Abstract
AbstractThere is a strong association between canonical El Niño and a wet Greater Horn of Africa (GHA) short rains. However, the link with Modoki El Niño events appears to be significantly weaker. In order to understand this, we present an analysis of observational data and idealised climate model experiments. Idealised atmospheric simulations isolate the direct influence of Pacific heating on the GHA and reveal that neither the longitudinal position nor the observed weaker magnitude of Modoki Pacific heating anomalies can explain the difference in teleconnections. The direct effect of canonical or Modoki Pacific heating patterns on the GHA is similar and neither reproduces the structure of the full GHA teleconnection: they both generate a wet‐dry dipole over the GHA instead of large‐scale single‐signed wet anomalies. Our results indicate that the strong canonical ENSO influence on GHA is indirect, mediated through its strong relationship with the Indian Ocean Dipole (IOD). By contrast, Modoki ENSO is uncorrelated with the IOD, resulting in weak teleconnection to GHA. Understanding these differences aids seasonal forecast interpretation, whilst their representation in models is likely a prerequisite for making accurate projections of changes in extremes over the GHA and beyond.
Highlights
The climate of the Greater Horn of Africa (GHA) is highly variable and the region is frequently affected by significant large scale seasonal flooding and drought (Mwangi et al, 2013; Kilavi et al, 2018)
This suggests that there is a direct link between the Pacific and GHA unmediated by the Indian Ocean; that the link
Precipitation anomalies over GHA during the short rains are linked to the Indian Ocean Walker Circulation (IOWC) and the impact of EP and CP experiments on the upper and lower branches of the IOWC is minimal (Figures S2 and S3)
Summary
The climate of the Greater Horn of Africa (GHA) is highly variable and the region is frequently affected by significant large scale seasonal flooding and drought (Mwangi et al, 2013; Kilavi et al, 2018). For Modoki warming, the simulated (CPEN) and observed precipitation responses are more similar, with wet anomalies over the Indian Ocean and coast of GHA and a dry signal seen inland (Figures 3b,f).
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