We determined the elemental compositions of river water and pore water in order to estimate the sites where the formation and reduction of organic mud occur in delta rivers using the principal component analysis. We collected river water and bed sediment samples at river mouth with tidal intrusion in Ota River, Hiroshima prefecture, and analyze the elemental concentrations using IC and ICP-MS.
We calculated major cations and SO₄^2- flux (J_SO4). There was positive correlation between J_Ca and J_SO4. At the sites where their J_SO4 showed negative values, J_SO4 had strongly positive correlation to J_Ca. These results demonstrate that SO₄^2- concentrations in pore water decreased and J_SO4 showed negative values due to the reduction of SO₄^2-, therefore, the formation and reduction of organic mud could occur at those sites and SO₄^2- has same behavior to Ca²⁺. We conducted the principal component analysis using eight factors such as J_Ca, J_SO4, water content, porosity, salinity, pH of pore water and concentration of Mn and Fe in pore water for the sites where their J_SO4 showed negative values. The first principal component loadings of Fe and Mn concentrations, J_Ca, J_SO4 and porosity were positive and the second principal component loadings of water content, pH, J_SO4, and J_Ca were negative, indicating that the first and second principal component are the index of redox and the formation of organic mud, respectively. The reduction of organic mud could occur at sites plotted in the range of the negative first principal component loadings and the positive second principal component loadings.