This book tackles the question of how we can manage flood-related disaster risks, such as from typhoons, monsoons, and torrential rain, which have been intensified by climate change and have generated unprecedented floods, landslides and debris flows worldwide. It presents recent conceptual developments in disasters, risk and resilience, and surveys UN policies on environment and development as well as disaster management. Sustainable and resilient development requires an integrated approach and human empowerment. Japan provides a useful example of effective flood management and disaster recovery in its current strategies for river and basin integrated flood management. Very few English-language books present up-to-date Japanese experiences for students and professionals in the context of global trends, relevant to a time of climate change and with global application. * Outlines an integrated approach to flood risk management in the context of UN initiatives * Details Japanese good practice developed through culture and the needs of a changing society Integrated Flood Risk Management is ideal for professionals working for environmental agencies, hydrologists and engineers, as well as students of disaster management and water resources development.

This book presents a unique, interdisciplinary approach to disaster risk research, combining cutting-edge natural science and social science methodologies. Bringing together leading scientists, policy makers and practitioners from around the world, it presents the risks of global hazards such as volcanoes, seismic events, landslides, hurricanes, precipitation floods and space weather, and provides real-world hazard case studies from Latin America, the Caribbean, Africa, the Middle East, Asia and the Pacific region. Avoiding complex mathematics, the authors provide insight into topics such as the vulnerability of society, disaster risk reduction policy, relations between disaster policy and climate change, adaptation to hazards, and (re)insurance approaches to extreme events. This is a key resource for academic researchers and graduate students in a wide range of disciplines linked to hazard and risk studies, including geophysics, volcanology, hydrology, atmospheric science, geomorphology, oceanography and remote sensing, and for professionals and policy makers working in disaster prevention and mitigation.