REDOX STRATIFICATION AND HEAVY-METAL PARTITIONING IN AVICENNIA-DOMINATED MANGROVE SEDIMENTS - A GEOCHEMICAL MODEL

Mangrove forest sediments can provide a sink for trace metals because the mangroves create a baffle that promotes the accumulation of fine-g rained organic matter-rich sediment, which is usually sulphidic due to the presence of sulphate-reducing bacteria. Direct adsorption, comple xing with organic matter, and the formation of insoluble sulphides all contribute to the trapping of metals. The concentration and chemical speciation of the metals are influenced by the distribution of geochem ically distinct horizons within the sediment. In horizons with a pH > 7 and an Eh < - 150 mV (reduction horizons), metals are largely presen t as sulphide-bound species, whereas in horizons with a pH < 7 and an Eh > + 100 mV (oxidation horizons), most metals are present as exchang eable or oxide-bound species. In most cores, two oxidation and two red uction horizons can be recognised, but dark mottles of low Eh (< - 150 mV) sediment can be found in the oxidation horizons, and orange-brown halos of high Eh (> + 100 mV) sediment can be found around mangrove r oots and burrows in the reduction horizons. The depth to each horizon, differs between cores and can change in response to seasonal shifts i n the position of the water table. A model is presented that accounts for the development of the oxidation and reduction horizons within the Avicennia-dominated mangrove forest sediment and describes the major controls on metal cycling within the sediment. (C) 1998 Elsevier Scien ce B.V. All rights reserved.