Litcius/Paper detail

Climatic Asynchrony and Hydrologic Inefficiency Explain the Global Pattern of Water Availability

James W. Jawitz, Harald Klammler, Nathan Reaver

2022Geophysical Research Letters11 citationsDOIOpen Access PDF

Abstract

Abstract The mechanisms underlying observed global patterns of partitioning precipitation ( ) to evapotranspiration ( ) and runoff ( ) are controversially debated. We test the hypothesis that asynchrony between climatic water supply and demand is sufficient to explain spatio‐temporal variability of water availability. We developed a simple analytical model for that is determined by four dimensionless characteristics of intra‐annual water supply and demand asynchrony. The analytical model, populated with gridded climate data, accurately predicted global runoff patterns within 2%–4% of independent estimates from global climate models, with spatial patterns closely correlated to observations ( ). The supply‐demand asynchrony hypothesis provides a physically based explanation for variability of water availability using easily measurable characteristics of climate. The model revealed widespread responsiveness of water budgets to changes in climate asynchrony in almost every global region. Furthermore, the analytical model using global averages independently reproduced the Budyko curve ( ) providing theoretical foundation for this widely used empirical relationship.

Topics & Concepts

Asynchrony (computer programming)Environmental sciencePrecipitationEvapotranspirationSurface runoffClimatologyClimate changeClimate modelWater resourcesAtmospheric sciencesEconometricsMeteorologyComputer scienceMathematicsGeographyEcologyGeologyAsynchronous communicationBiologyComputer networkClimate variability and modelsHydrology and Watershed Management StudiesWater resources management and optimization