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[PMID]: | 28463769 |
[Au] Autor: | Tipple BJ; Jameel Y; Chau TH; Mancuso CJ; Bowen GJ; Dufour A; Chesson LA; Ehleringer JR |
[Ad] Endereço: | Department of Biology, University of Utah, 257 S 1400 E, Salt Lake City, UT 84112, USA; IsoForensics, Inc., 421 Wakara Way, Suite 100, Salt Lake City, UT 84108, USA. Electronic address: brett.tipple@utah.edu. |
[Ti] Título: | Stable hydrogen and oxygen isotopes of tap water reveal structure of the San Francisco Bay Area's water system and adjustments during a major drought. |
[So] Source: | Water Res;119:212-224, 2017 08 01. | [Is] ISSN: | 1879-2448 |
[Cp] País de publicação: | England |
[La] Idioma: | eng |
[Ab] Resumo: | Water availability and sustainability in the Western United States is a major flashpoint among expanding communities, growing industries, and productive agricultural lands. This issue came to a head in 2015 in the State of California, when the State mandated a 25% reduction in urban water use following a multi-year drought that significantly depleted water resources. Water demands and challenges in supplying water are only expected to intensify as climate perturbations, such as the 2012-2015 California Drought, become more common. As a consequence, there is an increased need to understand linkages between urban centers, water transport and usage, and the impacts of climate change on water resources. To assess if stable hydrogen and oxygen isotope ratios could increase the understanding of these relationships within a megalopolis in the Western United States, we collected and analyzed 723 tap waters across the San Francisco Bay Area during seven collection campaigns spanning 21 months during 2013-2015. The San Francisco Bay Area was selected as it has well-characterized water management strategies and the 2012-2105 California Drought dramatically affected its water resources. Consistent with known water management strategies and previously collected isotope data, we found large spatiotemporal variations in the δ H and δ O values of tap waters within the Bay Area. This is indicative of complex water transport systems and varying municipality-scale management decisions. We observed δ H and δ O values of tap water consistent with waters originating from snowmelt from the Sierra Nevada Mountains, local precipitation, ground water, and partially evaporated reservoir sources. A cluster analysis of the isotope data collected in this study grouped waters from 43 static sampling sites that were associated with specific water utility providers within the San Francisco Bay Area and known management practices. Various management responses to the drought, such as source switching, bringing in new sources, and water conservation, were observed in the isotope data. Finally, we estimated evaporative loss from one utility's reservoir system during the 2015 water year using a modified Craig-Gordon model to estimate the consequences of the drought on this resource. We estimated that upwards of 6.6% of the water in this reservoir system was lost to evaporation. |
[Mh] Termos MeSH primário: |
Secas Hidrogênio Isótopos de Oxigênio Água
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[Mh] Termos MeSH secundário: |
Baías Cidades Mudança Climática Monitoramento Ambiental Nevada São Francisco
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[Pt] Tipo de publicação: | JOURNAL ARTICLE; RESEARCH SUPPORT, U.S. GOV'T, NON-P.H.S.; RESEARCH SUPPORT, NON-U.S. GOV'T |
[Nm] Nome de substância:
| 0 (Oxygen Isotopes); 059QF0KO0R (Water); 7YNJ3PO35Z (Hydrogen) |
[Em] Mês de entrada: | 1710 |
[Cu] Atualização por classe: | 171204 |
[Lr] Data última revisão:
| 171204 |
[Sb] Subgrupo de revista: | IM |
[Da] Data de entrada para processamento: | 170503 |
[St] Status: | MEDLINE |
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