Evaluation of the cause of unexplained radiocaesium contamination of brown rice in Fukushima in 2013 using autoradiography and gamma-ray spectrometry

Matsunami, Hisaya; Murakami, Toshifumi; Fujiwara, Hideshi; Shinano, Takuro

doi:10.1038/srep20386

Cited by 22 publications

(7 citation statements)

References 5 publications

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“…Radio-Cs can be discharged into the environment in the form of aerosol, soluble aqueous solution, or as part of sparingly soluble particles. − Significant amounts of Cs were released into the environment during the 1986 Chernobyl (132 PBq) and the 2011 Fukushima Daiichi nuclear power plant accidents (32 PBq). − Atmospheric release of radio-Cs aerosols results in plumes of radio-Cs, which are distributed by air-mass movements. Radio-Cs in the plumes is subsequently brought to the ground by wet deposition via precipitation or dry deposition. , Since radio-Cs has a high affinity for clay minerals, it often undergoes sorption to clayey soil particles. , In addition, plants can uptake Cs from air or water, , introducing radio-Cs into the biosphere, which dominates dose in the impacted regions.…”

Section: Introductionmentioning

confidence: 99%

“…Current methods used for the detection of radio-Cs in environmental samples include γ spectroscopy and autoradiography. γ spectroscopy is routinely used for the measurement of bulk radio-Cs activity concentrations. , Use of the peak energies at 604.7 keV (Cs-134) and 661.7 keV (Cs-137) also enables accurate measurement of Cs-134/Cs-137 isotopic ratios, which can be used to identify the origin of Cs releases . Autoradiography is an imaging technique that provides high-resolution two-dimensional images of radioactive emissions from a sample.…”

Section: Introductionmentioning

confidence: 99%

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Improved Radio-Cesium Detection Using Quantitative Real-Time Autoradiography

Ang

Bongrand

Duval³

et al. 2023

ACS Omega

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Cesium-134 and -137 are prevalent, long-lived, radio-toxic contaminants released into the environment during nuclear accidents. Large quantities of insoluble, respirable Cs-bearing microparticles (CsMPs) were released into the environment during the Fukushima Daiichi nuclear accident. Monitoring for CsMPs in environmental samples is essential to understand the impact of nuclear accidents. The current detection method used to screen for CsMPs (phosphor screen autoradiography) is slow and inefficient. We propose an improved method: real-time autoradiography that uses parallel ionization multiplier gaseous detectors. This technique permits spatially resolved measurement of radioactivity while providing spectrometric data from spatially heterogeneous samplesa potential step-change technique for use after nuclear accidents for forensic analysis. With our detector configuration, the minimum detectable activities are sufficiently low for detecting CsMPs. Further, for environmental samples, sample thickness does not detrimentally affect detector signal quality. The detector can measure and resolve individual radioactive particles ≥465 μm apart. Real-time autoradiography is a promising tool for radioactive particle detection.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Improved Radio-Cesium Detection Using Quantitative Real-Time Autoradiography

Ang

Bongrand

Duval³

et al. 2023

ACS Omega

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“…The high-dose-rate alarm was activated on August 19 within the premises of FDNPP associated with the debris removal operation. Matsunami et al (2016) related the radiocesium contamination of brown rice in Fukushima in 2013 to this operation, whereas MAFF (2015) denied any association. The NRA estimated the 137 Cs emission rate during the debris removal operation as 6.7 × 10 10 Bq h −1 and the cumulative amount as 1.1 × 10 11 Bq (NRA, 2014).…”

