期刊
ENVIRONMENTAL SCIENCE & TECHNOLOGY
卷 48, 期 10, 页码 5530-5536出版社
AMER CHEMICAL SOC
DOI: 10.1021/es500194f
关键词
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资金
- Chinese Scholarship Council (CSC)
- UK-China Bridge Project
- Natural Environment Research Council [ceh010010] Funding Source: researchfish
Although sorption/desorption of antibiotics in soils affects their mobility and availability, with consequences for risks to the surrounding environment, the dynamics of these processes are not well-known. In this study, diffusive gradients in thin-films devices suitable for measuring polar organic compounds (o-DGT) were deployed in two soils for a range of times (5 h to 20 d) to measure the distribution and rates of exchange between solid phase and solution of three sulphonamides (SAs; sulfamethoxazole, SMX; sulfamethazine, SMZ; and sulfadimethoxine, SDM) and trimethoprim (TMP). o-DGT continuously removes antibiotics to a XAD gel layer after passage through a well-defined diffusion layer and therefore perturbs their concentration in the adjacent soil solution. This induces a remobilization flux from the solid phase, which is related to the concentration of antibiotics in the soil solution, their diffiisional supply, and the exchange kinetics between dissolved and sorbed antibiotics. A dynamic model of solute interactions called DIFS (DGT induced fluxes in soils) was used to derive distribution coefficients for labile antibiotics (Km) and the rate constant for supply of antibiotics from solid phase to solution, expressed as a response time (T-c). Larger labile solid phase pools were observed for TMP than for SAs. The soils could resupply TMP so rapidly that in one soil, where T-c = 2 mm, supply was controlled by diffusion. Response times for SAs were generally longer (>27 mm), particularly for SDM (>3 h), implying that the supply of SAs to o-DGT samplers was limited by the desorption release rate. A wider implication of this study is that similar solid phase release kinetics may control the uptake of antibiotics by biota.
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