Anion-Mediated Salinity Affecting Methane Production in a Flooded Alluvial Soil

In a laboratory incubation study, effects of amendment with sodium salts of SO₄ ^2?, Cl^? and HCO₃ ^? either singly or as a mixture on CH₄ production in a nonsaline alluvial soil under flooded condition were investigated. Methane production was considerable in the unamended alluvial soil, but was significantly inhibited following amendment with salts of different anions to raise the pore water EC to 8 dS·m^?1. SO₄ ^2? was the most inhibitory to CH₄ production and the degree of inhibition followed the order SO₄ ^2? > salt mixture > HCO₃ ^? > Cl^?. Salt amendment did not adversely affect soil microbial activities as expressed in terms of soil redox potential (Eh) and soil pH. However, readily mineralizable carbon content, an indicator of substrate availability for methanogenic bacteria, differed significantly among the treatments. Most probable number estimates indicated that acetotrophic methanogenic bacterial population was lowest in Cl^?-amended soils followed by SO₄ ^2?-amendment with little or no changes in HCO₃ ^?-amended soils. The data suggested that the inhibition in methanogenesis in saline soils rich in sulphate as in coastal saline soils could be due to competitive inhibition of methanogens, while in inland soils, Cl^? content could be a deciding factor.