Abstract
On 1 August 2012, a total of 25,800 Bq/kg-wet of radiocesium (134Cs = 9,800 Bq/kg-wet, 137Cs = 16,000 Bq/kg-wet) was detected in the muscle tissue of two fat greenlings (Hexagrammos otakii) caught approximately 20 km north of the Fukushima Dai-ichi Nuclear Power Plant (FNPP). To estimate the contamination level of this fish species off the coast of Fukushima, we measured the radiocesium concentration in the muscle tissue of individual fat greenlings in 2012 and 2013. Radiocesium concentration of fat greenlings caught in southern coastal waters from the FNPP was significantly higher than that of fat greenlings collected in other waters off the coast of Fukushima. However, fat greenlings with a radiocesium concentration greater than 10,000 Bq/kg-wet were not detected, not even from highly contaminated areas. In addition, data obtained from specimens collected off the coast of Fukushima from April to December 2012 suggested that the probability of catching fat greenlings with a concentration greater than 16,000 Bq/kg-wet of 137Cs was exceedingly low (less than 2.794 × 10−6). In contrast, highly contaminated fat greenlings were frequently caught within the FNPP port. The geometric mean of 137Cs was 55,400 Bq/kg-wet, as calculated from specimens obtained during December 2012 to May 2013. Our investigation suggests that fat greenlings with an extremely high concentration of radiocesium were contaminated within the FNPP port and then migrated offshore.
You have full access to this open access chapter, Download chapter PDF
Similar content being viewed by others
Keywords
1 Introduction
Immediately after the Fukushima Dai-ichi Nuclear Power Plant (FNPP) accident in March 2011, high concentrations of radiocesium (134Cs and 137Cs) were detected in several specimens of marine products off the coast of Fukushima (Ministry of Agriculture, Forestry and Fisheries 2014). In April 2011, a concentration of 12,500 Bq/kg-wet and 14,400 Bq/kg-wet of radiocesium was detected in whole-fish specimens of Japanese sand lance (Ammodytes personatus) collected approximately 30 km south of the FNPP. These extremely high concentrations in coastal pelagic fish species were caused from their direct exposure to highly contaminated seawater (Bailly et al. 2012; Oikawa et al. 2013). It is known that cesium absorbed by marine organisms is excreted by their potassium ion transport system during osmoregulation (Furukawa et al. 2012; Kaneko et al. 2013). Therefore, a rapid decrease in the radiocesium concentration of seawater would reduce contamination of marine organisms, especially for pelagic fish species (Buesseler 2012; Wada et al. 2013). Temporal trends in radiocesium concentration of marine organisms off the coast of Fukushima gradually declined after the summer of 2011 (Wada et al. 2013). Marine organisms with a radiocesium concentration greater than 10,000 Bq/kg-wet were not reported until 1.5 years after April 2011. On 1 August 2012, however, a total of 25,800 Bq/kg-wet of radiocesium (134Cs = 9,800 Bq/kg-wet; 137Cs = 16,000 Bq/kg-wet) was detected in the muscle tissue of two fat greenlings (Hexagrammos otakii) caught approximately 20 km north of the FNPP (Tokyo Electric Power Corporation 2012a). Although Tokyo Electric Power Corporation (2012b) had carried out an intensive investigation within the 20-km radius from the FNPP port, such a highly contaminated fish had not been caught until that point, and the reason for this extremely high level of contamination remains unclear.
Fat greenling is a coastal demersal fish species that lives by preying on benthic organisms. A previous tagging study suggested that the migration distance of fat greenling was restricted within an area of approximately 30-km radius (Fukushima Prefectural Fisheries Experimental Station FPFES 1974). It is assumed that in highly contaminated areas, as is the zone within and around the FNPP port, sedentary demersal fish species continuously receive radiocesium through the benthic food web more constantly than migratory demersal fish species such as Japanese flounder (see Chap. 11) and Pacific cod (see Chap. 10). In this section, we measured radiocesium concentration in the muscle tissue of individual fat greenlings caught off the coast of Fukushima to estimate the contamination level in this fish species. In addition, we attempted to calculate the probability that 137Cs concentration exceeds 16,000 Bq/kg-wet in fat greenlings collected off the coast of Fukushima from April 2012 to March 2013, using our original data in combination with datasets published by the Ministry of Agriculture, Forestry and Fisheries (MAFF) and TEPCO (2014).