Section: Possible Source Of Sporadic Peak Eventsmentioning

confidence: 99%

Long-term assessment of airborne radiocesium after the Fukushima nuclear accident: re-suspension from bare soil and forest ecosystems

et al. 2016

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Abstract. The long-term effect of 137 Cs re-suspension from contaminated soil and forests due to the Fukushima nuclear accident has been quantitatively assessed by numerical simulation, a field experiment on dust emission flux in a contaminated area (town of Namie, Fukushima prefecture), and air concentration measurements inside (Namie) and outside (city of Tsukuba, Ibaraki prefecture) the contaminated area. In order to assess the long-term effect, the full year of 2013 was selected to study just after the start of the field experiments. The 137 Cs concentrations at Namie and Tsukuba were approximately 10 −1 -1 and 10 −2 -10 −1 mBq m −3 , respectively. The observed monthly median concentration at Namie was 1 to 2 orders of magnitude larger than that at Tsukuba. This observed difference between the two sites was consistent with the simulated difference, indicating successful modeling of 137 Cs re-suspension and atmospheric transport. The estimated re-suspension rate was approximately 10 −6 day −1 , which was significantly lower than the decreasing rate of the ambient gamma dose rate in Fukushima prefecture (10 −4 -10 −3 day −1 ) as a result of radioactive decay, migration in the soil and biota, and decontamination. Consequently, re-suspension contributed negligibly in reducing ground radioactivity. The dust emission model could reproduce the air concentration of 137 Cs in winter, whereas the summer air concentration was underestimated by 1 to 2 orders of magnitude. Re-suspension from forests at a constant rate of 10 −7 h −1 , multiplied by the green area fraction, could explain the air concentration of 137 Cs at Namie and its seasonal variation. The simulated contribution of dust resuspension to the air concentration was 0.7-0.9 in the cold season and 0.2-0.4 in the warm season at both sites; the remainder of the contribution was re-suspension from forest. The re-suspension mechanisms, especially through the forest ecosystems, remain unknown. This is the first study that provides a crude estimation of the long-term assessment of radiocesium re-suspension. Additional research activities should investigate the processes/mechanisms governing the re-suspension over the long term. This could be achieved through conducting additional field experiments and numerical simulations.

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“…Autoradiography analyses of contaminated rice husks and blades revealed that radioactive materials were not evenly distributed on rice tissues, and, therefore, part of the radiocesium was not likely absorbed from soil through root. In this particular case in 2013, adhesion of airborne radioactive materials on rice plants was the most probable cause of contamination (Matsunami et al 2016), though the source of the airborne radioactive materials was not identified (MAFF 2015a). In 2014, brown rice harvested in Minami-soma city did not exceed 100 Bq kg −1 (MAFF 2015b).…”

Section: Ricementioning

confidence: 98%

Contamination of agricultural products and soils with radiocesium derived from the accident at TEPCO Fukushima Daiichi Nuclear Power Station: monitoring, case studies and countermeasures

Yamaguchi

Taniyama

Kimura

et al. 2016

Soil Science and Plant Nutrition

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Five years have passed since the accident at Tokyo Electric Power Company Fukushima Daiichi Nuclear Power Station that was triggered by the Great East Japan Earthquake on 11 March 2011. Severe damage to agriculture and the environment is still of great concern in Japanese society. We review the contamination status of agricultural products and soils, decontamination efforts and countermeasures to reduce radiocesium concentration in soil and crops, as well as the responses of Japanese ministries. Since rice is an important staple food for Japanese, the impact of radiocesium on rice (Oryza sativa L.) and paddy fields has been extensively investigated since the accident, and, therefore, issues concerning rice receive considerable attention in this review.

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Evaluation of the cause of unexplained radiocaesium contamination of brown rice in Fukushima in 2013 using autoradiography and gamma-ray spectrometry

Cited by 22 publications

References 5 publications

Improved Radio-Cesium Detection Using Quantitative Real-Time Autoradiography

Improved Radio-Cesium Detection Using Quantitative Real-Time Autoradiography

Long-term assessment of airborne radiocesium after the Fukushima nuclear accident: re-suspension from bare soil and forest ecosystems

Contamination of agricultural products and soils with radiocesium derived from the accident at TEPCO Fukushima Daiichi Nuclear Power Station: monitoring, case studies and countermeasures

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