Abstract
There are 440 operational nuclear
reactors in the world, with approximately one-half situated along the
coastline. This includes
the Fukushima Dai-ichi Nuclear Power Plant
(FDNPP), which experienced multiple reactor meltdowns in March 2011
followed by
the release of radioactivity to the marine
environment. While surface inputs to the ocean via atmospheric
deposition and rivers
are usually well monitored after a nuclear
accident, no study has focused on subterranean pathways. During our
study period,
we found the highest cesium-137 (137Cs) levels (up to 23,000 Bq⋅m−3)
outside of the FDNPP site not in the ocean, rivers, or potable
groundwater, but in groundwater beneath sand beaches over
tens of kilometers away from the FDNPP.
Here, we present evidence of a previously unknown, ongoing source of
Fukushima-derived
137Cs to the coastal ocean. We postulate that these beach sands were contaminated in 2011 through wave- and tide-driven exchange
and sorption of highly radioactive Cs from seawater. Subsequent desorption of 137Cs and fluid exchange from the beach sands was quantified using naturally occurring radium isotopes. This estimated ocean
137Cs source (0.6 TBq⋅y−1) is of similar magnitude as the ongoing releases of 137Cs from the FDNPP site for 2013–2016, as well as the input of Fukushima-derived dissolved 137Cs
via rivers. Although this ongoing source is not at present a public
health issue for Japan, the release of Cs of this type
and scale needs to be considered in
nuclear power plant monitoring and scenarios involving future accidents.
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