El Nino modulations over the past seven centuries

TitleEl Nino modulations over the past seven centuries
Publication TypeJournal Article
Year of Publication2013
AuthorsLi J.B, Xie SP, Cook E.R, Morales M.S, Christie D.A, Johnson N.C, Chen F.H, D'Arrigo R., Fowler A.M, Gou X.H, Fang K.Y
JournalNature Climate Change
Volume3
Pagination822-826
Date Published2013/09
Type of ArticleArticle
ISBN Number1758-678X
Accession NumberWOS:000326816100021
Keywordsclimate; enso; interdecadal modulation; millennium; ocean; oscillation; signal; temperatures; tropical pacific; variability
Abstract

Predicting how the El Nino/Southern Oscillation (ENSO) will change with global warming is of enormous importance to society(1-4). ENSO exhibits considerable natural variability at interdecadal-centennial timescales(5). Instrumental records are too short to determine whether ENSO has changed(6) and existing reconstructions are often developed without adequate tropical records. Here we present a seven-century-long ENSO reconstruction based on 2,222 tree-ring chronologies from both the tropics and mid-latitudes in both hemispheres. The inclusion of tropical records enables us to achieve unprecedented accuracy, as attested by high correlations with equatorial Pacific corals(7,8) and coherent modulation of global teleconnections that are consistent with an independent Northern Hemisphere temperature reconstruction(9). Our data indicate that ENSO activity in the late twentieth century was anomalously high over the past seven centuries, suggestive of a response to continuing global warming. Climate models disagree on the ENSO response to global warming(3,4), suggesting that many models underestimate the sensitivity to radiative perturbations. Illustrating the radiative effect, our reconstruction reveals a robust ENSO response to large tropical eruptions, with anomalous cooling in the east-central tropical Pacific in the year of eruption, followed by anomalous warming one year after. Our observations provide crucial constraints for improving climate models and their future projections.

DOI10.1038/nclimate1936
Short TitleNat. Clim. Chang.
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