Dynamics and interrelationships of iron and acidity in hydromorphic rice systems of south western coastal India

A comprehensive understanding of iron (Fe) dynamics in soil acidification processes is crucial for formulating effective and site-specific liming strategies in acid soils. The study investigated the dynamics of Fe fractions, interrelations with acidity and the stability of Fe minerals in the hydromorphic paddy soils of Kerala, India. Georeferenced composite soil samples were collected and analysed from rice-growing agroecological units of Kerala during April to May 2023. The soil samples were subjected to sequential extraction of Fe fractions: F _ws , water-soluble and exchangeable; F _sp , specifically adsorbed lead (Pb) displaceable; F _as , acid-soluble; F _mn , manganese (Mn) oxide-occluded; F _om , organic matter occluded; F _ai , amorphous Fe oxide-occluded; F _ci , crystalline Fe oxide-occluded and F _rs , residual. Besides, the forms of acidity were also analysed to determine A _ex , exchange acidity; A _et , extractable acidity; A _ta , total acidity; A _tp , total potential acidity; and A _pd , pH-dependent acidity. Path analysis (p = 0.05) revealed that F _as had a significant direct positive influence (0.82), and F _wa had a significant direct negative effect (-0.53) on pH. The changes in F _as were directly controlled by F _mn and that of F _wa by F _sp . The A _et had a direct positive, and A _tp had a significant negative control (-1.16) on A _ex in the soil. Structural equation modelling revealed a significant negative effect between F _sp and a positive direct effect between F _as , F _om and F _ci on A _et . The F _as imposed a significant direct positive and F _ai, a significant negative control on A _tp . Thus, acid soluble Fe, extractable acidity, and total potential acidity were found to be the influencing factors of pH in the paddy soils of Kerala. Further, the mineral stability diagram of Fe revealed that the solubility of Fe was controlled by amorphous Fe minerals in the paddy growing hydromorphic wetlands of Kerala, India.