Haggerty, R. 2011. Potassium iodide and Geiger counter sales spike after Japan disaster. Chicago Tribune, March 15. Available at articles.chicagotribune.com/2011-03-15/news/ct-met-local-iodide-sales-20110315_1_potassium-iodide-radiation-geiger.

Hamada, N., and H. Ogino. 2012. Food safety regulations: What we learned from the Fukushima nuclear accident. Journal of Environmental Radioactivity 111: 83-99.

Hamada, N., H. Ogino, and Y. Fujimichi. 2012. Safety regulations of food and water implemented in the first year following the Fukushima nuclear accident. Journal of Radiation Research 53(5): 641-671.

Harbitz, C. B. 1991. Model simulations of tsunami generated by the Storegga Slide. Institute of Mathematics, University of Oslo Preprint Series No. 5.

Hardie, S. M. L., and I. G. McKinley. 2013. Fukushima remediation: Status and overview of future plans. Journal of Environmental Radioactivity 133: 75-85.

Hasegawa, R. 2013. Disaster Evacuation from Japan’s 2011 Tsunami Disaster and the Fukushima Nuclear Accident. Study No. 05/13. Paris: Institut du Développement Durable et des Relations Internationales. Available at http://www.iddri.org/Publications/Collections/Analyses/STUDY0513_RH_DEVAST%20report.pdf.

Hayano, R. S., and R. Adachi. 2013. Estimation of the total population moving into and out of the 20 km evacuation zone during the Fukushima NPP accident as calculated using “Auto-GPS” mobile phone data. Proceedings of the Japan Academy, Series B: Physical and Biological Sciences 89(5): 196-199.

Hayashi, Y. 2011. Japan officials failed to hand out radiation pills in quake’s aftermath. Wall Street Journal, September 29. Available at http://online.wsj.com/news/articles/SB10001424052970204010604576596321581004368.

HERP (Headquarters for Earthquake Research Promotion), Earthquake Research Committee. 2002. Long-term evaluation of seismic activity from offshore Sanriku to offshore Bousou (in Japanese). Available at http://www.jishin.go.jp/main/chousa/kaikou_pdf/sanriku_boso.pdf.

HERP, Earthquake Research Committee. 2005. National Seismic Hazard Maps for Japan (2005)–March 23. Tokyo: Headquarters for Earthquake Research Promotion, Government of Japan. Available at jishin.go.jp/main/chousa/06mar_yosoku-e/NationalSeismicHazardMaps.pdf.

Heezen, B., and M. Ewing. 1952. Turbidity currents and submarine slumps, and the 1929 Grand Banks Earthquake. American Journal of Science 250: 849-873.

Helm, D. 2006. Regulatory reform, capture, and the regulatory burden. Oxford Review of Economic Policy 22(2): 169-185.

Helton, D., J. Chang, N. Siu, K. Coyne, and M. Leonard. 2010. The role of severe accident management in the advancement of level 2 PRA modeling techniques. In Implementation of Severe Accident Management Measures, ISAMM 2009: Workshop Proceedings. NEA/CSNI/R(2010)10/PART1. Issy-les-Moulineaux, France: OECD Nuclear Energy Agency. Available at http://www.oecd-nea.org/html/nsd/docs/2010/csni-r2010-10-vol1.pdf.

Hogberg, L. 2013. Root causes and impacts of severe accidents at large nuclear plants. AMBIO 42: 267-284.

Hollnagel, E., D. D. Woods, and N. Leveson. 2006. Resilience Engineering: Concepts and Precepts. Burlington, VT: Ashgate.

Horiuchi, A., and K. Shimizu. 2001. Did amakudari undermine the effectiveness of regulator monitoring in Japan? Journal of Banking and Finance 25: 573-596.

Hosono, H., Y. Kumagai, and T. Sekizaki. 2013. Development of an information package of radiation risk in beef after the Fukushima Daiichi Nuclear Power Plant accident. Pp. 187-204 in Agricultural Implications of the Fukushima Nuclear Accident, T. M. Nakanishi and K. Tanoi, eds. Tokyo: Springer Japan.



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