The Impact and fate of fallout radionuclides by Fukushima Daiichi Nuclear Power Plant Accident in hydrological systems and post-accident environmental recovery

福島第一原子力発電所の事故に由来する放射性核種の陸域水系を介した動態と事故後の環境回復

恩田 裕一*; 谷口 圭輔*; 吉村 和也  ; 脇山 義史*

Onda, Yuichi*; Taniguchi, Keisuke*; Yoshimura, Kazuya; Wakiyama, Yoshifumi*

The Fukushima Daiichi Nuclear Power Plant (FDNPP) accident released the largest quantity of radiocaesium into the terrestrial environment since the Chernobyl nuclear accident. The surrounding land received 2.7 PBq of radiocaesium to forests, agricultural lands, grasslands, and urban areas, from which the radionuclides migrated through soil and waterways. In this presentation, the deposition and distribution of radionuclides, especially radiocaesium, in the terrestrial environment as a result of the FDNPP accident are discussed based on the past 10 years' intensive dataset. Anthropogenic activities such as rice and vegetable cultivation and residential activities in the upstream area have led to a rapid decline in the activity concertation of Cs of suspended sediment (SS) transport in the river network, and these declines directly control the dissolved Cs concentration in the river water. We outline the environmental and anthropogenic factors that in uenced the subsequent transport and impacts of radionuclides through the environment. The environmental aftermath of the accident at Fukushima is compared to Chernobyl, and the relatively rapid remediation of the Fukushima region relative to the region surrounding Chernobyl will be explained.