Mainstreaming Early Warning Systems in Development and Planning Processes: Multilevel Implementation of Sendai Framework in Indus and Sahel

Asim Zia; Courtney Hammond Wagner

doi:10.1007/s13753-015-0048-3

International Journal of Disaster Risk Science ›› 2015, Vol. 6 ›› Issue (2) : 189 -199. DOI: 10.1007/s13753-015-0048-3

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Mainstreaming Early Warning Systems in Development and Planning Processes: Multilevel Implementation of Sendai Framework in Indus and Sahel

Asim Zia ¹^,²^,^a
, Courtney Hammond Wagner ³

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Abstract

The third UN World Congress on Disaster Risk Reduction, held in Sendai, Japan in March 2015, agreed on a new framework to guide disaster risk reduction policy and practice for the next 15 years. The Sendai Framework for Disaster Risk Reduction 2015–2030 (SFDRR) leaves important implementation issues unspecified and potentially creates both problems and opportunities for complex, multilevel governance systems in coping with hazards and disastrous events. Early warning systems (EWS), if built into the mainstream of planning for development and disaster relief and recovery, could present a significant opportunity to realize many SFDRR goals. We explore the complexities of using hydrometeorological EWS to prepare for drought and flood disasters in the densely populated communities of Pakistan’s Indus River Basin in contrast to the African Sahel’s less densely settled grasslands. Multilevel governance systems are often dominated by a top-down, technocentric, centralized management bias and have great difficulty responding to the needs of peripheral and vulnerable populations. People-centered, bottom-up approaches that incorporate disaggregated communities with local knowledge into a balanced, multilevel disaster risk management and governance structure have a dramatically better chance of realizing the SFDRR goals for disaster risk reduction.

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Early warning systems / Infrastructure development / Land-use planning / Policy implementation / Risk governance / Sendai Framework / Science-policy interface

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Asim Zia, Courtney Hammond Wagner. Mainstreaming Early Warning Systems in Development and Planning Processes: Multilevel Implementation of Sendai Framework in Indus and Sahel. International Journal of Disaster Risk Science, 2015, 6(2): 189-199 DOI:10.1007/s13753-015-0048-3

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Alfieri L, Salamon P, Pappenberger F, Wetterhall F, Thielen J. Operational early warning systems for water-related hazards in Europe. Environmental Science & Policy, 2012, 21: 35-49

[2]	Ardalan A, Naieni K, Kabir M-J, Zanganeh A, Keshtkar A, Honarvar M, Khodaie H, Osooli M. Evaluation of Golestan Province’s early warning system for flash floods, Iran, 2006–2007. International Journal of Biometeorology, 2009, 53(3): 247-254

[3]	Bailey R. Managing famine risk: Linking early warning to early action. A Chatham House report, 2013, London: Royal Institute of International Affairs

[4]	Basher R. Global early warning systems for natural hazards: Systematic and people-centered. Philosophical Transactions of the Royal Society A, 2006, 364(1845): 2167-2182

[5]	Bohle H, Downing T, Watts M. Climate change and social vulnerability: Toward a sociology and geography of food insecurity. Global Environmental Change, 1994, 4(1): 37-48

[6]	Boyd E, Cornfornth R, Lamb P, Tarhule A, Issa Lélé M, Brouder A. Building resilience to face recurring environmental crisis in African Sahel. Nature Climate Change, 2013, 3(7): 631-637.

[7]	Brown O, Hammill A, Mcleman R. Climate change as the ‘new’ security threat: Implications for Africa. International Affairs, 2007, 83(6): 1141-1154

[8]	Challinor A, Wheeler T, Craufurd P, Kassam A. Assessing the vulnerability of food crop systems in Africa to climate change. Climatic Change, 2007, 83(3): 381-399

[9]	Davis M. Late Victorian holocausts: El Niño, famines, and the making of the third world, 2002, New York: Verso

[10]	Fakhruddin, S. 2014. Applications of medium range probabilistic flood forecast for societal benefits: Lessons learnt from Bangladesh. In Reducing disaster: Early warning systems for climate change, ed. Z. Zommers, and A. Singh, 167–183. Dordrecht: Springer.

