IOD-ENSO interaction with natural coccolithophore assemblages in the tropical eastern Indian Ocean

Abstract

Coccolithophores, a calcifying phytoplankton group, are a major component of the oligotrophic ocean. The tropical eastern Indian Ocean (EIO) possesses a complex regional hydrological system that also impacts the global climate. Coccolithophores are a major indicator of these oceanographic and air-sea processes. Understanding coccolithophore population dynamics associated with extreme climate events is significant for predicting future ocean biogeochemical studies, and contributing to the regional and global climatic model. Therefore, we used a consecutive 7 years (2011–2018) dataset of coccolithophore assemblages and their organic carbon biomass from the tropical EIO during the spring premonsoon period to interpret the aforementioned climatic changes. Among the 33 identified species, the ecologically important species Gephyrocapsa oceanica, Emiliania huxleyi, Algirosphaera robusta, Florisphaera profunda, Umbilicosphaera sibogae, and Umbellosphaera irregularis dominated the coccolithophore assemblages. In the EIO, regional environmental factors including high-level eddy kinetic energy, equatorial jets and upwelling lead to the patchy distribution of surface coccolithophores, but no signs of interannual spatial variations were observed. Furthermore, this study revealed that variability in euphotic coccolithophore abundance and diversity indices were correlated with global climate anomalies. The variations in the interannual coccolithophore abundance and estimated coccolithophore organic carbon could be a result of global warming and other climatic variabilities. Particularly, an apparent increase in coccolithophore abundance was observed during El Niño and positive Indian Ocean Dipole (IOD) events due to their favorable thermal regimes. In contrast, the abundance of coccolithophores reduced during La Niña and negative IOD events. Overall, our pilot findings would encourage further studies on coccolithophore responses to regional EIO environments and global climatic anomalies.