Marino HIRAOKA, Naoki IMAMORI, Takeshi SHIMIZU, Koji ISHIDA, Kentaro YAMASHITA, Hiroyuki KAKIHARA. Effect of Fine Particle Content in Volcanic Ash on Slope Surface Runoff: Laboratory Rainfall Simulation Assuming a Slope with Thin Deposits of Ashfall. International Journal of Erosion Control Engineering. 2023. 16. 3. 36-48
Chen-Wei Chiu, Takashi Gomi, Marino Hiraoka, Katsushige Shiraki, Yuichi Onda, Bui Xian Dung. Evaluating changes in catchment-scale evapotranspiration after 50% strip-thinning in a headwater catchment. Hydrological Processes. 2022
Mitsuru Ohira, Takashi Gomi, Ayana Iwai, Marino Hiraoka, Yoshimi Uchiyama. Ecological resilience of physical plant-soil feedback to chronic deer herbivory: Slow, partial but functional recovery. Ecological Applications. 2022
Norihira Kumai, Takashi Kurogi, Shin’ichiro Shimomura, Keishi Saito, Yuya Aoyagi, Shun’ichi Niwa, Shusaku Shiiba, Shin’ichiro Hayashi, Marino Hiraoka, Yusuke Yamazaki, et al. Rapid revision of the hazard maps for debris flow and snowmelt-type mud flow caused by volcanic eruptions of unexpected magnitudes and from unexpected vents. 2021. 349-355
Bui D.X, Gomi T, Onda Y, Miyata S, Kato H, Sidle R.C, Hiraoka M. Paired-catchment analysis for evaluating the effects of forest thinning on hydrological processes in Japanese headwaters. 3rd International Conference on Forest and Water in a Changing Environment. 2012
Hiraoka M, Onda Y, Gomi T, Mizugaki S, Kato H, Miyata S. Controlling factors of infiltration capacity on various covered surfaces in a forested terrain. 3rd International Conference on Forest and Water in a Changing Environment. 2012
Laboratory rainfall simulation for surface runoff generation on tephra-covered slopes with different fine particle content
(EGU General Assembly 2022 2022)
Effect of differences in the amount of tephra-fall on discharge from a hillslope in the Arimura River basin, Sakurajima, Japan
(INTERPRAEVENT 2021)
Rapid revision of the hazard maps for debris flow and snowmelt-type mud flow caused by volcanic eruptions of unexpected magnitudes and from unexpected vents
(INTERPRAEVENT 2021)