Nondetrital and total metal distribution in core sediments from the U-Tapao Canal, Songkhla, Thailand

Abstract

The U-Tapao Canal is the main source of freshwater draining into the outer part of Songkhla Lake, which is the most important estuarine lagoon in Thailand. Songkhla Lake is located in southern Thailand between latitudes 7 08 and 7 50 N and longitudes 100 07 and 100 37 E. Acetic acid (HOAc)-soluble Cu, Fe, Mn, Pb, and Zn and the total concentration of these metals along with Al concentration, organic carbon, carbonate, sand, silt, and clay contents were determined in 4 sediment cores obtained at selected intervals from the mouth of the canal to 12 km upstream. Readily oxidizable organic matter in the cores varies from 1.52% to 7.30% and is generally found to decrease seaward. Total concentrations of Al (61.7 99.0 g kg 1; 2.293.67 mol kg 1), Cu (12.4 28.2 mg kg 1; 195 444 Amol kg 1), Fe (25.2 42.0 g kg 1; 451 752 mmol kg 1), Mn (0.220.49 g kg 1; 4.08.9 mmol kg 1), Pb (16.743.1 mg kg 1; 80.6208 Amol kg 1), and Zn (48.6122.7 mg kg 1; 0.741.88 mmol kg 1) vary to a certain extent vertically and seaward in the U-Tapao Canal core sediments. These concentrations are at or near natural levels and show no indication of anthropogenic contamination. Overall, the data show that total metal concentrations in the surface and near surface core sediments are enriched in varying degrees relative to Al in the order of ~ZnNMnNPbNFeNCu. Chemical partitioning shows that the enrichment in the surface and near surface sediments is related to the relatively high proportion of the total metal concentrations (MnNZnNFeNCuNPb) that occur in the acetic acid-soluble (nondetrital) fraction, and they generally decrease with depth. Nondetrital Cu, Pb, and Zn likely derive from those metals held in ion exchange positions, certain carbonates, and from easily soluble amorphous compounds of Mn and perhaps those of Fe. Diagenetic processes involving Mn and to a lesser extent, Fe compounds, as well as the vertical changes in the oxidizing/reducing boundaries, appear to be the most important factors controlling the behavior of the metals in these cores. Organic matter and the aluminosilicate minerals, however, appear to be less important carriers of the metals studied.