Contrasting Impact of Viral Activity on Prokaryotic Populations in the Coastal and Offshore Regions of the Eastern Arabian Sea

Viral processes in the coastal and offshore regions of the Eastern Arabian Sea (west coast of India) and their contribution of viral lysis to the organic carbon and nitrogen pool was examined. Water samples were collected during the southwest monsoon season at different depths (up to 1000 m) from four transects, with each transect consisting of two sampling points (S1-S8). Abundances of viruses and prokaryotes together with viral mediated prokaryotic mortality (up to 49.7%) were significantly (p < 0.001) higher in eutrophic coastal stations, whereas high percent lysogeny (up to 93%) was observed in the offshore regions. High viral-mediated carbon (Mean +/- SD = 67.47 +/- 2.0 mu M C L-1 d(-1)) and nitrogen (Mean +/- SD = 13.49 +/- 14.0 mu M N L-1 d(-1)) release was evident in the surface coastal waters compared to offshore regions. The percentage contributions of carbon and nitrogen released by viral lysis to the total dissolved organic carbon and nitrogen pool were estimated to be 7.4% and 3.9%, respectively, in the coastal surface waters. Our findings suggest that the contribution of viral lysis to DOM production through viral shunt could be crucial for the cycling of major biogeochemical elements and functioning of the studied tropical ecosystem.

Automated summary

This study examined viral processes in the coastal and offshore regions of the Eastern Arabian Sea (west coast of India) and their contribution to the organic carbon and nitrogen pool. The results showed higher abundances of viruses and prokaryotes, as well as viral mediated prokaryotic mortality in eutrophic coastal stations compared to offshore regions. Additionally, high viral-mediated carbon and nitrogen release was observed in the surface coastal waters. The study estimated that viral lysis contributed 7.4% and 3.9% to the total dissolved organic carbon and nitrogen pool, respectively, in the coastal surface waters.