Abstract
Extreme hydrological events such as floods and droughts can have devastating impacts on human life, generate economic losses and increase poverty and deprivation. Besides that, their frequency is increasing due to the effects of climate variability and change. Aquifers often offer opportunities for reducing the effects of the impact of these hydrological extremes and contribute to establish emergency drinking water supplies. The global map of groundwater vulnerability to floods and droughts is the result of a joint effort of the projects ‘Groundwater for Emergency Situations’ and the ‘World-wide Hydrogeological Mapping and Assessment Programme’. This map indicates the level of vulnerability of groundwater resources of the earth. It presents the intrinsic vulnerability of groundwater systems and the sensitivity or resistance of those systems to natural disasters. This assessment of global groundwater vulnerability is mainly based on parameters that were globally available: the ‘type of aquifers’ and ‘annual groundwater recharge’. In order to obtain a numerical dimension of vulnerability, individual weighting and a rating scale have been assigned to both these parameters. The final result, called ‘total vulnerability range’, is divided into three categories of groundwater vulnerability: low, moderate and high. Generally, the lower the numerical score, the lower the vulnerability and the higher the level of natural protection of groundwater against hydroclimatic disasters. The resulting categories of vulnerability are indicated on the map by colours. The groundwater vulnerability classification adopted for this map is intended for use as a global overview.
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References
Adams B, Foster SSD (1992) Land-surface zoning for groundwater protection. J Inst Water Environ Manag 6:312–320
Albinet M, Margat J (1970) Cartographie de la vulnerabilite a la pollution des nappes d’eau souterraine. Bulletin BRGM 2nd Series 3, Orleans, France, pp 13–22
Aller L, Lehr JH, Petty R (1985) DRASTIC: a standardized system to evaluate ground water pollution potential using hydrogeological setting. In: Proceedings of the NWWA/API conference on petroleum hydrocarbons and organic chemicals in ground water: prevention, detection and restoration. Water Well Journal Publishing, Ohio, pp 38–56
Benacchio S, Civita M (1988) Difesa degli acquiferi dell’ alta pianura veneta, stato di inquinamento e vulnerabilita delle acque sotterance del bacino del brenta. Monography G.N.D.C.I.-C.N:R., vol 5, Venice
BGR, GEUS (2008) Groundwater and climate change: challenges and possibilities. BGR, Hannover and GEUS, Copenhagen
BGR, UNESCO (2008) Groundwater resources of the world, 1: 25,000,000. BGR, Hannover and UNESCO, Paris
BGR/UNESCO (2012) River and groundwater basins of the world, 1: 50,000,000. Special Edition for the 6th World Water Forum, Marseille, March 2012. BGR, Hannover and UNESCO, Paris
CGMW (2010) Geological map of the world 1: 25,000,000, 3rd edn. CGMW, Paris
Cichocki G, Zojer H (2007) VURAAS: vulnerability and risk assessment for Alpine aquifer system. In: Witkowski A, Kowalczyk A, Vrba J (eds) Groundwater vulnerability assessment and mapping: selected papers on hydrogeology. Taylor & Francis, London, pp 191–197
Civita M (1990) La valutazione della vulnerabilita degli acquiferi all’inquinamento (Assessment of aquifer vulnerability to contamination). In: Proceedings of 1st Convenience Naz ‘Protezione e Gestione delle acque sotterranee, Metodologie, Techologie e Obiettivi’, Marano sul Panaro, vol 3, pp 39–86
Civita M (1994) Data needs and presentation. In: Vrba J, Zaporozec A (eds) Guidebook on mapping groundwater vulnerability: international contributions to hydrogeology, vol 16. Verlag Heinz Heise, Hannover, pp 57–73
Dilley M, Chen RS, Deichmann U, Lerner-Lam AL, Arnold M, Agwe J, Buys P, Kjekstad O, Lyon B, Yetman G (2005) Natural disaster hotspots: a global risk analysis. Disaster risk management series No. 5. The World Bank, Washington
Döll P, Fiedler K (2008) Global-scale modeling of groundwater recharge. Hydrol Earth Syst Sci 12:863–885
Foster SSD (1987) Fundamental concepts in aquifer vulnerability, pollution risk and protection strategy. In: van Duijvenbooden W, Waegeningh HG (eds) Vulnerability of soil and groundwater to pollutants. Proceedings and information No. 38. The Hague, pp 69–86
National Research Council (1993) Groundwater vulnerability assessment—contaminant potential under conditions of uncertainty. National Acasemy Oress, Washington
Richts A, Struckmeier WF, Zaepke M (2011) WHYMAP and the groundwater resources of the world 1: 25,000,000. In: Jones JAA (ed) Sustaining groundwater resources. Springer, London, pp 159–173
Sotornikova R, Vrba J (1987) Some remarks on the concept of vulnerability maps. In: van Duijvenbooden W, Waegeningh HG (eds) Vulnerability of soil and groundwater to pollutants. Proceedings and information No. 38. The Hague, pp 471–476
Struckmeier WF, Margat J (1995) Hydrogeological maps: a guide and a standard legend, international contributions to hydrogeology, vol 17. Verlag Heinz Heise, Hannover
UNISDR (2009) Risk and poverty in a changing climate—invest today for a safer tomorrow. Global assessment report on disaster risk reduction. United Nations Office for Disaster Risk Reduction (UNISDR), Geneva
UNISDR (2015) Making development sustainable: The future of disaster risk management. Global assessment report on disaster risk reduction. United Nations Office for Disaster Risk Reduction (UNISDR), Geneva
Vrba J, Richts A (2015) The global map of groundwater vulnerability to floods and droughts. Explanatory notes. UNESCO, Paris
Vrba J, Verhagen B (2011) Groundwater for Emergency Situations: a methodological guide. IHP-VII series on groundwater No. 3. UNESCO, Paris
Vrba J, Zaporozec A (1994) Guidebook on mapping groundwater vulnerability, international contributions to hydrogeology, vol 16. Verlag Heinz Heise, Hannover
Williams P, Fong YT (2010) World map of carbonate rock outcrops, V 3.0. Auckland
Witkowski A, Kowalczyk A, Vrba J (2007) Groundwater vulnerability assessment and mapping: selected papers on hydrogeology. Taylor & Francis, London
Acknowledgments
Special thanks is expressed to Dr Alice Aureli PhD, Chief of the Groundwater Systems and Settlements Section, Division of Water Science, International Hydrological Programme, UNESCO, for active cooperation in the implementation of WHYMAP and the GWES project and in the realization and publication of the Global Groundwater Vulnerability Map to Floods and Droughts.
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This article is a part of a Topical Collection in Environmental Earth Sciences on ‘Groundwater Vulnerability’ edited by Dr. Andrzej Witkowski.
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Richts, A., Vrba, J. Groundwater resources and hydroclimatic extremes: mapping global groundwater vulnerability to floods and droughts. Environ Earth Sci 75, 926 (2016). https://doi.org/10.1007/s12665-016-5632-3
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DOI: https://doi.org/10.1007/s12665-016-5632-3