Relationship between the activity concentration of 137Cs in the growing shoots of Quercus serrata and soil 137Cs, exchangeable cations, and pH in Fukushima, Japan

• Published in: Journal of environmental radioactivity Vol. 220-221; p. 106276
• Main Authors: Kanasashi, Tsutomu, Miura, Satoru, Hirai, Keizo, Nagakura, Junko, Itô, Hiroki
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.09.2020
• Subjects: deciduous broadleaved forest; exchangeable cesium 137; exchangeable potassium; Fukushima Dai-ichi Nuclear Power Plant; exchangeable potassium; exchangeable cesium 137; deciduous broadleaved forest; Fukushima Dai-ichi Nuclear Power Plant
• ISSN: 0265-931X; 1879-1700
• DOI: 10.1016/j.jenvrad.2020.106276

Incorporation of radiocesium by plants via root uptake appears to be affected by some of the exchangeable cations in the soil and/or pH of the soil. However, few studies have examined the relationship between 137Cs in trees and soil properties in the area surrounding the Fukushima Dai-ichi Nuclear Power Plant (FDNPP) after the accident in March 2011. To elucidate the relationships between the root uptake of 137Cs by deciduous broadleaved trees and soil properties, we measured the activity concentration of 137Cs in the growing shoots of coppiced konara oak (Quercus serrata) grown after the FDNPP accident and the amounts of total 137Cs; exchangeable (ex-) 137Cs, ex-K, ex-Mg, and ex-Ca; and pH (H2O) in soils collected from 34 forest stands in Fukushima between December 2016 and May 2017. Ex-137Cs showed a positive linear relationship with the activity concentration of 137Cs in the growing konara oak shoots, whereas ln-transformed ex-K, ex-Mg, ex-Ca, and pH (H2O) showed negative linear relationships with ln-transformed 137Cs activity concentrations in the growing shoots. However, only ex-137Cs and ex-K were identified as significant factors determining the activity concentration of 137Cs in konara oak according to multiple regression methods and a model selection using Akaike information criterion; ex-K had a stronger influence on the activity concentration of 137Cs in konara oak than ex-137Cs. In the present study, we demonstrated that soil ex-K negatively and non-linearly alters 137Cs activity concentration in deciduous broadleaved trees. We also noted that the relationship between 137Cs in deciduous broadleaved trees and soil ex-K in forests without K fertilization was similar to the relationships between 137Cs in other plants and ex-K in K-fertilized lands reported in previous studies of the FDNPP accident. •The activity concentration of 137Cs in the shoots of konara oak was measured.•The factors explaining the 137Cs activity concentration were examined.•Exchangeable (ex-) 137Cs and ex-K in the soil were significant explanatory variables.•Total 137Cs, ex-Mg, ex-Ca, and pH (H2O) were found to be nonsignificant factors.•Our findings should help to seek stands producing konara oak of low 137Cs.