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Water International Volume 38, 2013 - Issue 6
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Articles

Managed aquifer recharge in community water supply: the Finnish experience and some international comparisons

V. KurkiDepartment of Chemistry and Bioengineering, Tampere University of Technology (TUT), Tampere, FinlandCorrespondence[email protected]
,
A. LipponenUnited Nations Economic Commission for Europe (UNECE), Geneva, Switzerland
&
T. KatkoDepartment of Chemistry and Bioengineering, Tampere University of Technology (TUT), Tampere, Finland
Pages 774-789 | Received 27 Feb 2013, Accepted 09 Sep 2013, Published online: 25 Oct 2013

References

  • Artimo, A., Mäkinen, J., Berg, R. C., Abert, C. C., & Salonen, V. -P. (2003). Three-dimensional geologic modeling and visualization of the Virttaankangas aquifer, southwestern Finland. Hydrogeology Journal , 11, 378–386.
  • Artimo, A., Saraperä, S., & Ylander, I. (2008). Methods for integrating an extensive geodatabase with 3D modeling and data management tools for the Virttaankangas artificial recharge project, Southwestern Finland. Water Resource Management , 22, 1723–1739.
  • Asano, T., & Cotruvo, J. A. (2004). Groundwater recharge with reclaimed municipal wastewater: Health and regulatory considerations. Water Research , 38, 1941–1951.
  • Balke, K., & Zhu, Y. (2008). Natural water purification and water management by artificial groundwater recharge. Journal of Zheijang University Science B , 9(3), 221–226.
  • Barnett, S. R., Howles, S. R., Martin, R. R., & Serges, N. Z. (2000). Aquifer storage and recharge: Innovation in water resources management. Australian Journal of Earth Sciences , 47, 13–19.
  • Bouwer, H. (2002). Artificial recharge of groundwater: Hydrogeology and engineering. Hydrogeology Journal , 10, 121–142.
  • British Geological Survey. (2006). Managed aquifer recharge: An assessment of its role and its effectiveness in watershed management. Groundwater Management Programme Commissioned Report CR/06/107N.
  • Dillon, P. (2005). Future management of aquifer recharge. Hydrogeology Journal , 13, 313–316.
  • Dillon, P. (2007). Innovation in governance of managed aquifer recharge. In P. Fox (Ed.), Management of aquifer recharge for sustainability (pp. 1–14). Phoenix, AZ: Acacia Publishing, Inc.
  • Hansen, H. S., & Mäenpää, M. (2008). An overview of the challenges for public participation in river basin management and planning. Management of Environmental Quality , 19(1), 67–84.
  • Hatva, T. (1996). Artificial groundwater recharge in Finland. In A-L. Kivimäki & T. Suokko (Eds.), Artificial recharge of groundwater: Proceedings of an International Symposium, Helsinki, Finland June 3–5, 1996 (pp. 3–12). Helsinki: NHP.
  • Helmisaari, H. -S., Derome, J., Kitunen, V., Lindroos, A. -J., Lumme, I., Monni, S., … Smolander, A. ( 1999). Veden imeytyksen vaikutukset metsämaahan ja kasvillisuuteen sekä vajo- ja pohjaveden laatuun. (Final report of VIVA research 721). [Impacts of groundwater recharge to the forest soil, vegetation and quality of ground water The Finnish Forest Research Institute.
  • Helmisaari, H. -S.. & Mäenpää, L. (Eds.). (2003). Tekopohjaveden muodostuminen: imeytystekniikka, maaperäprosessit ja veden laatu (Final report of TEMU research 902). [Formation of artificial groundwater: infiltration techniques, soil processes and water quality]. Vantaa: The Finnish Forest Research Institute.
  • International Groundwater Resources Assessment Centre. (2009). Map of Global Groundwater Regions. Utrecht: International Groundwater Resources Assessment Centre. Retrieved from http://www.un-igrac.org/dynamics/modules/SFIL0100/view.php?fil_Id=58
  • Isomäki, E., Britschgi, R., Gustafsson, J., Kuusisto, E., Munsterhjelm, K., Santala, E. , … Valve, M. (2007). Yhdyskuntien vedenhankinnan tulevaisuuden vaihtoehdot. [Future possibilities of community water supply). Finland: Finnish Environment Institute.
  • Jain, V. K., Singh, A., & Soni, O. P. (2013). Performance evaluation of recharge pits method of artificial recharge of ground water in Madhya Pradesh, India. Advances in Water Resource and Protection (AWRP) , 1(1), 11–20.
