Tropical Pacific SST influence on seasonal streamflow variability in Ecuador
Metadatos
Afficher la notice complèteAuteur
Quishpe-Vásquez, César; Gámiz Fortís, Sonia Raquel; García Valdecasas Ojeda, Matilde María del Valle; Castro Díez, Yolanda; Esteban Parra, María JesúsEditorial
Wiley
Materia
Streamflow Ecuador El Niño El Niño Modoki Tropical Pacific SST SVD
Date
2019Referencia bibliográfica
César Quishpe-Vásquez, Sonia Raquel Gámiz-Fortis, Matilde García-Valdecasas-Ojeda, Yolanda Castro-Díez, María Jesús Esteban-Parra. 2019. Tropical Pacific sea surface temperature influence on seasonal streamflow variability in Ecuador. International Journal of Climatology, 39(10), 3895-3914
Patrocinador
Departamento de Física Aplicada, Facultad de Ciencias, Universidad de GranadaRésumé
This study presents a basin-wide assessment about the spatiotemporal variability of
streamflows in Ecuador for the period 1979–2015. The influence of the tropical Pacific sea
surface temperature (SST) on streamflow variability from February to April (FMA) period, as
the months showing maximum streamflow for the wet season in Ecuador, and from June to
August (JJA), corresponding to the dry season, was analysed. Firstly, a long-term trend analysis
was carried out by applying the Sen’s slope estimator and the Mann–Kendall test to monthly
streamflow data from 45 gaging stations located in different basins across Ecuador. While the
coastal region showed the highest generalized positive trends from July to January, the results
for the Pacific Andean area suggested a strengthening of the seasonality, presenting an overall
increase in the streamflow for all months except August, September and October, which
showed negative trends. Secondly, a singular-value decomposition (SVD) was applied in order
to find the main coupled variability patterns between the FMA streamflow and the quasicoetaneous
SST (December to February, DJF), and between the JJA streamflow and the
coetaneous SST. The results revealed two main coupled modes for DJF SST/FMA streamflow,
the first associated with the canonical El Niño and the second with El Niño Modoki. The latter
exerted a major influence on FMA streamflow over most of Ecuador. For JJA streamflow,
however, the pattern associated with the traditional El Niño was even more relevant. These
results establish the foundations for streamflow modeling in Ecuador based on the Pacific SST,
showing the strong response of thestreamflows to different types of El Niño events.