On the Role of NAO-Driven Interannual Variability in Rainfall Seasonality on Water Resources and Hydrologic Design in a Typical Mediterranean Basin

In the last several decades, extended dry periods have affected the Mediterranean area with dramatic impacts on water resources. Climate models are predicting further warming, with negative effects on water availability. The authors analyze the hydroclimatic tendencies of a typical Mediterranean bas...

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Bibliographic Details
Published in:Journal of hydrometeorology 2018-03, Vol.19 (3), p.485-498
Main Authors: Corona, Roberto, Montaldo, Nicola, Albertson, John D.
Format: Article
Language:English
Subjects:
Annual
Annual precipitation
Annual runoff
Annual variations
Atmospheric forcing
Atmospheric precipitations
Climate change
Climate models
Correlation coefficient
Correlation coefficients
Design criteria
Drought
Dry periods
Global warming
Hydrologic models
Hydrology
Interannual variability
North Atlantic Oscillation
Ocean-atmosphere system
Precipitation
Precipitation and runoff
Rain
Rainfall
Rivers
Runoff
Runoff decrease
Runoff process
Seasonal variations
Seasonality
Stream flow
Surface runoff
Time series
Trends
Water availability
Water management
Water resources
Water resources planning
Winter
Winter precipitation
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Summary:In the last several decades, extended dry periods have affected the Mediterranean area with dramatic impacts on water resources. Climate models are predicting further warming, with negative effects on water availability. The authors analyze the hydroclimatic tendencies of a typical Mediterranean basin, the Flumendosa basin located in Sardinia, an island in the center of the Mediterranean Sea, where in the last 30 years a sequence of dry periods has seriously impacted the water management system. Interestingly, in the historic record the annual runoff reductions have been more pronounced than the annual precipitation reductions. This paper performs an analysis that links this runoff decrease to changes in the total annual precipitation and its seasonal structure. The seasonality is a key determinant of the surface runoff process, as it reflects the degree to which rainfall is concentrated during the winter. The observed reductions in winter precipitation are shown here to be well correlated (Pearson correlation coefficient of −0.5) with the North Atlantic Oscillation (NAO) index. Considering the predictability of the winter NAO, there is by extension an opportunity to predict future winter precipitation and runoff tendencies. The recent hydroclimatic trends are shown to impact hydrologic design criteria for water resources planning. The authors demonstrate that there is a dangerous increase of the drought severity viewed from the perspective of water resources planning.
ISSN:1525-755X
1525-7541
DOI:10.1175/JHM-D-17-0078.1