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Introduction: For investigating the potential contaminations from the applications of nuclear energy and techniques, the radioactivity of both natural and artificial radionuclides in foods in China were surveyed during the period of 2012–2019, and the public’s exposure to radiation due to the consumption of these foods were estimated.
Methods: The surveillance was conducted using the National Monitoring Network for Radioactivity in Food from 2012 to 2019. Food samples were collected, and radioactivity was determined using HPGe gamma-ray spectrometer by local institutes.
Results: From 2012 to 2019, a total of 6,129 food samples including those collected around nuclear power plants and uranium mines were collected and analyzed, and no samples with activity concentrations of 238U, 228Ra, 226Ra, 40K, or 137Cs were found to exceed Chinese national standards. Among the 7 types of surveyed foods, the natural radionuclide levels of tea and seaweed were relatively high, and the activity concentration of 137Cs in milk and dairy products was higher than that of other foods.
Conclusions and Implications for Public Health Practice: The results of all the surveyed samples were within the scope of Chinese national standards. Different regions should improve monitoring systems, establish corresponding food emergency warning systems, and prepare strategies and measures for handling public health accidents.
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With the rapid development and applications of nuclear energy and techniques, the potential radioactive contamination of foods has attracted great public concern. In 2012, the National Monitoring Network for Radioactivity in Food was established by the National Health Commission of the People’s Republic of China, and the National Institute for Radiological Protection (NIRP) of China CDC was assigned to operate, maintain, and improve the network. From 2012 to 2019, with the help of provincial institutes, a total of 6,129 food samples that were categorized into 7 types of common foods in China were collected, and both the natural and anthropogenic originating radionuclides in the samples were analyzed.
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According to the notifications, relevant technical documents, and operating manuals issued by the National Health Commission of the People’s Republic of China, the relevant provincial monitoring institutes carried out food sample collection, preparation, processing, and radionuclide measurement every year. The technical principles for the collection and preservation of food samples were also carried out in accordance with the relevant standards (1).
Seven categories of foods including milk and dairy products, vegetables, tea, cereals and grains, livestock and poultry meat, fish and seafood, and seaweed were sampled. Foods were selected based on the main diet reported in relevant specification for health survey of residents (2). Other considerations such as potential risk for concentrating radionuclides and potential sentinels for specific types of agriculture or aquaculture (e.g. tea) were also considered. All foods were produced or sold locally.
Vegetables were collected in the open vegetable gardens in suburban areas. Fish and seafood as well as seaweed were collected or supplied by assistants of local fisheries. Samples were collected within a radius of 30 kilometers around nuclear power plants and uranium mines. Based on the radionuclide being studied and the laboratory conditions, the processing methods of the food samples could be prepared as fresh, ash, or dry samples before measuring. The dry-fresh ratio or ash-fresh ratio was recorded, and the results was expressed in fresh weight. The radionuclide activity concentration in the sample should be converted to the date of sampling in order to easily compare the results obtained by different processing methods.
All measurements were performed using low background gamma spectroscopy with standard coaxial HPGe detectors housed in Pb shielding with Cu, Cd, and/or plastic linings. Methods for analyzing radionuclides and the risk assessment of radioactive contamination in foods were based primarily on national standards (3-5). Measurements were performed in multiple laboratories with the typical relative efficiency of detection system ranging from 30% to 66% [relative to a 3"×3" NaI(Tl) crystal], and the typical energy resolution ranging from 1.60 keV to 2.28 keV at 1,332 keV (60Co).
The nuclear data in Monograph 5 of the Bureau International des Poids et Mesures (6) were recommended to be used in the analysis. To determine the background gamma ray spectrum due to naturally occurring radionuclides in the environment around the detector, a similar empty container was usually counted in the same geometry as the samples. Peak detection efficiencies were calculated automatically by computer systems interfaced with multichannel analyzers. The absolute efficiency calibration of the detectors was determined using standard samples from the National Institute of Metrology (NIM) in Beijing, China. All internal and certified reference materials were prepared in the same containers as samples. Density correction was also performed by calculation software for samples where the density and matrix material were different from the standard. The expanded uncertainty μtotal (K=2) of the activity concentration was estimated by using the equation from the standard (5).
To ensure the accurate and reliable measurements, workloads for quality assurance were strictly implemented. All the instruments involved in the measurements were verified by the NIM, and all laboratories participated in the annual inter-comparison exercises organized by NIRP. NIRP was responsible for drafting the annual monitoring manual, training, and on-site guidance.
