Coastal Upwelling Front Detection off Central Chile (36.5–37°S) and Spatio-Temporal Variability of Frontal Characteristics

In Eastern Boundary Upwelling Systems, cold coastal waters are separated from offshore by a strong cross-shore Sea Surface Temperature (SST) gradient zone. This upwelling front plays a major role for the coastal ecosystem. This paper proposes a method to automatically identify the front and define i...

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Published in:Remote sensing (Basel, Switzerland) Switzerland), 2018-04, Vol.10 (5), p.690
Main Authors: Oerder, Vera, Bento, Joaquim, Morales, Carmen, Hormazabal, Samuel, Pizarro, Oscar
Format: Article
Language:English
Subjects:
Atmospheric forcing
climate change
Coastal ecosystems
coastal upwelling front detection
Coastal waters
Cold
Eastern Boundary Upwelling System
Methods
Oceanography
Probability
Radiometers
Sea surface temperature
Seasonal variations
Upwelling
upwelling spatio-temporal variability
Wind
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cited_by cdi_FETCH-LOGICAL-c357t-229724616c38902f8a5e1d1e7b4adb6f18e160de025e18a78cb3c4c2ec464f1b3
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creator Oerder, Vera
Bento, Joaquim
Morales, Carmen
Hormazabal, Samuel
Pizarro, Oscar
description In Eastern Boundary Upwelling Systems, cold coastal waters are separated from offshore by a strong cross-shore Sea Surface Temperature (SST) gradient zone. This upwelling front plays a major role for the coastal ecosystem. This paper proposes a method to automatically identify the front and define its main characteristics (position, width, and intensity) from high resolution data. The spatio-temporal variability of the front characteristics is then analyzed in a region off Central Chile (37°S), from 2003 to 2016. The front is defined on daily 1 km-resolution SST maps by isotherm T0 with T0 computed from mean SST with respect to the distance from the coast. The probability of detecting a front, as well as the front width and intensity are driven by coastal wind conditions and increased over the 2007-2016 period compared to the 2003-2006 period. The front position, highly variable, is related to the coastal jet configuration and does not depend on the atmospheric forcing. This study shows an increase by 14% in the probability of detecting a front and also an intensification by 17% of the cross-front SST difference over the last 14 years. No trend was found in the front position.
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subjects Atmospheric forcing
climate change
Coastal ecosystems
coastal upwelling front detection
Coastal waters
Cold
Eastern Boundary Upwelling System
Methods
Oceanography
Probability
Radiometers
Sea surface temperature
Seasonal variations
Upwelling
upwelling spatio-temporal variability
Wind
title Coastal Upwelling Front Detection off Central Chile (36.5–37°S) and Spatio-Temporal Variability of Frontal Characteristics
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