Ken Nakamura, Hidetaka Katou, Katsuhiro Suzuki, Toshimitsu Honma. Air-filled porosity as a key to reducing dissolved arsenic and cadmium concentrations in paddy soils. Journal of Environmental Quality. 2018. 47. 3. 496-503
Zhuo Guan, Xiang-Yu Tang, Taku Nishimura, Hidetaka Katou, Hui-Yun Liu, Jing Qing. Surfactant-enhanced flushing enhances colloid transport and alters macroporosity in diesel-contaminated soil. Journal of Environmental Sciences (China). 2018. 64. 197-206
Dissolved ferrous iron concentration optimal for simultaneous reduction of arsenic and cadmium concentrations in rice grain.
(In P. Bhattacharya et al. (ed.) Arsenic Research and Global Sustainability: Proceedings of the 6th International Congress on Arsenic in the Environment (As2016). CRC Press, Boca Raton, U.S.A. p. 287-288. 2016)
Air-filled prosity controls on dissolved arsenic and cadmium concentrations in paddy soils.
(In J.C. Ng et al. (ed.) Understanding the Geological and Medical Interface of Arsenic: As 2012. CRC/Balkema, Leiden, The Netherlands. p. 110-111. 2012)
Anion adsorption and transport in an unsaturated High-humic Andosol.
(In R. J. Gilkes, and N. Prakongkep (ed.) Proceedings of the 19th World Congress of Soil Science, Brisbane, Australia. Symposium 2.4.2. Soil minerals and contaminants, p. 11-14. 2010)
Colloid-facilitated and dissolved cadmium transport through layered soil columns with subsurface cracks.
(In Y. Zhu et al. (ed.) Biogeochemistry of Trace Elements: Environmental Protection, Remediation and Human Health, The 9th International Conference on Biogeochemistry of Trace Elements. Tsinghua Univ. Press, Beijing.p. 978-979. 2007)
Transport of suspended particles through macropores in layered soils.
(In L. W. de Jonge et al. (ed.) Colloids and Colloid-Facilitated Transport of Contaminants in Soils and Sediments, International Workshop. DIAS Report Plant Production No. 80. Danish Institute of Agricultural Sciences, Tjele, Denmark. p. 157-164 2002)