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From 2012 to 2019, a total of 6,129 food samples were collected and measured. Table 1 lists the mean values of radionuclides in different types of foods during the period of 2012–2019. Among all types of foods, tea had the highest mean concentrations of 238U and 228Ra at 2.88 Bq/kg and 1.75 Bq/kg, respectively, milk and dairy products were found with the highest mean concentrations of 226Ra and 137Cs at 1.13 Bq/kg and 0.79 Bq/kg, respectively, and seaweed had the highest concentration of 40K at 371 Bq/kg.
Food No. of samples 238U
mean (95%CI)228Ra
mean (95%CI)226Ra
mean (95%CI)40K
mean (95%CI)137Cs
mean (95%CI)Milk and dairy products 646 2.15 (1.95−2.35) 0.57 (0.51−0.63) 1.13 (1.00−1.26) 228.00 (218.90−237.10) 0.79 (0.64−0.94) Vegetables 2,203 0.55 (0.51−0.59) 0.29 (0.27−0.31) 0.39 (0.29−0.49) 102.00 (98.30−105.70) 0.08 (0.07−0.09) Tea 430 2.88 (2.49−3.27) 1.75 (1.52−1.98) 1.09 (0.98−1.20) 305.00 (282.60−327.40) 0.33 (0.29−0.37) Cereal 1,264 1.76 (1.63−1.89) 0.50 (0.46−0.54) 0.62 (0.57−0.67) 105.00 (98.00−112.00) 0.20 (0.17−0.23) Livestock and poultry meat 653 0.94 (0.77−1.11) 0.43 (0.36−0.50) 0.46 (0.40−0.52) 96.90 (82.63−111.17) 0.23 (0.18−0.28) Fish and seafood 802 0.95 (0.84−1.06) 0.94 (0.82−1.06) 0.55 (0.47−0.63) 67.50 (63.97−71.03) 0.04 (0.037−0.042) Seaweed 131 2.47 (1.56−3.38) 1.11 (0.90−1.32) 0.56 (0.44−0.68) 371.00 (265.68−476.32) 0.03 (0.027−0.033) Table 1. Mean concentration (Bq/kg, wet weight) of radionuclides in different foods of China, 2012−2019.
Table 2 shows the mean activity concentrations of different radionuclides in samples around the nuclear power plants during 2012–2019. Among the samples, the mean activity concentrations of 238U and 40K in seaweed were the highest, the mean activity concentrations of 228Ra and 226Ra in tea were the highest, and high activity concentration of 137Cs was found both in milk and tea.
Food No. of samples 238U
mean (95%CI)228Ra
mean (95%CI)226Ra
mean (95%CI)40K
mean (95%CI)137Cs
mean (95%CI)Milk and dairy products 202 1.09 (0.91−1.27) 0.30 (0.27−0.33) 1.20 (0.78−1.62) 185.00 (169.00−201.00) 0.32 (0.27−0.37) Vegetables 1,023 0.34(0.31−0.37) 0.31 (0.28−0.34) 0.23 (0.20−0.26) 99.80 (96.24−103.36) 0.05 (0.04−0.06) Tea 90 2.07(1.50−2.64) 2.67 (1.98−3.36) 1.51 (1.19−1.83) 335.00 (282.11−387.89) 0.32 (0.25−0.39) Cereal 336 0.95(0.85−1.05) 0.60 (0.50−0.70) 0.40 (0.36−0.44) 92.90 (81.78−104.02) 0.09 (0.08−0.10) Livestock and poultry meat 369 0.63 (0.42−0.84) 0.31 (0.24−0.38) 0.34 (0.25−0.43) 68.30 (64.75−71.85) 0.06 (0.04−0.08) Fish and seafood 768 0.96 (0.85−1.07) 0.95 (0.82−1.08) 0.55 (0.47−0.63) 67.50(63.85−71.15) 0.04 (0.038−0.042) Seaweed 109 2.49 (1.47−3.51) 1.07 (0.84−1.30) 0.57 (0.43−0.71) 382.00 (257.90−506.09) 0.03 (0.026−0.034) Table 2. Mean concentration (Bq/kg, wet weight) of radionuclides around nuclear power plants in China, 2012−2019.
Table 3 shows the mean activity concentrations in samples around the uranium mines during 2012–2019. The mean activity concentrations of 238U, 40K, and 226Ra in tea were the highest, the mean activity concentration of 228Ra in seaweed was the highest, and the mean activity concentration of 137Cs in milk and dairy products was the highest.
