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ENSO Influence on coastal fog-water yield in the Atacama Desert, Chile

ENSO Influence on coastal fog-water yield in the Atacama Desert, Chile
ENSO Influence on coastal fog-water yield in the Atacama Desert, Chile
Fog water represents an alternative, abundant and currently unexploited fresh water resource in the coastal Atacama Desert (~20°S). Here, the stratocumulus clouds meet the Coastal Cordillera, producing highly dynamic advective marine fog, a major feature of the local climate that provides water to a hyper-arid environment. One of the main issues that arises in harvesting fog water is our limited understanding of the spatial and inter-annual variability of fog clouds and their associated water content. Here we assess the role of regional-wide El Niño Southern Oscillation (ENSO) forcing on local inter-annual fog-water yields along the coast of Atacama. We contrast 17 years of continuous fog-water data, with local and regional atmospheric and oceanographic variables to determine the link between them and the inter-annual dynamics of fog in northern Chile. Sea surface temperature (SST) in ENSO zone 1 + 2 shows significant correlations with offshore and coastal Atacama SST, as well as with local low cloud cover and fog water yields, which go beyond the annual cycle beat, exposing a potential causal link and influence of ENSO on fog along the Atacama. On the inter-annual time scale, we found that when ENSO 3 + 4 zone SST, specifically during summer, overcome a > 1°C temperature threshold, they incite significantly higher summer fog water yields and explain 79% of the fog variability. Furthermore, satellite images displaying regional extent Sc cloud and fog presence during ENSO extremes reveal higher cloud abundance during El Niño at this latitude. However, 75% of the yearly fog water is collected during winter, and does not appear to be affected in a significant manner by Pacific oscillations. Thus, our results suggest that the utilization of fog as a fresh water resource may be sustainable in the future, regardless of ENSO-induced variability in the region.
127-144
del Río, Camilo
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Garcia, Juan-Luis
92f826e6-028b-4fd4-ae68-5877cd90755d
Osses, Pablo
bedf8f89-515d-428c-8077-83da7642982d
Zanetta, Nicolás
f999972e-0639-4a2a-8e44-ad3405fe2bae
Lambert, Fabrice
0c0a4f16-a891-4e12-930f-14ddfbd63541
Rivera, Daniela
c9c187f4-c0a5-4c1b-afbf-26b8e9833330
Siegmund, Alexander
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Wolf, Nils
00161a7c-d5e8-46f0-b786-e5558b188de6
Cereceda, Pilar
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Larraín, Horacio
2b0aa1db-1d7a-4037-b283-0a0189b515d0
Lobos, Felipe
c651320a-ed94-4712-ac8d-6bcf0181fda7
del Río, Camilo
ab3d7cd3-61cd-4e5b-be7a-2d5518145d62
Garcia, Juan-Luis
92f826e6-028b-4fd4-ae68-5877cd90755d
Osses, Pablo
bedf8f89-515d-428c-8077-83da7642982d
Zanetta, Nicolás
f999972e-0639-4a2a-8e44-ad3405fe2bae
Lambert, Fabrice
0c0a4f16-a891-4e12-930f-14ddfbd63541
Rivera, Daniela
c9c187f4-c0a5-4c1b-afbf-26b8e9833330
Siegmund, Alexander
9df8b232-0d3f-4653-bac5-9c66cce20375
Wolf, Nils
00161a7c-d5e8-46f0-b786-e5558b188de6
Cereceda, Pilar
b884d5e2-4c21-4216-86c8-bfbcd93e1736
Larraín, Horacio
2b0aa1db-1d7a-4037-b283-0a0189b515d0
Lobos, Felipe
c651320a-ed94-4712-ac8d-6bcf0181fda7

del Río, Camilo, Garcia, Juan-Luis, Osses, Pablo, Zanetta, Nicolás, Lambert, Fabrice, Rivera, Daniela, Siegmund, Alexander, Wolf, Nils, Cereceda, Pilar, Larraín, Horacio and Lobos, Felipe (2017) ENSO Influence on coastal fog-water yield in the Atacama Desert, Chile. Aerosol and Air Quality Research, 18 (1), 127-144. (doi:10.4209/aaqr.2017.01.0022).

Record type: Article

Abstract

Fog water represents an alternative, abundant and currently unexploited fresh water resource in the coastal Atacama Desert (~20°S). Here, the stratocumulus clouds meet the Coastal Cordillera, producing highly dynamic advective marine fog, a major feature of the local climate that provides water to a hyper-arid environment. One of the main issues that arises in harvesting fog water is our limited understanding of the spatial and inter-annual variability of fog clouds and their associated water content. Here we assess the role of regional-wide El Niño Southern Oscillation (ENSO) forcing on local inter-annual fog-water yields along the coast of Atacama. We contrast 17 years of continuous fog-water data, with local and regional atmospheric and oceanographic variables to determine the link between them and the inter-annual dynamics of fog in northern Chile. Sea surface temperature (SST) in ENSO zone 1 + 2 shows significant correlations with offshore and coastal Atacama SST, as well as with local low cloud cover and fog water yields, which go beyond the annual cycle beat, exposing a potential causal link and influence of ENSO on fog along the Atacama. On the inter-annual time scale, we found that when ENSO 3 + 4 zone SST, specifically during summer, overcome a > 1°C temperature threshold, they incite significantly higher summer fog water yields and explain 79% of the fog variability. Furthermore, satellite images displaying regional extent Sc cloud and fog presence during ENSO extremes reveal higher cloud abundance during El Niño at this latitude. However, 75% of the yearly fog water is collected during winter, and does not appear to be affected in a significant manner by Pacific oscillations. Thus, our results suggest that the utilization of fog as a fresh water resource may be sustainable in the future, regardless of ENSO-induced variability in the region.

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More information

Accepted/In Press date: 28 July 2017
Published date: 27 December 2017
Learn more about School of Geography and Environmental Sciences research

Identifiers

Local EPrints ID: 488677
URI: http://eprints.soton.ac.uk/id/eprint/488677
DOI: doi:10.4209/aaqr.2017.01.0022
PURE UUID: c073547b-2657-4b19-bb75-df1558487456
ORCID for Daniela Rivera: ORCID iD orcid.org/0000-0001-9541-043X

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Date deposited: 04 Apr 2024 16:37
Last modified: 10 Apr 2024 02:02

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Contributors

Author: Camilo del Río
Author: Juan-Luis Garcia
Author: Pablo Osses
Author: Nicolás Zanetta
Author: Fabrice Lambert
Author: Daniela Rivera ORCID iD
Author: Alexander Siegmund
Author: Nils Wolf
Author: Pilar Cereceda
Author: Horacio Larraín
Author: Felipe Lobos

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