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Since coastal lagoons are mixing zones of fresh and saline water, suspended particulate matter (SPM) in
different environments within a lagoon exhibits unique properties. Biogeochemical processes of different
environments within a coastal lagoon are critically reviewed. In this study, the peripheral environment of
Batticaloa lagoon which is a large, semi-enclosed, micro-tidal lagoon in the tectonically inactive tropical
climatic zone of Sri Lanka was evaluated for its chemical composition ofSPM in the post winter monsoonal
season 2016. Further, it was compared with physical conditions of water and general surface sediment
geochemistry. Overall physical parameters of the lagoon peripheral indicate low oxygenated brackish
water with neutral pH. The concentration of SPM shows a weak correlation with the physical parameters
of water. The peripheral environment of the lagoon has higher concentrations of Zn, Cu, Ni, MnO and
P20S in SPM compared to the surface sediments. Previous studies have shown that these elements are
rich in marine micro-organisms. Further, with respect to the statistical correlations, no evidence was
found to prove the sorbing nature of iron and manganese coatings as described in other studies. Hence the
results suggest that the tropical climates and allied organisms at the peripheral environment of the lagoon
have improved the chemical composition of SPM with respect to that of lagoon surface. Environmental
concerning elements indicate minor to moderate enrichments compared to upper continental crust with
iron as the reference element in the Enrichment Factor calculation. Despite the size and micro-tidal effect
of Batticaloa lagoon environment, the concentration of SPM does not vary throughout the entire study
area except at the river discharging points.