BibTeX_20B

@Article{Canchala2020,

author = {Canchala, Teresita and Loaiza Cerón, Wilmar and Francés, Félix and Carvajal-Escobar, Yesid and Andreoli, Rita Valeria and Toshie Kayano, Mary and Alfonso-Morales, Wilfredo and Caicedo-Bravo, Eduardo and {Ferreira de Souza}, Rodrigo Augusto},

title = {{Streamflow variability in Colombian pacific basins and their teleconnections with climate indices}},

journal = {Water},

year = {2020},

volume = {12},

number = {2},

issn = {2073-4441},

abstract = {Oceanic-atmospheric phenomena of different time scales concurrently might affect the streamflow in several basins around the world. The Atrato River Basin (ARB) and Patía River Basin (PRB) of the Colombian Pacific region are examples of such basins. Nevertheless, the relations between the streamflows in the ARB and PRB and the oceanic-atmospheric factors have not been examined considering different temporal scales. Hence, this article studies the relations of the climate indices and the variability of the streamflows in the ARB and PRB at interannual and decadal timescales. To this, the streamflow variability modes were obtained from the principal component analysis (PCA); furthermore, their linear dependence with indices of the El Niño/Southern Oscillation (ENSO), precipitation (PRP), the Choco low-level jet (CJ), and other indices were quantified through (a) Pearson and Kendall’s tau correlations, and (b) wavelet transform. The PCA presented a single significant mode for each basin, with an explained variance of around 80%. The correlation analyses between the PC1s of the ARB and PRB, and the climate indices showed significant positive (negative) high correlations with PRP, CJ, and Southern Oscillation Index (SOI) (ENSO indices). The wavelet coherence analysis showed significant coherencies between ENSO and ARB: at interannual (2–7 years) and decadal-scale (8–14), preferably with the sea surface temperature (SST) in the east and west Tropical Pacific Ocean (TPO). For PRB with the SST in the central and western regions of the TPO in the interannual (4–8 years) and decadal (8–14 years) scales, the decreases (increases) in streamflow precede the El Niño (La Niña) events. These results indicate multiscale relations between the basins’ streamflow and climate phenomena not documented in previous works, relevant to forecast the extreme flow events in the Colombian Pacific rivers and for planning and implementing strategies for the sustainable use of water resources in the basins studied.},

article-number = {526},

doi = {https://doi.org/10.3390/w12020526},

url = {https://www.mdpi.com/2073-4441/12/2/526},

}