  • Jebamalar, A., Ravikumar, G., & Meiyappan, G. (2012). Groundwater storage through rain water harvesting (RWH). Clean – Soil, Air, Water , 40(6), 624–629.
  • Jokela, P., & Valtonen, J. ( 2010). Managed aquifer recharge and public participation. Paper presented at the 7th International Symposium on Managed Aquifer Recharge, Abu Dhabi, October 2010.
  • Juuti, P., & Katko, T. (2006). Vaasan vedet. [Vasa’s water. Water services in terms of environment and society from the 19th century to the future]. Vaasa: Vaasan Vesi.
  • Karimov, A., Mavlonov, A., Miryusupov, F., Gracheva, I., Vercheslav, B., & Abdurahmonov, B. (2012). Modelling policy alternatives toward managed aquifer recharge in the Fergana Valley, Central Asia. Water International , 37(4), 380–394.
  • Katko, T., Lipponen, A., & Rönkä, E. (2006). Groundwater use and policy in community water supply in Finland. Hydrogeology Journal , 14(1–2), 69–78.
  • Keller, A., Sakthivadivel, R., & Seckler, D. (2000). Water scarcity and the role of storage in development (Report No 39). Colobmo: International Water Management Institute.
  • Kolehmainen, R. (2008). Natural organic matter biodegradation and microbial community dynamics in artificial groundwater recharge (Doctoral dissertation). Tampere University of Technology, Tampere.
  • Kolehmainen, R. E., Crochet, L. M., Kortelainen, N. M., Langwaldt, J. H., & Puhakka, J. A. (2010). Biodegradation of aqueous organic matter over seasonal changes: Bioreactor experiments with indigenous lake water bacteria. Journal of Environmental Engineering , 136(6), 607–615.
  • Mäkelä, J. ( 2012). Drilled well yield and hydraulic properties in the Precambrian crystalline bedrock of Central Finland (Doctoral dissertation). Universtiy of Turku, Turku.
  • Mälkki, E. (1999). Pohjavesi ja pohjaveden ympäristö. [Groundwater and its environment]. Tammi: Helsinki.
  • National Research Council. (2008). Prospects for managed underground storage of recoverable water. Washington, DC: National Academies Press.
  • Nöjd, P., Lindroos, A. -J., Smolander, A., Derome, J., Lumme, I., & Helmisaari, H. -S. (2009). Artificial recharge of groundwater through sprinkling infiltration: Impacts on forest soil and the nutrient status and growth of Scots pine. Science of the Total Environment , 407, 3367–3371.
  • Nonner, J. (2012). Introduction to hydrogeology (2nd ed.). Leiden: Taylor & Francis Group/CRC Press/Balkema.
  • Ojala, J., Wakeman, K., & Puhakka, J. ( 2012). Improving artificial groundwater recharge through on-line monitoring and control (Final report of the TEVA research project 40232/08). Tampere University of Technology.
  • Ong’or, B., & Long-Cang, S. (2009). Groundwater overdraft and the impact of artificial recharge on groundwater quality in a cone of depression, Jining, China. Water International , 34(4), 468–483.
  • Pöyry Finland Oy. (2011). TAVASE OY. Vehoniemen-Isokankaan harjualueen tekopohjavesilaitoksen yleissuunnitelma. [General plan for Tavase managed aquifer recharge plant in Vehoniemi-Isokangas eskers]. Pöyry Finland Oy. Retrieved from http://www.tavase.fi/ladattavat/Tavase_Oy_Yleissuunnitelma_Suunnitelmaselostus.pdf
  • Shahbaz, K., Shahbaz, M., Munir, A. H., & Jürgen, S. (2008). Estimating potential costs and gains from an aquifer storage and recovery program in Australia. Agricultural Water Management , 95 , 477–488. doi:10.1016/j.agwat.2007.12.002
  • Tanhuala, T. (1994). Development of water treatment in Finland (Master’s thesis). Tampere University of Technology, Tampere.
  • United Nations. (2011). World population prospects: The 2010 revision. New York, NY: United Nations, Department of Economic and Social Affairs. Retrieved from http://esa.un.org/unpd/wpp/Sorting-Tables/tab-sorting_population.htm
  • Wang, D., Zhu, H., Wang, X., Zhang, Y., Han, D., & Xiang, N. ( 2011). Groundwater management in Shanghai, China: history, problems and recommendations. Paper presented at the International Conference on Management and Service Science, Wuhan, China, August 2011.
  • Wipplinger, O. (1958). The storage of water in sand. An investigation of the properties of natural and artificial sand reservoirs and of methods of developing such reservoirs. Windhoek: South West Africa administration. Water affairs branch.

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