The ExtremeX global climate model experiment: investigating thermodynamic and dynamic processes contributing to weather and climate extremes
Abstract The mechanisms leading to the occurrence of extreme weather and climate events are varied and complex. They generally encompass a combination of dynamic and thermodynamic processes, as well as drivers external to the climate system, such as anthropogenic greenhouse gas emissions and land use change. Here we present the ExtremeX multi-model intercomparison experiment, which was designed to investigate the contribution of dynamic and thermodynamic processes to recent weather and climate extremes. The numerical experiments are performed with three Earth system models: CESM, MIROC, and EC-Earth. They include control experiments with interactive atmosphere and land surface conditions, as well as experiments wherein the atmospheric circulation, soil moisture, or both are constrained using observation-based data. The temporal evolution and magnitude of temperature anomalies during heatwaves are well represented in the experiments with a constrained atmosphere. However, the magnitude of mean climatological biases in temperature and precipitation are not greatly reduced in any of the constrained experiments due to persistent or newly introduced biases. This highlights the importance of error compensations and tuning in the standard model versions. To show one possible application, ExtremeX is used to identify the main drivers of heatwaves and warm spells. The results reveal that both atmospheric circulation patterns and soil moisture conditions substantially contribute to the occurrence of these events. Soil moisture effects are particularly important in the tropics, the monsoon areas, and the Great Plains of the United States, whereas atmospheric circulation effects are major drivers in other midlatitude and high-latitude regions.
- Standort
-
Deutsche Nationalbibliothek Frankfurt am Main
- Umfang
-
Online-Ressource
- Sprache
-
Englisch
- Erschienen in
-
The ExtremeX global climate model experiment: investigating thermodynamic and dynamic processes contributing to weather and climate extremes ; volume:13 ; number:3 ; year:2022 ; pages:1167-1196 ; extent:30
Earth System Dynamics ; 13, Heft 3 (2022), 1167-1196 (gesamt 30)
- Urheber
-
Wehrli, Kathrin
Luo, Fei
Hauser, Mathias
Shiogama, Hideo
Tokuda, Daisuke
Kim, Hyungjun
Coumou, Dim
May, Wilhelm
Le Sager, Philippe
Selten, Frank
Martius, Olivia
Vautard, Robert
Seneviratne, Sonia I.
- DOI
-
10.5194/esd-13-1167-2022
- URN
-
urn:nbn:de:101:1-2022090105305464146452
- Rechteinformation
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Letzte Aktualisierung
-
15.08.2025, 07:22 MESZ
Datenpartner
Deutsche Nationalbibliothek. Bei Fragen zum Objekt wenden Sie sich bitte an den Datenpartner.
Beteiligte
- Wehrli, Kathrin
- Luo, Fei
- Hauser, Mathias
- Shiogama, Hideo
- Tokuda, Daisuke
- Kim, Hyungjun
- Coumou, Dim
- May, Wilhelm
- Le Sager, Philippe
- Selten, Frank
- Martius, Olivia
- Vautard, Robert
- Seneviratne, Sonia I.
Ähnliche Objekte (12)
The ExtremeX global climate model experiment: Investigating thermodynamic and dynamic processes contributing to weather and climate extremes
A systematic evaluation of copy number alterations detection methods on real SNP array and deep sequencing data
Status and Development of Nuclear Medicine Over One Decade in Beijing
Impact of policy reforms on hospital-at-home services: an interrupted time series analysis of Shanghai
Discovering conditional co-regulated protein complexes by integrating diverse data sources
Self-supervised coarse-to-fine monocular depth estimation using a lightweight attention module
Extreme climate in China
Extreme weather and climate
Regime transitions of Australian climate and climate extremes
Extreme Sensitivity and Climate Tipping Points
Weather Extremes in a Warming Climate
Emerging new climate extremes over Europe
The ExtremeX global climate model experiment: Investigating thermodynamic and dynamic processes contributing to weather and climate extremes
A systematic evaluation of copy number alterations detection methods on real SNP array and deep sequencing data
Status and Development of Nuclear Medicine Over One Decade in Beijing
Impact of policy reforms on hospital-at-home services: an interrupted time series analysis of Shanghai
Discovering conditional co-regulated protein complexes by integrating diverse data sources
Self-supervised coarse-to-fine monocular depth estimation using a lightweight attention module
Extreme climate in China
Extreme weather and climate
Regime transitions of Australian climate and climate extremes
Extreme Sensitivity and Climate Tipping Points
Weather Extremes in a Warming Climate
Emerging new climate extremes over Europe
The ExtremeX global climate model experiment: Investigating thermodynamic and dynamic processes contributing to weather and climate extremes
A systematic evaluation of copy number alterations detection methods on real SNP array and deep sequencing data
Status and Development of Nuclear Medicine Over One Decade in Beijing
Impact of policy reforms on hospital-at-home services: an interrupted time series analysis of Shanghai
Discovering conditional co-regulated protein complexes by integrating diverse data sources
Self-supervised coarse-to-fine monocular depth estimation using a lightweight attention module
Extreme climate in China
Extreme weather and climate
Regime transitions of Australian climate and climate extremes
Extreme Sensitivity and Climate Tipping Points
Weather Extremes in a Warming Climate