Sixty years of global progress in managed aquifer recharge
The last 60 years has seen unprecedented groundwater extraction and overdraft as well as development of new technologies for water treatment that together drive the advance in intentional groundwater replenishment known as managed aquifer recharge (MAR). This paper is the first known attempt to quan...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Journal Article |
| Lenguaje: | Inglés |
| Publicado: |
Springer
2019
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| Materias: | |
| Acceso en línea: | https://hdl.handle.net/10568/97608 |
| _version_ | 1855539728474963968 |
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| author | Dillon, P. Stuyfzand, P. Grischek, T. Lluria, M. Jain, R.C. Bear, J. Schwarz, J. Wang, W. Fernández, E. Stefan, C. Pettenati, M. Gun, Jac van der Sprenger, C. Massmann, G. Scanlon, Bridget R. Xanke, J. Jokela, P. Zheng, Y. Rossetto, R. Shamrukh, M. Pavelic, Paul Murray, E. Ross, A. Bonilla Valverde, J.P. Palma Nava, A. Ansems, N. Posavec, K. Ha, K. Martin, R. Sapiano, M. |
| author_browse | Ansems, N. Bear, J. Bonilla Valverde, J.P. Dillon, P. Fernández, E. Grischek, T. Gun, Jac van der Ha, K. Jain, R.C. Jokela, P. Lluria, M. Martin, R. Massmann, G. Murray, E. Palma Nava, A. Pavelic, Paul Pettenati, M. Posavec, K. Ross, A. Rossetto, R. Sapiano, M. Scanlon, Bridget R. Schwarz, J. Shamrukh, M. Sprenger, C. Stefan, C. Stuyfzand, P. Wang, W. Xanke, J. Zheng, Y. |
| author_facet | Dillon, P. Stuyfzand, P. Grischek, T. Lluria, M. Jain, R.C. Bear, J. Schwarz, J. Wang, W. Fernández, E. Stefan, C. Pettenati, M. Gun, Jac van der Sprenger, C. Massmann, G. Scanlon, Bridget R. Xanke, J. Jokela, P. Zheng, Y. Rossetto, R. Shamrukh, M. Pavelic, Paul Murray, E. Ross, A. Bonilla Valverde, J.P. Palma Nava, A. Ansems, N. Posavec, K. Ha, K. Martin, R. Sapiano, M. |
| author_sort | Dillon, P. |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | The last 60 years has seen unprecedented groundwater extraction and overdraft as well as development of new technologies for water treatment that together drive the advance in intentional groundwater replenishment known as managed aquifer recharge (MAR). This paper is the first known attempt to quantify the volume of MAR at global scale, and to illustrate the advancement of all the major types of MAR and relate these to research and regulatory advancements. Faced with changing climate and rising intensity of climate extremes, MAR is an increasingly important water management strategy, alongside demand management, to maintain, enhance and secure stressed groundwater systems and to protect and improve water quality. During this time, scientific research—on hydraulic design of facilities, tracer studies, managing clogging, recovery efficiency and water quality changes in aquifers—has underpinned practical improvements in MAR and has had broader benefits in hydrogeology. Recharge wells have greatly accelerated recharge, particularly in urban areas and for mine water management. In recent years, research into governance, operating practices, reliability, economics, risk assessment and public acceptance of MAR has been undertaken. Since the 1960s, implementation of MAR has accelerated at a rate of 5%/year, but is not keeping pace with increasing groundwater extraction. Currently, MAR has reached an estimated 10 km3/year, ~2.4% of groundwater extraction in countries reporting MAR (or ~1.0% of global groundwater extraction). MAR is likely to exceed 10% of global extraction, based on experience where MAR is more advanced, to sustain quantity, reliability and quality of water supplies. |
| format | Journal Article |
| id | CGSpace97608 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2019 |
| publishDateRange | 2019 |
| publishDateSort | 2019 |
| publisher | Springer |
| publisherStr | Springer |
| record_format | dspace |
