Climate change impact on short-duration extreme precipitation and intensity–duration–frequency curves over Europe

  title={Climate change impact on short-duration extreme precipitation and intensity–duration–frequency curves over Europe},
  author={Parisa Hosseinzadehtalaei and Hossein Tabari and Patrick Willems},
  journal={Journal of Hydrology},

Changing Pattern of Intensity–Duration–Frequency Relationship of Precipitation due to Climate Change

Intensification of hydrologic cycle, and consequence rise of intense short-term precipitation, are considered as the manifestations of climate change. This may lead to an alteration in

Potential Impacts of Future Extreme Precipitation Changes on Flood Engineering Design Across the Contiguous United States

The intensification of extreme precipitation in a warming climate is expected to increase flood risk. In order to support flood resilience efforts, it is important to anticipate and quantify

Comparison of statistical downscaling methods for climate change impact analysis on precipitation-driven drought

Abstract. General circulation models (GCMs) are the primary tools for evaluating the possible impacts of climate change; however, their results are coarse in temporal and spatial dimensions. In

Disaggregation of future GCMs to generate IDF curves for the assessment of urban floods

  • H. TayşiM. Özger
  • Engineering, Environmental Science
    Journal of Water and Climate Change
  • 2021
Urbanization and industrialization cause an increase in greenhouse gas emissions, which in turn causes changes in the atmosphere. Climate change is causing extreme rainfalls and these rainfalls are

Spatial and temporal scaling of sub-daily extreme rainfall for data sparse places

Global efforts to upgrade water, drainage, and sanitation services are hampered by hydrometeorological data-scarcity plus uncertainty about climate change. Intensity–duration–frequency (IDF) tables

Assessment of climate change impact on temperature extremes in a tropical region with the climate projections from CMIP6 model

The global mean surface temperature is rising and under climate change it is expected to increase in the future. The changes are not uniform across the world and the impact assessment at a regional

Event-Based Time Distribution Patterns, Return Levels, and Their Trends of Extreme Precipitation across Indus Basin

This study presented the spatio-temporal characteristics of extreme precipitation events in the Northern Highlands of Pakistan (NHPK). Daily precipitation observations of 30 in situ meteorological



Quantifying Changes in Future Intensity‐Duration‐Frequency Curves Using Multimodel Ensemble Simulations

During the last century, we have observed a warming climate with more intense precipitation extremes in some regions, likely due to increases in the atmosphere's water holding capacity.

Increasing frequencies and changing characteristics of heavy precipitation events threatening infrastructure in Europe under climate change

Abstract. The effect of climate change on potentially infrastructure-damaging heavy precipitation events in Europe is investigated in an ensemble of regional climate simulations conducted at a

Constructing short‐duration IDF curves using coupled dynamical–statistical approach to assess climate change impacts

This study demonstrates a methodology to construct short‐duration rainfall intensity–duration–frequency (IDF) curves and to quantify the variability in the rainfall intensities for different return

Projected intensification of sub-daily and daily rainfall extremes in convection-permitting climate model simulations over North America: implications for future intensity–duration–frequency curves

Abstract. Convection-permitting climate models have been recommended for use in projecting future changes in local-scale, short-duration rainfall extremes that are of the greatest relevance to

Local impact analysis of climate change on precipitation extremes: are high-resolution climate models needed for realistic simulations?

Abstract. This study explores whether climate models with higher spatial resolutions provide higher accuracy for precipitation simulations and/or different climate change signals. The outputs from

Regionalization of anthropogenically forced changes in 3 hourly extreme precipitation over Europe

Future extreme precipitation events are expected to be influenced by climate change; however, the robustness of this anthropogenically forced response in respect to projection uncertainty especially

Projected increases in intensity and frequency of rainfall extremes through a regional climate modeling approach

Global warming is changing the hydrological cycle in multiple ways such as increased cloudiness, latent heat fluxes, and intense precipitation events. How extreme rainfall events will be influenced