Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
Rapid transitions between extreme wet and extreme dry conditions — ‘hydroclimate whiplash’ — have marked environmental and societal impacts. This Review outlines observed and projected changes in hydroclimate whiplash, suggesting that subseasonal and interannual volatility will increase markedly with ongoing warming.
In 2024, Southern California experienced an exceptional episode of wet-to-dry hydroclimate whiplash. Very wet conditions in winters of 2023 and 2024 gave way to a record-dry start to 2025 wet season (with periods of record warmth and evaporative demand in between). #CAwx #CAfire
Daniel Swain