Palaeoclimate perspectives on the Indian Ocean Dipole
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Abstract
The Indian Ocean Dipole (IOD) has major climate impacts worldwide, and most profoundly for nations around the Indian Ocean basin. It has been 20 years since the IOD was first formally defined and research since that time has focused primarily on examining IOD dynamics, trends and impacts in observational records and in model simulations. However, considerable uncertainty exists due to the brevity of reliable instrumental data for the Indian Ocean basin and also due to known biases in model representations of tropical Indian Ocean climate. Consequently, the recent Intergovernmental Panel on Climate Change (IPCC) report on the Ocean and Cryosphere in a Changing Climate (SROCC) concluded that there was only low confidence in projections of a future increase in the strength and frequency of positive IOD events. \n \nThis review examines the additional perspectives that palaeoclimate evidence provides on IOD trends, \nvariability, interactions with the El Nino~ eSouthern Oscillation (ENSO), and impacts. Palaeoclimate data \nshow that recent trends towards more frequent and intense positive IOD events have been accompanied \nby a mean shift toward a more positive IOD-like mean zonal SST gradient across the equatorial Indian \nOcean (due to enhanced warming in the west relative to the east). The increasing frequency of positive \nIOD events will imminently move outside of the range of natural variability in the last millennium if \nprojected trends continue. Across a range of past climate states, periods of a mean positive IOD-like state \nin the Indian Ocean have been accompanied by elevated IOD variability. This includes events that exceed \nthe magnitude of even the strongest measured historical events, demonstrating that the Indian Ocean \ncan harbour even stronger variability than what has been observed to date. During the last millennium \nthere has been a tight coupling between the magnitude of interannual IOD and ENSO variability, \nalthough positive IOD events have frequently occurred without any indication of a co-occurring El Nino~ \nevent. This IODeENSO coupling may not have persisted across past climates that were very different \nfrom the present, raising questions of whether their interaction will change in a rapidly warming future. \nPalaeoclimate evidence for hydroclimate changes during the last millennium further points to the \nimportance of interannual IOD and ENSO variability in providing the rainfall that breaks droughts in \nregions that are impacted by these modes of variability. Overall, this review highlights the rich insights \ninto the IOD that can be gained from palaeoclimate evidence. Palaeoclimate data helps to overcome \nknown limitations in observations and model simulations of the IOD, and demonstrates that strong \nconclusions about the IOD and its impacts can be reached when the evidence for past, present and future \nbehaviour of the IOD are assessed together.