Effects of molecular weight of natural organic matter on cadmium mobility in soil environments and its carbon isotope characteristics

We investigated the role of natural organic matter in cadmium mobility in soil environments. We collected the dissolved organic matter from two different types of natural waters: pond surface water, which is oxic, and deep anoxic groundwater. The collected organic matter was fractionated into four groups with molecular weights (unit: Da (Daltons)) of < 1 X 10(3), 1-10x 10(3), 10-100 x 10(3), and > too X 10(3). The organic matter source was land plants, based on the carbon isotope ratios (delta C-13/C-12). The organic matter in surface water originated from presently growing land plants, based on C-14 dating, but the organic matter in deep groundwater originated from land plants that grew approximately 4000 years ago. However, some carbon was supplied by the high-molecular-eight fraction of humic substances in soil or sediments. Cadmium interacted in a system of siliceous sand, fractionated organic matter. and water. The lowest molecular weight fraction of organic matter (< 1 X 10(3)) bound more cadmium than did the higher molecular weight fractions. Organic matter in deep groundwater was more strongly bound to cadmium than was organic matter in surface water. The binding behaviours of organic matter with cadmium depended on concentration, age, molecular weight, and degradation conditions of the organic matter in natural waters. Consequently, the dissolved, low-molecular-weight fraction in organic matter strongly influences cadmium migration and mobility in the environment. (C) 2007 Elsevier B.V. All rights reserved.