2 Radiocesium Contamination of Fat Greenlings off the Coast of Fukushima
From May 2012 to March 2013, we collected 236 fat greenlings in northern (approximately 50 km north of the FNPP) and southern (approximately 40 km south of the FNPP) waters (Fig. 12.1). Radiocesium concentration was measured as described by Shigenobu et al. (2014). Fat greenlings caught from the northern waters had a relatively lower radiocesium concentration than those collected from the southern waters (Table. 12.1). In the southern waters, the level of contamination was significantly higher (p < 0.001) in coastal waters, at depth less than 30 m (geometric mean, 128 Bq/kg-wet) than in offshore waters, at depth greater than 50 m (geometric mean, 28.4 Bq/kg-wet). The highest radiocesium concentration detected was 1,070 Bq/kg-wet in a fat greenling collected from the southern coastal waters on 20 May 2012. In this study, none of the fish specimens had a radiocesium concentration higher than 10,000 Bq/kg-wet weight.
Figure 12.2 shows the time-series trend of radiocesium concentration of fat greenlings caught within the FNPP port and off the coast of Fukushima from May 2011 to May 2013, using our original data and datasets published from MAFF and TEPCO. Radiocesium concentration of fat greenlings caught off the coast of Fukushima gradually declined over time. Except for the datasets of fat greenlings collected within the FNPP port, radiocesium concentration exceeded the Japanese threshold (100 Bq/kg-wet) in 76.3 % and 41.2 % of specimens caught off the coast of Fukushima in 2011 and 2012, respectively. In particular, geometric means were 209 Bq/kg-wet in specimens collected from April to December 2011 and 77.2 Bq/kg-wet in those collected from April to December 2012.
Previous studies have reported that radiocesium concentration in marine organisms (Wada et al. 2013) and sediments (Ambe et al. 2014) within the southern coastal area of FNPP was comparatively higher than those in other areas. However, according to our data and published datasets from MAFF and TEPCO, fat greenlings with a radiocesium concentration greater than 10,000 Bq/kg-wet were not identified, not even in specimens collected from highly contaminated areas. This circumstantial evidence suggests a low probability of catching extremely highly contaminated fat greenling off the coast of Fukushima. Our field investigation and laboratory-rearing experiments of a benthic polychaete in highly contaminated sediment suggests that radiocesium intake from contaminated sediments is limited for benthic organisms and demersal fish species (see Chap. 7). Progressive simulation analysis of the contamination mechanism in fat greenling off the coast of Fukushima is presented in Chap. 13.
3 Site of Contamination of the Highly Contaminated Fat Greenling
Data of 137Cs concentration in fat greenling specimens collected off the coast of Fukushima from April to December 2012 were log-transformed. A normal distribution curve of log-transformed values was used to calculate the probability of catching fat greenlings with a137Cs concentration greater than 16,000 Bq/kg-wet (log-transformed value of 4.204) as shown in Fig. 12.3. Values below the detection limit of 137Cs were excluded from this analysis to obtain a more conservative estimate. Normality of the log-transformed values from the combined datasets was confirmed. Arithmetic mean ± standard deviation of log-transformed 137Cs concentration was 1.676 ± 0.5567. The calculated probability of catching fat greenlings with a concentration greater than 16,000 Bq/kg-wet of 137Cs was below 2.794 × 10−6. This very low value strongly suggests that fat greenlings off the coast of Fukushima from April to December 2012 did not include any highly contaminated individuals.
In contrast, the level of radiocesium contamination in fat greenlings caught in the FNPP port from December 2012 to May 2013 was extremely high. The geometric mean was 55,400 Bq/kg-wet and ranged from 1,030 to 740,000 Bq/kg-wet. Kanda (2013) reported that the average values of 137Cs concentration in seawater samples collected from the intake canal area of Units 1–4 of the FNPP from June to August 2011 ranged between 305 and 1,650 Bq/l. Concentration ratio (CR) of the 25,800 Bq/kg-wet (137Cs of 16,000 Bq/kg-wet) fish specimens to the seawater from the intake canal area of Units 1–4 was between 9.70 and 52.5 for the period of June to August 2011. These results were consistent with previous findings that CR of 137Cs between demersal fish species and seawater around Japan ranged from 15 to 54 (Tagami and Uchida 2013). The results also indicated that the contamination level within the FNPP was much higher immediately after the FNPP accident. Accordingly, for a period of several months after the FNPP accident, the radiocesium contamination level of fat greenlings within the FNPP port was never less than 25,800 Bq/kg-wet. Although the site where the extremely contaminated fat greenlings were caught was 20-km away from FNPP, this distance is within the possible migration distance for this species (FPFES 1974). Therefore, it is assumed that the extremely contaminated fat greenlings had been exposed to highly contaminated seawater over a certain period of time after the accident within or near the FNPP port before they migrated offshore.
