Organic carbon dynamics in the continental shelf waters of the eastern Arabian Sea

The seasonal and spatial distribution of total organic carbon (TOC) is presented for the coastal waters of the eastern Arabian Sea, which experiences seasonal suboxia during the late southwest monsoon (SWM). This study reveals that high TOC was observed off Kochi as compared to Goa and Mangalore transects, and may be attributed to stronger upwelling along the Kerala coast. This is also supported by the excess carbon due to upwelling during the late SWM that varied from 37 mu M (Goa), 39 mu M (Mangalore), to 51 mu M (Kochi). Our seasonal data from 2014 to 2020 at the Goa transect indicates that high TOC is seen during late SWM to fall inter monsoon (FIM) and between the late northeast monsoon (NEM) to the early spring inter monsoon (SIM). The high TOC concentrations and C/N ratios observed during the FIM are a combination of high primary production, the buildup of remnant organic matter from the previous season (due to prevailing low oxygen conditions), accumulation of refractory organic carbon, and release from diatoms (especially Chaetoceros sp.). Inter-annual variations indicate that phytoplankton blooms resulted in higher TOC concentrations, especially during the year 2020. Based on a comparison with an Elnino-Southern Oscillation (ENSO) year (2015), we can infer that the partitioning of carbon may increase from particulate to dissolved phase in future warming scenarios.

Automated summary

This study presents the seasonal and spatial distribution of total organic carbon (TOC) in the coastal waters of the eastern Arabian Sea. The results show higher TOC off Kochi compared to Goa and Mangalore, which may be due to stronger upwelling along the Kerala coast. Seasonal data indicate that high TOC is observed during specific periods, and the high concentrations during the fall inter monsoon (FIM) are a combination of various factors.