| spelling | CGSpace976082024-05-01T08:19:36Z Sixty years of global progress in managed aquifer recharge Dillon, P. Stuyfzand, P. Grischek, T. Lluria, M. Jain, R.C. Bear, J. Schwarz, J. Wang, W. Fernández, E. Stefan, C. Pettenati, M. Gun, Jac van der Sprenger, C. Massmann, G. Scanlon, Bridget R. Xanke, J. Jokela, P. Zheng, Y. Rossetto, R. Shamrukh, M. Pavelic, Paul Murray, E. Ross, A. Bonilla Valverde, J.P. Palma Nava, A. Ansems, N. Posavec, K. Ha, K. Martin, R. Sapiano, M. groundwater water resources aquifers water quality water levels water use filtration drinking water water storage groundwater pollution The last 60 years has seen unprecedented groundwater extraction and overdraft as well as development of new technologies for water treatment that together drive the advance in intentional groundwater replenishment known as managed aquifer recharge (MAR). This paper is the first known attempt to quantify the volume of MAR at global scale, and to illustrate the advancement of all the major types of MAR and relate these to research and regulatory advancements. Faced with changing climate and rising intensity of climate extremes, MAR is an increasingly important water management strategy, alongside demand management, to maintain, enhance and secure stressed groundwater systems and to protect and improve water quality. During this time, scientific research—on hydraulic design of facilities, tracer studies, managing clogging, recovery efficiency and water quality changes in aquifers—has underpinned practical improvements in MAR and has had broader benefits in hydrogeology. Recharge wells have greatly accelerated recharge, particularly in urban areas and for mine water management. In recent years, research into governance, operating practices, reliability, economics, risk assessment and public acceptance of MAR has been undertaken. Since the 1960s, implementation of MAR has accelerated at a rate of 5%/year, but is not keeping pace with increasing groundwater extraction. Currently, MAR has reached an estimated 10 km3/year, ~2.4% of groundwater extraction in countries reporting MAR (or ~1.0% of global groundwater extraction). MAR is likely to exceed 10% of global extraction, based on experience where MAR is more advanced, to sustain quantity, reliability and quality of water supplies. 2019-02 2018-10-09T11:03:54Z 2018-10-09T11:03:54Z Journal Article https://hdl.handle.net/10568/97608 en Open Access Springer Dillon, P.; Stuyfzand, P.; Grischek, T.; Lluria, M.; Pyne, R. D. G.; Jain, R. C.; Bear, J.; Schwarz, J.; Wang, W.; Fernandez, E.; Stefan, C.; Pettenati, M.; van der Gun, J.; Sprenger, C.; Massmann, G.; Scanlon, B. R.; Xanke, J; Jokela, P.; Zheng, Y.; Rossetto, R.; Shamrukh, M.; Pavelic, Paul; Murray, E.; Ross, A.; Bonilla Valverde, J. P.; Palma Nava, A.; Ansems, N.; Posavec, K.; Ha, K.; Martin, R.; Sapiano, M. 2018. Sixty years of global progress in managed aquifer recharge. Hydrogeology Journal, 30p. (Online first) doi: 10.1007/s10040-018-1841-z |
| spellingShingle | groundwater water resources aquifers water quality water levels water use filtration drinking water water storage groundwater pollution Dillon, P. Stuyfzand, P. Grischek, T. Lluria, M. Jain, R.C. Bear, J. Schwarz, J. Wang, W. Fernández, E. Stefan, C. Pettenati, M. Gun, Jac van der Sprenger, C. Massmann, G. Scanlon, Bridget R. Xanke, J. Jokela, P. Zheng, Y. Rossetto, R. Shamrukh, M. Pavelic, Paul Murray, E. Ross, A. Bonilla Valverde, J.P. Palma Nava, A. Ansems, N. Posavec, K. Ha, K. Martin, R. Sapiano, M. Sixty years of global progress in managed aquifer recharge |
| title | Sixty years of global progress in managed aquifer recharge |
| title_full | Sixty years of global progress in managed aquifer recharge |
| title_fullStr | Sixty years of global progress in managed aquifer recharge |
| title_full_unstemmed | Sixty years of global progress in managed aquifer recharge |
| title_short | Sixty years of global progress in managed aquifer recharge |
| title_sort | sixty years of global progress in managed aquifer recharge |
| topic | groundwater water resources aquifers water quality water levels water use filtration drinking water water storage groundwater pollution |
| url | https://hdl.handle.net/10568/97608 |
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