics of the groundwater aquifer. As the half-life of (220)Rn is very short (55.6 s), its concentration in SGD may depend on the distance from its origin to the monitoring point. The observed temporal variations of (214)Bi and (208)Tl confirmed advantages of continuous in-situ monitoring of SGD in coastal areas.In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies ((214)Pb, (214)Bi), thoron progeny ((208)Tl) and (40)K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring platform along with two conductivity - temperature data loggers while underwater battery packs supplied the system for acquisition periods up to 25 days. The radionuclide time series together with salinity data were obtained for spring (wet) and summer (dry) seasons. The (40)K activity concentrations correlated well with salinity of the emanating groundwater. Although the (214)Bi and (208)Tl activities showed usually similar trends anticorrelating with salinity, in some cases (208)Tl did not follow the (214)Bi record due to changes in the dynamics of the groundwater aquifer. As the half-life of (220)Rn is very short (55.6 s), its concentration in SGD may depend on the distance from its origin to the monitoring point. The observed temporal variations of (214)Bi and (208)Tl confirmed advantages of continuous in-situ monitoring of SGD in coastal areas. In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies (214Pb, 214Bi), thoron progeny (208Tl) and 40K in submarine groundwater discharge (SGD) sites at Kalogria Bay, SW Peloponnesus (Greece). The spectrometer was deployed attached on measuring platform along with two conductivity - temperature data loggers while underwater battery packs supplied the system for acquisition periods up to 25 days. The radionuclide time series together with salinity data were obtained for spring (wet) and summer (dry) seasons. The 40K activity concentrations correlated well with salinity of the emanating groundwater. Although the 214Bi and 208Tl activities showed usually similar trends anticorrelating with salinity, in some cases 208Tl did not follow the 214Bi record due to changes in the dynamics of the groundwater aquifer. As the half-life of 220Rn is very short (55.6 s), its concentration in SGD may depend on the distance from its origin to the monitoring point. The observed temporal variations of 214Bi and 208Tl confirmed advantages of continuous in-situ monitoring of SGD in coastal areas. ► In-situ continuous measurement of radioactivity in an SGD spring was performed. ► Time series of 40K, 214Bi, and 208Tl were obtained together with salinity data. ► The mixing process and the recharge of seawater were studied via radio-tracers. ► Thoron progeny 208Tl was monitored for the first time in SGD spring. ► The system provided data for the spring’s behavior and for radioecological purposes. |
| Author | Papathanassiou, Evangelos Tsabaris, Christos Povinec, Pavel P. Papadopoulos, Vassilis P. Karageorgis, Aristomenis P. Eleftheriou, George Georgopoulos, Dimitris Patiris, Dionisis L. |
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| Keywords | Marine environment Thoron Kalogria Bay Radon Submarine groundwater discharge In-situ gamma-ray spectrometry Natural origin pollution Radioactive pollution Natural radioactivity In situ Radioactive contamination Radioisotope Coastal zone Heavy metal Actinide Trace element Bay Gamma spectrometry Thorium |
| Language | English |
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| Snippet | In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies (214Pb, 214Bi), thoron progeny (208Tl) and 40K in... In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies ((214)Pb, (214)Bi), thoron progeny ((208)Tl) and... In-situ underwater gamma-ray spectrometer KATERINA was used for continuous measurements of radon progenies (²¹⁴Pb, ²¹⁴Bi), thoron progeny (²⁰⁸Tl) and ⁴⁰K in... |
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| SubjectTerms | aquifers batteries Bays Biological and medical sciences Biological effects of radiation Discharge Fundamental and applied biological sciences. Psychology Greece Groundwater Groundwater - analysis half life In-situ gamma-ray spectrometry Kalogria Bay Marine environment Monitoring Progeny Radiation Monitoring radioactivity Radiocontamination Radioisotopes - analysis Radon Salinity Spectrometers spring Submarine groundwater discharge Submarines summer temperature Thoron time series analysis Tissues, organs and organisms biophysics Underwater Water Pollutants, Radioactive - analysis |
| Title | In-situ radionuclide characterization of a submarine groundwater discharge site at Kalogria Bay, Stoupa, Greece |
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