Past summer upwelling events in the Gulf of Oman derived from a coral geochemical record

We used a high-resolution oxygen isotope (δ¹⁸O_coral), carbon isotope (δ¹³C_coral) and Sr/Ca ratios measured in the skeleton of a reef-building coral, Porites sp., to reveal seasonal-scale upwelling events and their interannual variability in the Gulf of Oman. Our δ¹³C_coral record shows sharp negative excursions in the summer, which correlate with known upwelling events. Using δ¹³C_coral anomalies as a proxy for upwelling, we found 17 summer upwelling events occurred in the last 26 years. These anomalous negative excursions of δ¹³C_coral result from upwelled water depleted in ¹³C (dissolved inorganic carbon) and decreased water-column transparency. We reconstructed biweekly SSTs from coral Sr/Ca ratios and the oxygen isotopic composition of seawater (δ¹⁸O_SW) by subtracting the reconstructed Sr/Ca-SST from δ¹⁸O_coral. Significant δ¹⁸O_SW anomalies occur during major upwelling events. Our results suggest δ¹³C_coral anomalies can be used as a proxy for seasonal upwelling intensity in the Gulf of Oman, which, driven by the Indian/Arabian Summer Monsoon, is subject to interannual variability.