Litcius/Paper detail

Large volcanic eruptions reduce landfalling tropical cyclone activity: Evidence from tree rings

Jan Altman, Matthias Saurer, Jiří Doležal, Nela Maredová, Jong‐Suk Song, Chang-Hoi Ho, Kerstin Treydte

2021The Science of The Total Environment27 citationsDOIOpen Access PDF

Abstract

Tropical cyclones (TCs) are one of the most devastating storm systems with high socioeconomic impacts around the world. The drivers of long-term changes in TC frequency and intensity, including the recent global climatic changes, are, however, poorly understood due to short instrumental measurements and a lack of accurate proxy records. Here we present the long-term impacts of large volcanic eruptions on TC activity in northeast Asia. For this purpose, we performed a reconstruction of the frequency and intensity of landfalling TCs based on tree-ring oxygen isotope ratios over the past 350 years. Our results revealed markedly depleted δ18O values (P < 0.01) for TC years and confirm tree-ring δ18O as a strong proxy for the detection of past TCs. The agreement between the δ18O chronology and the corresponding TC record (1950–2005) was 96.4% and it was relatively high also for the preceding periods covered by less reliable TC records, specifically 76.1% (1904–1949) and 66.4% (1652–1903). In addition to the prominent TC frequency signal, we found a strong negative correlation (R = −0.65; P < 0.001) between the δ18O chronology and TC intensity expressed by the amount of TC precipitation. Our reconstruction revealed that the recent high frequency of landfalling TCs is distinct on a long-term scale. We provide the first long-term evidence of reduced TC activity for two years following large volcanic eruptions. Our results indicate that volcanic ash is a relevant driver of TC activity over northeast Asia via its role on radiative climate forcing. We suggest that large volcanic eruptions modulate large-scale atmospheric and oceanic circulation determining TC genesis and thus TC activity in the western North Pacific.

Topics & Concepts

Volcanoδ18OTropical cycloneChronologyProxy (statistics)DendrochronologyEnvironmental scienceClimatologyGeologyPrecipitationAtmospheric sciencesPhysical geographyGeographyStable isotope ratioMeteorologyPhysicsSeismologyPaleontologyComputer scienceMachine learningQuantum mechanicsTropical and Extratropical Cyclones ResearchClimate variability and modelsClimate change impacts on agriculture