Abstract
Early warning systems (EWSs) are well recognized as a critical tool for reducing losses from earthquakes, floods, droughts, storms, and other hazards. An overview of the current state of EWS is presented here for ongoing and rapid/sudden-onset and slow-onset (or “creeping”) hazards. This chapter also includes an overview of the Hyogo Framework for Action (HFA) reports on national progress in developing effective EWS. Even though many such systems are operational worldwide, there are still several high-risk countries that remain uncovered and that could greatly benefit from such systems. From the HFA reports it appears that the most frequently reported impediment to EWS development is lack of funding; inadequate coordination between local, national, and regional levels; lack of human resources and of EWS infrastructure, for example. Addressing these gaps will imply incredible advances in EWS effectiveness and therefore substantial reduction in disaster losses including climate change-related hazards.
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References
Allen RM, Kanamori H (2003) The potential for earthquake early warning in southern California. Science 300:786–789
Espinosa Aranda JM, Jimenez A, Ibarrola G, Alcantar F, Aguilar A, Inostroza M, Maldonado S (1995) Mexico City seismic alert system. Seismol Res Lett 66:42–53
Goldammer JG et al. (2003) Early warning of wildland fires. Second international conference on early warning, Bonn, Germany, 16–18 Oct 2003
Heaton TH (1985) A model for a seismic computerized alert network. Science 228:987–990
Horiuchi S, Negishi H, Abe K, Kamimura A, Fujinawa Y (2005) An automatic processing system for broadcasting earthquake alarms. Bull Seismol Soc Am 95:708–718
Kamigaichi O (2004) JMA earthquake early warning. Japan Assoc Earthquake Eng 4:134–137
Kanamori H (2005) Real-time seismology and earthquake damage mitigation. Annu Rev Earth Planet Sci 33:195–214
Nakamura Y (2004) UrEDAS, urgent earthquake detection and alarm system, now and future. In: Proceedings of the 13th world conference on earthquake engineering, August 2004, paper no. 908
Natural Hazard Working Group (2005) The role of science in physical natural hazard assessment, Report to the UK Government. (http://www.bis.gov.uk/files/file8511.pdf)
Odaka T, Ashiya K, Tsukada S, Sato S, Ohtake K, Nozaka D (2003) A new method of quickly estimating epicentral distance and magnitude from a single seismic record. Bull Seism Soc Am 93:526–532
Svoboda M, LeComte D, Hayes M, Heim R, Gleason K, Angel J, Rippey B, Tinker R, Palecki M, Stooksbury D, Miskus D, Stephens S (2002) The drought monitor. Bull Am Meteorol Soc 83(8):1181–1190
United Nations (2006) Global survey of early warning systems, United Nations report
Ververs M (2011) The East African food crisis: did regional early warning systems function? J Nutr 142:131–133
World Meteorological Organization (2011) Climate knowledge for action: a global framework for climate services – empowering the most vulnerable. No. 1065
Wu YM, Shin TC, Tsai YB (1998) Quick and reliable determination of magnitude for seismic early warning. Bull Seism Soc Am 88:1254–1259
Wu YM, Teng TL (2002) A virtual sub-network approach to earthquake early warning. Bull Seism Soc Am 92:2008–2018
Zommers Z (2012) Climate early warning system feasibility report: early warning systems and hazard prediction, United Nations Environment Programme (UNEP). Available at: http://www.preventionweb.net/english/professional/publications/v.php?id=30285
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© 2014 Springer Science+Business Media Dordrecht
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Grasso, V.F. (2014). The State of Early Warning Systems. In: Singh, A., Zommers, Z. (eds) Reducing Disaster: Early Warning Systems For Climate Change. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-8598-3_6
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DOI: https://doi.org/10.1007/978-94-017-8598-3_6
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