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How Do Volcanic Eruptions Influence Decadal Megadroughts over Eastern China?

Liang Ning, Kefan Chen, Jian Liu, Zhengyu Liu, Mi Yan, Weiyi Sun, Chunhan Jin, Zhengguo Shi

2020Journal of Climate27 citationsDOI

Abstract

Abstract The influence and mechanism of volcanic eruptions on decadal megadroughts over eastern China during the last millennium were investigated using a control (CTRL) and five volcanic eruption sensitivity experiments (VOLC) from the Community Earth System Model (CESM) Last Millennium Ensemble (LME) archive. The decadal megadroughts associated with the failures of the East Asian summer monsoon (EASM) are associated with a meridional tripole of sea surface temperature anomalies (SSTAs) in the western Pacific from the equator to high latitudes, suggestive of a decadal-scale internal mode of variability that emerges from empirical orthogonal function (EOF) analysis. Composite analyses further showed that, on interannual time scales, within a decade after an eruption the megadrought was first enhanced but then weakened, due to the change from an El Niño state to a La Niña state. The impacts of volcanic eruptions on the magnitudes of megadroughts are superposed on internal variability. Therefore, the evolution of decadal megadroughts coinciding with strong volcanic eruptions demonstrate that the impacts of internal variability and external forcing can combine to influence hydroclimate.

Topics & Concepts

VolcanoEmpirical orthogonal functionsClimatologyGeologyForcing (mathematics)EquatorPacific decadal oscillationAnomaly (physics)Middle latitudesLatitudeVulcanian eruptionSea surface temperatureEnvironmental scienceSeismologyPhysicsGeodesyCondensed matter physicsClimate variability and modelsGeology and Paleoclimatology ResearchTree-ring climate responses
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