Bacterial and archaeal communities in deep sea waters near the Ninetyeast Ridge in Indian Ocean

Depth-dependent distribution patterns of bacterial and archaeal communities in deep sea water column around the Ninetyeast Ridge in the Indian Ocean were investigated using 16S rRNA gene profiling. Sampling was conducted at the northern Ninetyeast Ridge (1°59.89′N–9°59.70′S, 87°58.90′E–88°00.03′E) from September to November 2016 where samples were collected from the bathyal (1 000 m) to bathypelagic depths (>4 000 m) in four different stations. A total of 1 565 405 clean data falling into 6 712 bacterial OTUs and 1 452 727 clean data falling into 806 archaeal OTUs based on 97% similarity level were analyzed. Most of the bacterial 16S rRNA gene sequences were affiliated with Gammaproteobacteria, followed by Alphaproteobacteria and Bacteroidia. The archaeal 16S rRNA gene sequences mostly affiliated to Nitrososphaeria (Thaumarchaeota) dominated with relative abundances ranging from 52.68% to 97.2%, followed by Thermoplasmata (Euryarchaeota). Vertical partitioning of bacterial and archaeal communities among different water layers was observed. Canonical correspondence analysis (CCA) and Spearman’s correlations revealed that depth (P=0.003), dissolved oxygen (P=0.019), and nitrite (P=0.033) were the main environmental factors affecting bacterial community structure at genus level in the Ninetyeast Ridge. On the other hand, the first two CCA axes accounted for 74.4% of the explained total variance, it seems that the archaeal communities at genus level were heavily influenced by the environmental variables including depth, dissolved oxygen (DO), nitrite, salinity, phosphate, ammonia, nitrate, and silicate, but none of them exhibited any significant correlation on the structuring (P>0.1).