References
Ambe D, Kaeriyama H, Shigenobu Y, Fujimoto K, Ono T, Sawada H, Saito H, Miki S, Setou T, Morita T, Watanabe T (2014) Five-minute resolved spatial distribution of radiocesium in sea sediment derived from the Fukushima Dai-ichi Nuclear Power Plant. J Environ Radioact 138:264–275
Bailly du Bois P, Laguionie P, Korsakissok I, Didier D, Fiévet B (2012) Estimation of marine source-term following Fukushima Daiichi accident. J Environ Radioact 114:2–9
Buesseler KO (2012) Fishing for answers off Fukushima. Science 338:480–482
Fukushima Prefectural Fisheries Experimental Station (FPFES) (1974) Research report of resource ecology and fisheries for selected three rockfish species (Hexagrammos otakii, Sebastes inermis and Sebastes vulpes) in North Pacific waters of Japan (in Japanese)
Furukawa F, Watanabe S, Kaneko T (2012) Excretion of cesium and rubidium via the branchial potassium-transporting pathway in Mozambique tilapia. Fish Sci 78:597–602
Kanda J (2013) Continuing 137Cs release to the sea from the Fukushima Daiichi Nuclear Power Plant through 2012. Biogeosciences 10:6107–6113
Kaneko T, Furukawa F, Watanabe S (2013) Excretion of cesium through potassium transport pathway in the gills of a marine teleost. In: Nakanishi TM, Tanoi K (eds) Agricultural implications of the Fukushima nuclear accident. Springer Japan, Tokyo, pp 105–118
Ministry of Agriculture, Forestry and Fisheries (2014) http://www.jfa.maff.go.jp/e/inspection/index.html. Accessed 12 June 2014
Oikawa S, Takata H, Watabe T, Misonoo J, Kusakabe M (2013) Distribution of the Fukushima-derived radionuclides in seawater in the Pacific off the coast of Miyagi, Fukushima, and Ibaraki Prefectures, Japan. Biogeosciences 10:5031–5047
Shigenobu Y, Fujimoto K, Ambe D, Kaeriyama H, Ono T, Morinaga K, Nakata K, Morita T, Watanabe T (2014) Radiocesium contamination of greenlings (Hexagrammos otakii) off the coast of Fukushima. Sci Rep 4. doi:10.1038/srep06851
Tagami K, Uchida S (2013) Marine and freshwater concentration ratios (CRwo-water): review of Japanese data. J Environ Radioact 126:420–436
Tokyo Electric Power Corporation (2012a) Result of radioactive nuclide analysis (fat greenling). http://photo.tepco.co.jp/date/2012/201208-j/120821-01j.html. Accessed 12 June 2014 (in Japanese)
Tokyo Electric Power Corporation (2012b) Handouts at press conference | Archives. http://www.tepco.co.jp/en/nu/fukushima-np/handouts/indexold-e.html. Accessed 12 June 2014
Wada T, Nemoto Y, Shimamura S, Fujita T, Mizuno T, Sohtome T, Kamiyama K, Morita T, Igarashi S (2013) Effects of the nuclear disaster on marine products in Fukushima. J Environ Radioact 124:246–254
Acknowledgments
This section is based on the article entitled “Radiocesium contamination of greenlings (Hexagrammos otakii) off the coast of Fukushima” published in the open access journal of Scientific Reports (doi: 10.1038/srep06851). The authors wish to thank all the fishery workers in Fukushima Prefecture who collected the greenlings for this study. We also thank all the members of our research group for their assistance with specimen preparation. This study was supported by the Fisheries Agency, the Ministry of Agriculture, and the Forestry and Fisheries of Japan.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Open Access This chapter is distributed under the terms of the Creative Commons Attribution Noncommercial License, which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
Copyright information
© 2015 The Author(s)
About this chapter
Cite this chapter
Shigenobu, Y. et al. (2015). Evaluating the Probability of Catching Fat Greenlings (Hexagrammos otakii) Highly Contaminated with Radiocesium off the Coast of Fukushima. In: Nakata, K., Sugisaki, H. (eds) Impacts of the Fukushima Nuclear Accident on Fish and Fishing Grounds. Springer, Tokyo. https://doi.org/10.1007/978-4-431-55537-7_12
Download citation
DOI: https://doi.org/10.1007/978-4-431-55537-7_12
Publisher Name: Springer, Tokyo
Print ISBN: 978-4-431-55536-0
Online ISBN: 978-4-431-55537-7
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)