Coastal Clouds at the Eastern Margin of the Southeast Pacific: Climatology and Trends
Author
dc.contributor.author
Muñoz Magnino, Ricardo Carlos
Author
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Quintana, Juan
Author
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Falvey, Mark J.
Author
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Rutllant Costa, José
Author
dc.contributor.author
Garreaud Salazar, René
Admission date
dc.date.accessioned
2016-11-22T20:23:57Z
Available date
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2016-11-22T20:23:57Z
Publication date
dc.date.issued
2016
Cita de ítem
dc.identifier.citation
Journal of climate. Volumen: 29 Número: 12 Páginas: 4525-4542
es_ES
Identifier
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10.1175/JCLI-D-15-0757.1
Identifier
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https://repositorio.uchile.cl/handle/2250/141354
Abstract
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The climatology and recent trends of low-level coastal clouds at three sites along the northern Chilean coast (18.3 degrees-23.4 degrees S) are documented based upon up to 45 years of hourly observations of cloud type, coverage, and heights. Consistent with the subtropical location, cloud types are dominated by stratocumuli having greatest coverage (>7 oktas) and smaller heights (600-750 m) during the nighttime of austral winter and spring. Meridionally, nighttime cloud fraction and cloud-base heights increase from south to north. Long-term trends in mean cloud cover are observed at all sites albeit with a seasonal modulation, with increasing (decreasing) coverage in the spring (fall). Consistent trend patterns are also observed in independent sunshine hour measurements at the same sites. Cloud heights show negative trends of about 100 m decade(-1) (1995-2010), although the onset time of this tendency differs between sites. The positive cloud fraction trends during the cloudy season reported here disagree with previous studies, with discrepancies attributed to differences in datasets used or to methodological differences in data analysis. The cloud-base height tendency, together with a less rapid lowering of the subsidence inversion base height, suggests a deepening of the coastal cloud layer. While consistent with the tendency toward greater low-level cloud cover and the known cooling of the marine boundary layer in this region, these tendencies are at odds with a drying trend of the near-surface air documented here as well. Assessing whether this intriguing result is caused by physical factors or by limitations of the data demands more detailed observations, some of which are currently under way.