Data_Sheet_1_Emerging Skill in Multi-Year Prediction of the Indian Ocean Dipole.pdf

The Indian Ocean Dipole is a leading phenomenon of climate variability in the tropics, which affects the global climate. However, the best lead prediction skill for the Indian Ocean Dipole, until recently, has been limited to ~6 months before the occurrence of the event. Here, we show that multi-yea...

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Bibliographic Details
Main Authors: F. Feba (11484619), Karumuri Ashok (10800888), Matthew Collins (279524), Satish R. Shetye (11484622)
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Climate Science
Climate Change Processes
Climatology (excl. Climate Change Processes)
Carbon Sequestration Science
Indian Ocean (Dipole)
decadal prediction
CanCM4
MIROC5
Southern Ocean
IOD and Southern Ocean
Antarctic Circumpolar Current (ACC)
decadal prediction in tropics
Antarctic
Indian
Antarc*
Online Access:https://doi.org/10.3389/fclim.2021.736759.s001
Description
Summary:The Indian Ocean Dipole is a leading phenomenon of climate variability in the tropics, which affects the global climate. However, the best lead prediction skill for the Indian Ocean Dipole, until recently, has been limited to ~6 months before the occurrence of the event. Here, we show that multi-year prediction has made considerable advancement such that, for the first time, two general circulation models have significant prediction skills for the Indian Ocean Dipole for at least 2 years after initialization. This skill is present despite ENSO having a lead prediction skill of only 1 year. Our analysis of observed/reanalyzed ocean datasets shows that the source of this multi-year predictability lies in sub-surface signals that propagate from the Southern Ocean into the Indian Ocean. Prediction skill for a prominent climate driver like the Indian Ocean Dipole has wide-ranging benefits for climate science and society.

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