Author
Listed:
- Michael Deininger
(Johannes Gutenberg University Mainz)
- Frank McDermott
(University College Dublin)
- Francisco W. Cruz
(Universidade de São Paulo)
- Juan Pablo Bernal
(Universidad Nacional Autónoma de México, Campus UNAM –Juriquilla)
- Manfred Mudelsee
(Climate Risk Analysis
Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research)
- Hubert Vonhof
(Max-Planck-Institute for Chemistry)
- Christian Millo
(Universidade de São Paulo)
- Christoph Spötl
(University of Innsbruck)
- Pauline C. Treble
(UNSW Sydney
ANSTO)
- Robyn Pickering
(University of Cape Town
University of Cape Town)
- Denis Scholz
(Johannes Gutenberg University Mainz)
Abstract
Atmospheric circulation is a fundamental component of Earth’s climate system, transporting energy poleward to partially offset the latitudinal imbalance in insolation. Changes in the latitudinal distribution of insolation thus force variations in atmospheric circulation, in turn altering regional hydroclimates. Here we demonstrate that regional hydroclimates controlled by the Northern Hemisphere mid-latitude storm tracks and the African and South American Monsoons changed synchronously during the last 10 kyrs. We argue that these regional hydroclimate variations are connected and reflect the adjustment of the atmospheric poleward energy transport to the evolving differential heating of the Northern and Southern Hemispheres. These results indicate that changes in latitudinal insolation gradients and associated variations in latitudinal temperature gradients exert important control on atmospheric circulation and regional hydroclimates. Since the current episode of global warming strongly affects latitudinal temperature gradients through Arctic amplification, our results can inform projections of likely inter-hemispheric precipitation changes in the future.
Suggested Citation
Michael Deininger & Frank McDermott & Francisco W. Cruz & Juan Pablo Bernal & Manfred Mudelsee & Hubert Vonhof & Christian Millo & Christoph Spötl & Pauline C. Treble & Robyn Pickering & Denis Scholz, 2020.
"Inter-hemispheric synchroneity of Holocene precipitation anomalies controlled by Earth’s latitudinal insolation gradients,"
Nature Communications, Nature, vol. 11(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19021-3
DOI: 10.1038/s41467-020-19021-3
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