[11]	Funk C, Dettinger M, Michaelson J, Verdin J, Brown M, Barlow M, Hoell A. Warming of the Indian Ocean threatens eastern and southern Africa, but could be mitigated by agricultural development. Proceedings of the National Academy of Sciences of the United States of America, 2008, 105(32): 11081-11086

[12]	Glantz MH. Global warming and environmental change in sub-Saharan Africa. Global Environmental Change, 1992, 2(3): 183-204

[13]	Glantz MH. Creeping environmental problems and sustainable development in the Aral Sea basin, 1999, Cambridge: Cambridge University Press

[14]	Glantz MH. Climate affairs: A primer, 2003, Washington DC: Island Press

[15]	Glantz MH, Adeel Z. Climate affairs as a next-generation environmental science. Global Environmental Change, 2000, 10(1): 81-85

[16]	Guston D. Boundary organizations in environmental policy and science: An introduction. Science, Technology and Human Values, 2001, 26(4): 399-408

[17]	Hasan SS, Zaidi SSZ. Flooded economy of Pakistan. Journal of Development and Agricultural Economics, 2012, 4(13): 331-338.

[18]	Immerzeel W, Van Beek L, Bierkens M. Climate change will affect the Asian water towers. Science, 2010, 328(5984): 1382-1385

[19]	Intrieri E, Gigli G, Mugnai F, Fanti R, Casagli N. Design and implementation of a landslide early warning system. Engineering Geology, 2012, 147–148: 124-136

[20]	IPCC (Intergovernmental Panel on Climate Change). 2012. Managing the risks of extreme events and disasters to advance climate change adaptation. A special report of working groups I and II of the intergovernmental panel on climate change. Cambridge, UK: Cambridge University Press.

[21]	IPCC (Intergovernmental Panel on Climate Change). 2014. Climate change 2014: Impacts, adaptation, and vulnerability. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press.

[22]	Javid DU. Genesis and effects of religious extremism in Pakistan. International Journal of Business and Social Science, 2011, 2(7): 282-288.

[23]	Katz RW, Murphy AH. Economic value of weather and climate forecasts, 1997, Cambridge, UK: Cambridge University Press

[24]	Kelman I, Glantz MH. Zommers Z, Singh A. Early warning systems defined. Reducing disaster: Early warning systems for climate change, 2014, Dordrecht: Springer 89-108

[25]	Komal R, Faisal A. Linking financial development, economic growth and energy consumption in Pakistan. Renewable and Sustainable Energy Reviews, 2015, 44: 211-220

[26]	Liu P, Wang X, Salisbury A. Tsunami hazard and early warning system in South China Sea. Journal of Asian Earth Sciences, 2009, 36(1): 2-12

[27]	Marx B, Thomas S, Tavneet S. The economics of slums in the developing world. Journal of Economic Perspectives, 2013, 27(4): 187-210

[28]	Mustafa D, Sawas A. Urbanisation and political change in Pakistan: Exploring the known unknowns. Third World Quarterly, 2013, 34(7): 1293-1304

[29]	Plate E. Early warning and flood forecasting for large rivers with the lower Mekong as example. Journal of Hydro-Environment Research, 2007, 1(2): 80-94

[30]	Pozzi W, Sheffield J, Stefanski R, Cripe D, Pulwarty R, Vogt JV, Westerhoff R. Toward global drought early warning capability: Expanding international cooperation for the development of a framework for monitoring and forecasting. Bulletin of the American Meteorological Society, 2013, 94(6): 776-785

[31]	Pulwarty R, Sivakumar M. Information systems in a changing climate: Early warnings and drought risk management. Weather and Climate Extremes, 2014, 3: 14-21

[32]	Ramanathan V, Chung C, Kim D, Bettge T, Buja L, Kiehl JT, Wild M. Atmospheric brown clouds: Impacts on South Asian climate and hydrological cycle. Proceedings of the National Academy of Sciences of the United States of America, 2005, 102(15): 5326-5333

[33]	Rosenzweig C, Iglesias A, Yang XB, Epstein PR, Chivian E. Climate change and extreme weather events: Implications for food production, plant diseases, and pests. Global Change & Human Health, 2001, 2(2): 90-104

