Seasonality, Intensity, and Duration of Rainfall Extremes Change in a Warmer Climate

Section 1: Publication

Publication Type

Authorship

Moustakis, Y., Papalexiou, S. M., Onof, C. J., & Paschalis, A.

Title

Seasonality, Intensity, and Duration of Rainfall Extremes Change in a Warmer Climate

Year

2021

Publication Outlet

Earth's Future, 9(3)

DOI

https://doi.org/10.1029/2020EF001824

ISBN

ISSN

Citation

Moustakis, Y., Papalexiou, S. M., Onof, C. J., & Paschalis, A. (2021). Seasonality, Intensity, and Duration of Rainfall Extremes Change in a Warmer Climate. Earth's Future, 9(3). https://doi.org/10.1029/2020EF001824

Abstract

Precipitation extremes are expected to intensify under climate change with consequent impacts in flooding and ecosystem functioning. Here we use station data and high-resolution simulations from the WRF convection permitting climate model (∼4 km, 1 h) over the US to assess future changes in hourly precipitation extremes. It is demonstrated that hourly precipitation extremes and storm depths are expected to intensify under climate change and what is now a 20-year rainfall will become a 7-year rainfall on average for ∼ 75% of gridpoints over the US. This intensification is mostly expressed as an increase in rainfall tail heaviness. Statistically significant changes in the seasonality and duration of rainfall extremes are also exhibited over ∼ 95% of the domain. Our results suggest more non-linear future precipitation extremes with shorter spell duration that are distributed more uniformly throughout the year.

Plain Language Summary

Section 2: Additional Information

Program Affiliations

GWF: Global Water Futures

Project Affiliations

GWF-Paradigm Shift in Downscaling Climate Model Projections

Submitters

Name	Role	Email	Institution

Publication Stage

Theme

Presentation Format

Additional Information

Paradigm Shift