The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption
Reconciling higher freshwater demands with finite freshwater resources remains one of the great policy dilemmas. Given that crop irrigation constitutes 70% of global water extractions, which contributes up to 40% of globally available calories (1), governments often support increases in irrigation efficiency (IE), promoting advanced technologies to improve the “crop per drop.” This provides private benefits to irrigators and is justified, in part, on the premise that increases in IE “save” water for reallocation to other sectors, including cities and the environment. Yet substantial scientific evidence (2) has long shown that increased IE rarely delivers the presumed public-good benefits of increased water availability. Decision-makers typically have not known or understood the importance of basin-scale water accounting or of the behavioral responses of irrigators to subsidies to increase IE. We show that to mitigate global water scarcity, increases in IE must be accompanied by robust water accounting and measurements, a cap on extractions, an assessment of uncertainties, the valuation of trade-offs, and a better understanding of the incentives and behavior of irrigators.
Saved in:
| Main Authors: | , , , , , , , , , , |
|---|---|
| Format: | Journal Article biblioteca |
| Language: | English |
| Published: |
American Association for the Advancement of Science
2018-08-24
|
| Online Access: | https://hdl.handle.net/10568/97087 https://doi.org/10.1126/science.aat9314 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
dig-cgspace-10568-97087 |
|---|---|
| record_format |
koha |
| spelling |
dig-cgspace-10568-970872023-12-08T19:36:04Z The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption Grafton, R. Quentin Williams, J. Perry, C. J. Molle, F. Ringler, Claudia Steduto, P. Udall, B. Wheeler, S.A. Wang, Y. Garrick, D. Allen, R.G. Reconciling higher freshwater demands with finite freshwater resources remains one of the great policy dilemmas. Given that crop irrigation constitutes 70% of global water extractions, which contributes up to 40% of globally available calories (1), governments often support increases in irrigation efficiency (IE), promoting advanced technologies to improve the “crop per drop.” This provides private benefits to irrigators and is justified, in part, on the premise that increases in IE “save” water for reallocation to other sectors, including cities and the environment. Yet substantial scientific evidence (2) has long shown that increased IE rarely delivers the presumed public-good benefits of increased water availability. Decision-makers typically have not known or understood the importance of basin-scale water accounting or of the behavioral responses of irrigators to subsidies to increase IE. We show that to mitigate global water scarcity, increases in IE must be accompanied by robust water accounting and measurements, a cap on extractions, an assessment of uncertainties, the valuation of trade-offs, and a better understanding of the incentives and behavior of irrigators. 2018-08-24 2018-09-07T10:08:28Z 2018-09-07T10:08:28Z Journal Article Grafton, R. Q.; Williams, J.; Perry, C. J.; Molle, F.; Ringler, C.; Steduto, P.; Udall, B.; Wheeler, S. A.; Wang, Y.; Garrick, D.; Allen, R. G. 2018. The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption. water. DOI: 10.1126/science.aat9314 0036-8075 1095-9203 https://hdl.handle.net/10568/97087 https://doi.org/10.1126/science.aat9314 Variability, Risks and Competing Uses en Copyrighted; all rights reserved Open Access application/pdf American Association for the Advancement of Science Water |
| institution |
CGIAR |
| collection |
DSpace |
| country |
Francia |
| countrycode |
FR |
| component |
Bibliográfico |
| access |
En linea |
| databasecode |
dig-cgspace |
| tag |
biblioteca |
| region |
Europa del Oeste |
| libraryname |
Biblioteca del CGIAR |
| language |
English |
| description |
Reconciling higher freshwater demands with finite freshwater resources remains one of the great policy dilemmas. Given that crop irrigation constitutes 70% of global water extractions, which contributes up to 40% of globally available calories (1),
governments often support increases in irrigation efficiency (IE), promoting advanced technologies to improve the “crop
per drop.” This provides private benefits to irrigators and is justified, in part, on the premise that increases in IE “save” water
for reallocation to other sectors, including cities and the environment. Yet substantial scientific evidence (2) has long shown that
increased IE rarely delivers the presumed public-good benefits of increased water availability. Decision-makers typically have
not known or understood the importance of basin-scale water accounting or of the behavioral responses of irrigators to subsidies
to increase IE. We show that to mitigate global water scarcity, increases in IE must be accompanied by robust water accounting
and measurements, a cap on extractions, an assessment of uncertainties, the valuation of trade-offs, and a better understanding of the incentives and behavior of irrigators. |
| format |
Journal Article |
| author |
Grafton, R. Quentin Williams, J. Perry, C. J. Molle, F. Ringler, Claudia Steduto, P. Udall, B. Wheeler, S.A. Wang, Y. Garrick, D. Allen, R.G. |
| spellingShingle |
Grafton, R. Quentin Williams, J. Perry, C. J. Molle, F. Ringler, Claudia Steduto, P. Udall, B. Wheeler, S.A. Wang, Y. Garrick, D. Allen, R.G. The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption |
| author_facet |
Grafton, R. Quentin Williams, J. Perry, C. J. Molle, F. Ringler, Claudia Steduto, P. Udall, B. Wheeler, S.A. Wang, Y. Garrick, D. Allen, R.G. |
| author_sort |
Grafton, R. Quentin |
| title |
The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption |
| title_short |
The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption |
| title_full |
The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption |
| title_fullStr |
The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption |
| title_full_unstemmed |
The paradox of irrigation efficiency: Higher efficiency rarely reduces water consumption |
| title_sort |
paradox of irrigation efficiency: higher efficiency rarely reduces water consumption |
| publisher |
American Association for the Advancement of Science |
| publishDate |
2018-08-24 |
| url |
https://hdl.handle.net/10568/97087 https://doi.org/10.1126/science.aat9314 |
| work_keys_str_mv |
AT graftonrquentin theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT williamsj theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT perrycj theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT mollef theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT ringlerclaudia theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT stedutop theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT udallb theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT wheelersa theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT wangy theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT garrickd theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT allenrg theparadoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT graftonrquentin paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT williamsj paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT perrycj paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT mollef paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT ringlerclaudia paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT stedutop paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT udallb paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT wheelersa paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT wangy paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT garrickd paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption AT allenrg paradoxofirrigationefficiencyhigherefficiencyrarelyreduceswaterconsumption |
| _version_ |
1787230425306890240 |