[34]	Samimi C, Fink A, Paeth H. The 2007 flood in the Sahel: Causes, characteristics and its presentation in the media and FEWS NET. Natural Hazards and Earth Systems Science, 2012, 12(2): 313-325

[35]	Singh D, Tsiang M, Rajaratnam B, Diffenbaugh N. Observed changes in extreme wet and dry spells during the South Asian summer monsoon season. Nature Climate Change, 2014, 4: 456-461

[36]	Spahn H, Hoppe M, Vidiarina H, Usdianto B. Experience from 3 years of local capacity development for tsunami early warning in Indonesia: Challenges, lessons and the way ahead. Natural Hazards and Earth System Sciences, 2010, 10(7): 1411-1429

[37]

Taubenböck H, Goseberg N, Setiadi N, Lämmel G, Moder F, Oczipka M, Klein R. “Last-Mile” preparation for a potential disaster: Interdisciplinary approach towards tsunami early warning and an evacuation information system for the coastal city of Padang, Indonesia. Natural Hazards and Earth Systems Science, 2009, 9(4): 1509-1528

[38]	Thieler J, Bartholmes J, Ramos M-H, de Roo A. The European flood alert system. Part 1: Concept and development. Hydrology and Earth Systems Science, 2009, 12: 125-140

[39]	Thomalla F, Larsen R. Resilience in the context of tsunami early warning systems and community disaster preparedness in the Indian Ocean region. Environmental Hazards, 2010, 9(3): 249-265

[40]	Thomson M, Doblas-Reyes F, Mason S, Hagedorn R, Connor S, Phindela T, Morse A, Palmer T. Malaria early warnings based on seasonal climate forecasts from multi-model ensembles. Nature, 2006, 439(7076): 576-579

[41]	Traore S, Ali A, Tinni S, Samake M, Garba I, Maigari I, Alhassane A, Samba A AGRHYMET: A drought monitoring and capacity building center in the West Africa Region. Weather and Climate Extremes, 2014, 3: 22-30

[42]	Turner A, Annamalai H. Climate change and the South Asian summer monsoon. Nature Climate Change, 2012, 2(8): 587-595

[43]	Ueda H, Iwai A, Kuwako K, Hori M. Impact of anthropogenic forcing on the Asian summer monsoon as simulated by eight GCMs. Geophysical Research Letters, 2006

[44]	UNISDR (United Nations International Strategy for Disaster Reduction). 2005. Hyogo framework for action 2005–2015: Building the resilience of nations and communities to disasters. http://www.unisdr.org/we/inform/publications/1037. Accessed 5 May 2015.

[45]	UNISDR (United Nations International Strategy for Disaster Reduction). 2015. Sendai framework for disaster risk reduction 2015–2030. Geneva: UNISDR.

[46]	van Aalst, M. 2006. The impacts of climate change on the risk of natural disasters. Disasters 30(1): 5–18.

[47]	Zia A. Land use adaptation to climate change: Economic damages from land-falling hurricanes in the Atlantic and gulf states of the USA, 1900–2005. Sustainability, 2012, 4(5): 917-932

[48]	Zia A. Post-Kyoto climate governance: Confronting the politics of scale, ideology and knowledge, 2013, London: Rutledge

[49]	Zia A, Glantz MH. Risk zones: Comparative lesson drawing and policy learning from flood insurance programs. Journal of Comparative Policy Analysis: Research and Practice, 2012, 14(2): 143-159

[50]	Zia A, Hameed K. Aman MM, Aman MJP. Politics of conflict in Pakistan’s tribal areas: Vulnerability reduction in violence-prone complex adaptive systems. Middle East conflicts and reforms, 2014, Washington, DC: Policy Studies Organization/Westphalia Press 223-236.

[51]	Zia, A., P. Hirsch, A. Songorwa, D.R. Mutekanga, S. O’Connor, T. McShane, and B. Norton. 2011. Cross-scale value trade-offs in managing social-ecological systems: The politics of scale in Ruaha National Park, Tanzania. Ecology and Society 16(4). Article no. 7.