Impact of anthropogenic warming on emergence of extreme precipitation over global land monsoon area

Moon, Suyeon; Ha, Kyung-Ja; Lee, Sun-Seon

doi:10.1088/1748-9326/ad2890

Environ. Res. Lett.

2024

DOI: 10.1088/1748-9326/ad2890

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Impact of anthropogenic warming on emergence of extreme precipitation over global land monsoon area

Suyeon Moon,

Kyung-Ja Ha,

Sun-Seon Lee

Abstract: Human activities have led to a global temperature increase, and the primary objective of the Paris Agreement is to limit this rise to 1.5℃ of warming level. Understanding the impact of global warming beyond preindustrial conditions on precipitation intensity is crucial for devising effective adaptation and mitigation strategies, particularly in densely populated global land monsoon (GLM) regions. However, the time of emergence (ToE) of extreme summer monsoon precipitation and its dependency on global warming t… Show more

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Cited by 3 publications

References 57 publications

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A Critical Evaluation and Future Projection of Extreme Precipitation Over South Korea in Observation-Based Products and a High-Resolution Model Simulation

Franzke,

Yang,

Son

et al. 2024

Asia-Pac J Atmos Sci

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A Critical Evaluation and Future Projection of Extreme Precipitation Over South Korea in Observation-Based Products and a High-Resolution Model Simulation

Franzke,

Yang,

Son

et al. 2024

Asia-Pac J Atmos Sci

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CloudSwinNet: A hybrid CNN-transformer framework for ground-based cloud images fine-grained segmentation

Shi,

Su,

Zhang

et al. 2024

Energy

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How fast is the frequency of precipitation extremes doubling in global land regions?

Chagnaud,

Blanchet,

Evin

et al. 2024

Environ. Res. Commun.

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The increasing frequency and intensity of precipitation extremes poses a serious challenge for societies that must adapt to a changing climate. Communicating these changes in terms of their magnitude at a given lead time (e.g., 2100) or at a given level of global warming (e.g., +2◦C) can give the misleading impression that climate change is a distant issue. Yet, adaptation measures to cope with future hydro-climatic conditions may be designed and implemented today. Contextualizing the potential future consequences of precipitation intensification in a current temporal frame of reference may help perceive climate change as an ongoing phenomenon, in turn encouraging adaptation planning.Using an ensemble of Coupled Model Intercomparison Project Phase 6 (CMIP6) models in a non-stationary extreme value framework, we quantify the time it takes for the frequency of 1-day and 7-day extreme precipitation accumulations –as estimated in the current climate– to double; the frequency double time (FDT) is estimated for a range of event rarities over land regions. Vast parts of the Northern Hemisphere extratropics are found to have FDT < 80 years. Substantial parts of some densely populated mid-latitude regions have FDT in the next 5–6 decades for some rare events. The fastest frequency doubling, in the coming two decades, is found in the highly vulnerable tropical regions of Western and South Eastern Africa, with strong implications for hydrological risk management there. In addition, the rarest events are found to have smaller FDT compared to more “common” extremes; infrastructures designed to withstand the strongest events are thus more exposed to premature obsolescence.

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Impact of anthropogenic warming on emergence of extreme precipitation over global land monsoon area

Cited by 3 publications

References 57 publications

A Critical Evaluation and Future Projection of Extreme Precipitation Over South Korea in Observation-Based Products and a High-Resolution Model Simulation

A Critical Evaluation and Future Projection of Extreme Precipitation Over South Korea in Observation-Based Products and a High-Resolution Model Simulation

CloudSwinNet: A hybrid CNN-transformer framework for ground-based cloud images fine-grained segmentation

How fast is the frequency of precipitation extremes doubling in global land regions?

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