AI Article Synopsis
- * A study conducted on a French river, which included fish farms and a sewage plant, utilized both passive and active monitoring methods over a year to assess antibiotic contamination in water, sediment, and bryophytes.
- * The results indicated that sediment and bryophytes were effective in detecting contamination, especially from flumequine and oxytetracycline, linked primarily to fish farming and possibly other sources like terrestrial farming and human pharmaceuticals.
Article Abstract
Oxolinic acid, flumequine, oxytetracycline, and florfenicol are antibiotics commonly used in farming. Because an important percentage of these antibiotics given to fish and cattle ends up, directly or indirectly, in the freshwater environment, suitable tools for the monitoring of these antibiotics are needed. A French river was chosen because of the location of four fish farms and a sewage plant on its main course. First, a passive monitoring program involving water, sediment, and autochthonous bryophytes was performed at 25 sampling sites tested once every three months for one year. Second, an active monitoring method was performed using moss bags for a one-month exposure period, both upstream and downstream of each potential source of antibiotics. Sediment and bryophyte samples, but not water samples, were found to be useful for monitoring environmental contamination by oxolinic acid, flumequine, oxytetracycline, and florfenicol. Sediments and bryophytes also appeared to be complementary media for dating the river's contamination by antibiotics. Data collected by both active and passive monitoring methods confirmed contamination of the river, mainly by flumequine and oxytetracycline, attributable to fish farming but also to terrestrial animal farming and perhaps human pharmaceuticals.
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| http://dx.doi.org/10.1897/08-238.1 | DOI Listing |
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