Seasonal dynamics of the activities of dissolved 137Cs and the 137Cs of fish in a shallow, hypereutrophic lake: Links to bottom-water oxygen concentrations

Remobilization of radiocesium from anoxic sediments can be an important mechanism responsible for long-term contaminations of lakes. However, it is unclear whether such remobilization occurs in shallow lakes, where concentrations of dissolved oxygen in the hypolimnion (bottom DO) change temporally i...

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Bibliographic Details
Published in:The Science of the total environment 2021-03, Vol.761, p.143257, Article 143257
Main Authors: Matsuzaki, Shin-ichiro S., Tanaka, Atsushi, Kohzu, Ayato, Suzuki, Kenta, Komatsu, Kazuhiro, Shinohara, Ryuichiro, Nakagawa, Megumi, Nohara, Seiichi, Ueno, Ryuhei, Satake, Kiyoshi, Hayashi, Seiji
Format: Article
Language:English
Subjects:
Causality
Hypoxia
Plankivorous fish
Radiocesium
Remobilization
Shallow lakes
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Summary:Remobilization of radiocesium from anoxic sediments can be an important mechanism responsible for long-term contaminations of lakes. However, it is unclear whether such remobilization occurs in shallow lakes, where concentrations of dissolved oxygen in the hypolimnion (bottom DO) change temporally in response to meteorological conditions, and whether remobilized radiocesium influences the activity in fish. We examined the seasonal dynamics of the activities of dissolved 137Cs and 137Cs in fish (pond smelt and crucian carp) from Lake Kasumigaura, a shallow, hypereutrophic lake, five years after the Fukushima Daiichi Nuclear Power Plant accident. The activities of both dissolved 137Cs and 137Cs in fish declined during that time, but the declines showed a clear seasonal pattern that included a summer peak of 137Cs activity. The activity of dissolved 137Cs increased when the bottom DO concentration decreased, and a nonlinear causality test revealed significant causal forcing of dissolved 137Cs activity by bottom DO. The fact that NH4-N concentrations in bottom waters were higher in the summer suggested that remobilization of 137Cs from sediments could result from highly selective ion-exchange with NH4-N. Despite the shallow depth of Lake Kasumigaura, winds had little influence bottom DO concentrations or dissolved 137Cs activities. The fact that seasonal means of 137Cs activities in pond smelt and crucian carp were positively correlated with the seasonal means of dissolved 137Cs activities suggested that remobilized 137Cs may have influenced the seasonal dynamics of radiocesium in fish through food-chain transfer, but higher feeding rates in warm water could may have also contributed to the seasonal dynamics of 137Cs activity in fish. Our findings suggest that in shallow lakes, intermittent but repeated hypoxic events may enhance remobilization of radiocesium from sediments, and remobilized radiocesium may contributed to long-term retention of radiocesium in aquatic organisms. [Display omitted] •Intermittent hypoxic events may enhance 137Cs remobilization in shallow lakes.•We studied a lake where DO changes in response to meteorological conditions.•Bottom dissolved oxygen concentrations determined dissolved 137Cs dynamics.•Dissolved 137Cs and 137Cs in fish showed a seasonal pattern with a summer peak.•137Cs remobilized from sediments influenced seasonal changes of the 137Cs in fish.
ISSN:0048-9697
DOI:10.1016/j.scitotenv.2020.143257