Surface and sub-surface salinity in and around acid sulfate soil scalds in the coastal floodplains of New South Wales, Australia

Two-metre-deep soil profiles at 10 acid sulfate soil (ASS) scalds along the coast of New South Wales (NSW), Australia, were examined for salinity indicators. At 5 of the sites, permanently vegetated areas adjacent to the ASS-scalded land were also tested. Throughout the profiles, most sites had high soluble chloride ([Cl.sup.-]) concentrations (≤ 17 mg/g soil) and high soluble sulfate (S[O.sub.4.sup.2-]) concentrations (≤ 17 mg/g soil). Very low [Cl.sup.-] : S[O.sub.4.sup.2-] ratios (≤ 3) indicated active pyrite oxidation. Soil salinity (measured as electrical conductivity, EC) was extremely high in the top 2 m of most of the ASS scalds when related to the growth requirements of the typical introduced pasture species that were planted in these areas following drainage. This allows salinity, in addition to the extremely low pH of the surface soils, to contribute to land denudation, which can instigate or perpetuate pyrite oxidation and ASS-related land scalding. Although the sites had shallow watertables and soil-moisture content was high, the surface soil (top 0.10 m) of the scalds had consistently higher soluble [Cl.sup.-] and S[O.sub.4.sup.2-] concentrations and EC than adjacent vegetated areas. All coastal ASS areas investigated, typically freshwater backswamps used for cattle grazing, were underlain by estuarine-derived sediments containing saline ground water. The results demonstrate that revegetation of ASS scalds must include investigation and management of salinity, in addition to acidity, within the soil profile and at the soil surface. Additional keywords: Write oxidation, acid sulfate soil scald, acid sulfate soil salinity, backswamp management, backswamp drainage.
Introduction The coastal floodplains in New South Wales (NSW), Australia are largely infilled barrier estuaries (Roy 1984). Extensive estuarine deposits, containing pyrite, were laid down approximately 10 000-6000 years ago [...]