Abstract
The phase of the El Niño Southern Oscillation (ENSO) has large-ranging effects on streamflow and hydrologic conditions globally. While many studies have evaluated this relationship through correlation analysis between annual streamflow and ENSO indices, an assessment of potential asymmetric relationships between ENSO and streamflow is lacking. Here, we evaluate seasonal variations in streamflow by ENSO phase to identify asymmetric (AR) and symmetric (SR) spatial pattern responses globally and further corroborate with local precipitation and hydrological condition. The AR and SR patterns between seasonal precipitation and streamflow are identified at many locations for the first time. Our results identify strong SR patterns in particular regions including northwestern and southern US, northeastern and southeastern South America, northeastern and southern Africa, southwestern Europe, and central-south Russia. The seasonally lagged anomalous streamflow patterns are also identified and attributed to snowmelt, soil moisture, and/or cumulative hydrological processes across river basins. These findings may be useful in water resources management and natural hazards planning by better characterizing the propensity of flood or drought conditions by ENSO phase.
Highlights
Over the past decades, the El Niño Southern Oscillation (ENSO) has been classified as the most important determinant of variability in global precipitation [1–6]
The seasonally lagged anomalous streamflow patterns are identified and attributed to snowmelt, soil moisture, and/or cumulative hydrological processes across river basins. These findings may be useful in water resources management and natural hazards planning by better characterizing the propensity of flood or drought conditions by El Niñ o Southern Oscillation (ENSO) phase
There are no regions for which both ENSO phases fall into either the BN or AN category for seasonal streamflow
Summary
The El Niño Southern Oscillation (ENSO) has been classified as the most important determinant of variability in global precipitation [1–6]. Relationships between fluctuations in global streamflow and ENSO indices have been evaluated using correlation and regression analyses [8–10, 12, 13] These correlations and regressed tendencies between streamflow and past or concurrent ENSO phase (or indices) provide useful information about typical ENSO impacts on water resources, assuming a symmetric (linear) teleconnection between ENSO variability (e.g. high-flow in El Niño and low-flow in La Niña). This assumption of linearity is a prevalent view of the global climatic response associated with ENSO, in tropical locations [15]. The ENSO-climate relationships are asymmetric or non-linearly teleconnected between ENSO phases [16–18]
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