Food No. of samples 238U
mean (95%CI)228Ra
mean (95%CI)226Ra
mean (95%CI)40K
mean (95%CI)137Cs
mean (95%CI)Milk and dairy products 250 2.99 (2.60−3.38) 0.55 (0.49−0.61) 1.22 (1.00−1.44) 268.00 (253.74−282.26) 1.18 (0.87−1.49) Vegetables 590 0.99 (0.86−1.12) 0.25 (0.22−0.28) 0.76 (0.39−1.13) 94.60 (85.08−104.12) 0.17 (0.13−0.21) Tea 156 4.18 (3.37−4.99) 2.22 (1.80−2.64) 1.30 (1.10−1.50) 405.00 (369.38−440.62) 0.46 (0.38−0.54) Cereal 447 1.88 (1.62−2.14) 0.45 (0.39−0.51) 0.70 (0.60−0.80) 143.00 (126.68−159.32) 0.40 (0.33−0.47) Livestock and poultry meat 280 1.39 (1.09−1.67) 0.65 (0.50−0.80) 0.60 (0.53−0.67) 137.00 (104.09−169.91) 0.47 (0.36−0.58) Fish and seafood 27 0.58 (0.38−0.78) 0.65 (0.30−1.00) 0.58 (0.36−0.80) 71.40 (59.00−83.81) 0.05 (0.04−0.06) Seaweed 2 1.91 2.38 (1.26−3.50) 0.78 (0.41−1.15) 15.0 − Note: “–” means not detected. Table 3. Mean concentration (Bq/kg, wet weight) of radionuclides around the uranium mines in China, 2012−2019.
In 2 independent sample t-tests that were performed on data in Tables 2–3, differences in the radionuclide contents of fish and seafood were found between the two regions that were not statistically significant (α=0.05), and the content of 226Ra in milk and dairy products, 40K in vegetables, and 226Ra and 228Ra in tea between the two regions were also not statistically significant (α=0.05). However, the differences of radionuclides in the remaining foods between the 2 regions were statistically significant (α=0.05).
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Assessing radionuclide contamination in food is an important consideration for food safety as understanding the levels of radionuclide content in food and their ranges are helpful for quantifying the risk of public exposure. This study presented the latest and most comprehensive national survey results in food from 2012 to 2019, which can be used as baseline data for food safety risk assessments. The radioactive survey also covered food around nuclear power plants and uranium mines, which is conducive to improving the ability and level of nuclear accident emergency monitoring.
Based on survey results and combining the food consumption data (7) and the dose coefficients given by ICPR (8), the annual committed effective dose of 238U, 228Ra, 226Ra, 40K, and 137Cs from ingestion were estimated to be 20.03, 110.24, 54.70, 242.72, and 0.84 μSv, respectively. The results were all below the limit values of the national standard. National monitoring results showed relatively higher levels of natural radionuclides in tea and seaweed than in other types of foods. This suggested that more attention should be paid to analyze the radioactivity levels in these foods, and the radiation doses due to the public consumption of these foods.
Cesium is an artificial radionuclide that researchers are usually concerned about. Similar to international studies, milk remains a suitable sentinel for artificial radioactivity Cesium in Chinese terrestrial agriculture (9-10). The results of milk and dairy products can serve as an indicator of artificial radionuclides like 137Cs, which is of great significance in emergency food monitoring. The contents of 137Cs in milk and tea in this survey were far lower than the national limit concentration standard (11) and complied with the detected activity concentrations in foods with the Codex Alimentarius guideline levels (12). This indicated they did not represent a radiological risk.
Data from nuclear power plants and uranium mines showed that the measured radionuclide concentrations were below national standards and did not pose a threat to public health. The differences in the radionuclides content of fish and seafood between the two places were not statistically significant, possibly due to the fluidity of the water and the wide range of activities of fish and seafood. The numbers of some food samples were small in these areas, and an appropriate increase in sample size will be considered in future surveillance.
Radionuclides in foods are an invaluable source of data for undertaking risk assessments for public health. The result of such surveys should be promptly released to the public, so that the public can understand the status of food safety. The National Monitoring Network for Radioactivity in Food can continue to provide a scientific basis for the health administrative department or disease control and prevention’s decision making and improve early warning and control capabilities.
Acknowledgments: This work was supported by the National Health Commission. The authors would like to thank each local CDC and the prevention and treatment institution for occupational diseases for their hard work and reporting data.
Conflict of interest: No conflicts of interest were reported.
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