Affiliations: College of Environmental and Natural Resource
Sciences, Zhejiang University, Hangzhou 310029, China | College of Natural Resource and Environmental
Sciences, Nanjing Agricultural University, Nanjing 210095, China
Abstract: The dissolved organic matter (DOM), water soluble organic matter
derived from sewage sludge was separated into hydrophobic fraction (Ho) and
hydrophilic fraction (Hi). The sorption of DOM and its fractions on soils and
the effects of DOM sorption on a nonionic pesticide (atrazine
(2-chloro-4-ethylamino-6-isopropylamino-1,3,5-trazine)) distribution between
soil and water were investigated using a batch equilibrium technique. The total
DOM sorption on soils described by the Langmuir equation reached saturation as
the DOMconcentration increased. The sorption of Ho fit the Freundlich model. In
contrast, a negative retention evidently occurred as adding Hi at higher level
in tested soils. The sorption of Ho dominated the total DOM sorption and the
release of soil organic matter (SOM). Effects of DOM on the atrazine sorption
by soils were DOM-concentration dependent and dominated by the interaction of
atrazine, DOM, and soil solids. Generally, the presence of DOM with lower
concentration promoted atrazine sorption on soils, namely the apparent
partitioning constant (K^*_d) for atrazine sorption in the
presence of DOM was larger than the distribution constant
(K_d) without DOM; whereas the presence of DOM with higher
concentration inhibited atrazine sorption (i. e.,
K^*_d<K_d). The overall effects of DOM
on atrazine sorption in soils might be related to the DOM sorption and the
release of soil intrinsic organic matter into aqueous solution. The sorption of
Ho on soils promoted the atrazine sorption on soil, while the release of SOM by
Hi and the competitive sorption between Hi and atrazine on soil surface led to
a decrease of atrazine sorption. Information provided in this work may
contribute to a better understanding of the DOM sorption and its impacts on the
contaminant soil-water distribution.
