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Diversity of nitrite reductase genes (nirS) in the denitrifying water column of the coastal Arabian Sea

DRS at CSIR-National Institute of Oceanography

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Title Diversity of nitrite reductase genes (nirS) in the denitrifying water column of the coastal Arabian Sea
 
Creator Jayakumar, D.A.
Francis, C.A.
Naqvi, S.W.A.
Ward, B.B.
 
Subject water column
denitrification
reduction
nitrites
nitrogen cycle
DNA
genes
 
Description Denitrification often occurs in the water column, underlying zones of intense productivity and decomposition in upwelling regions. In the denitrifying zone off the southwest coast of India, high concentrations of nitrite (greater than 15 mu M) and nitrous oxide (greater than 500 nM) have been reported near the sediment-water interface (less than 80 m). The chemical and molecular indicators of denitrification along the southwest coast of India during the southwest monsoon season of October 2001 are investigated. Nitrite reduction to nitric oxide is the key step in the denitrification pathway, and is catalyzed by the enzyme nitrite reductase, which is encoded by the genes nirS and nirK. The diversity and distribution of nirS genes in relation to nitrite and nitrate distribution in the Arabian Sea coastal denitrifying region are reported. Phylogenetic analysis grouped 132 nirS Arabian Sea sequences into 12 major clusters. Most of the nirS sequences from the coastal water column did not show a high level of identity with other nirS sequences previously reported from marine and estuarine sediments. Identities of the Arabian Sea sequences to those in the public database ranged from 44 to 99% at the amino acid level. The dominant sequence type from 1 surface sample showed 99% identity to the nirS sequence of the cultivated denitrifier Pseudomonas aeruginosa. Rarefaction analysis, based on both sequence and RFLP data, indicated the highest diversity in a sample in which relatively high nitrite concentrations implied the presence of active denitrification, and the lowest diversity in a surface sample where nitrite was undetectable, suggesting a link between functional diversity and ecosystem chemistry.
 
Date 2008-07-02T04:51:46Z
2008-07-02T04:51:46Z
2004
 
Type Journal Article
 
Identifier Aquatic Microbial Ecology, Vol.34; 69-78p.
http://drs.nio.org/drs/handle/2264/1110
 
Language en
 
Rights Copyright [2004]. It is tried to respect the rights of the copyright holders to the best of the knowledge. If it is brought to our notice that the rights are violated then the item would be withdrawn.
 
Publisher Inter-Research