Abstract
Seasonal rainfall in the Caribbean Basin is known to be modulated by sea surface temperature anomalies (SSTAs) in the Atlantic and Pacific Oceans, and particularly those in the Equatorial Pacific and Atlantic and the Tropical North Atlantic. However, little is known about how these major oceans influence the seasonal precipitation of individual small island states within the region as climate variability at the island-scale may differ from the Caribbean as a whole. Correlation and composite analyses were determined using monthly rainfall data for the southernmost island of the Caribbean, Trinidad, and an extended area of global SSTAs. In addition to the subregions that are known to modulate Caribbean rainfall, our analyses show that sea surface temperatures (SSTs) located in the subtropical South Pacific, the South Atlantic, and the Gulf of Mexico also have weak (r2 < 0.5) yet significant influences on the islands’ early rainy season (ERS) and late rainy season (LRS) precipitation. Composite maps confirm that the South Pacific, South Atlantic, and the Gulf of Mexico show significant SSTAs in December–January–February (DJF) and March–April–May (MAM) prior to the ERS and the LRS. Statistical models for seasonal forecasting of rainfall at the island scale could be improved by using the SSTAs of the Pacific and Atlantic subregions identified in this study.
Highlights
Seasonal rainfall is critical to the agriculture sector and economy of Caribbean islands that import a high proportion of their food [1,2]
We find that correlations between monthly sea surface temperature anomalies (SSTAs) and monthly precipitation anomaly (PPTA) range from −0.20 to +0.15, and correlations between seasonal SSTAs and seasonal
We investigated the influence of the Atlantic and Pacific Oceans on seasonal precipitation observed in the southernmost island of the Caribbean, Trinidad, and compared the results obtained for this single island with those of the entire Caribbean Basin
Summary
Seasonal rainfall is critical to the agriculture sector and economy of Caribbean islands that import a high proportion of their food [1,2]. When domestic food production is disrupted by above-normal or below-normal rainfall [3,4], in drought or floods, food imports are increased to compensate for the loss of crops, thereby introducing a strain in islands with limited financial resources and imposing competition between famers and imported products [5]. Statistical predictions are corroborated with probabilistic forecasts from atmosphere–ocean general circulation models (AOGCMs) through the Climate Predictability Tool [7], and drought forecasts are provided three months in advance for several Caribbean subregions [8].
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