Biodegradation potential of aquaculture chemotherapeutants in marine sediments |
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Authors: | Jonathan P Benskin Michael G Ikonomou Blair D Surridge Cory Dubetz Erik Klaassen |
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Affiliation: | 1. Institute of Ocean Sciences, Fisheries and Oceans Canada (DFO), Sidney, BC, Canada;2. Applied Chemistry and Biotechnology, Camosun College, Victoria, BC, Canada |
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Abstract: | The commercial chemotherapeutant formulations SLICE® and AlphaMax® [active ingredients emamectin benzoate (EB) and deltamethrin respectively] are used in fin fish aquaculture to control parasitic sea lice. In some regions, the use of these substances has drawn concern from the commercial fishing industry regarding potential adverse effects on non‐target organisms. In the present work, biodegradation of EB and deltamethrin, and their commercial formulations, was investigated over 135 days at 4 and 10°C in fresh marine sediments collected from underneath an active open net‐pen salmon farm. EB incubated as either pure substance or commercial formulation was recalcitrant at both temperatures under abiotic and biotic conditions. Deltamethrin incubated alone or as its commercial formulation degraded slowly at 10°C (t1/2 = 330 ± 107 and 201 ± 27.1 days respectively). At 4°C, deltamethrin degradation was only significant following incubation as commercial formulation (t1/2 = 285 ±112 days). Degradation rates of EB and deltamethrin as pure substances versus their commercial formulations were not statistically different. Depletion of deltamethrin was observed in 10°C inactive sediments indicating that transformation occurred (at least in part) via an abiotic pathway. Overall, these data provide further insight into the fate and persistence of EB from the ongoing use of SLICE® in British Columbia's salmon aquaculture industry. AlphaMax® is not registered in Canada but is used in other salmon farming countries to control sea lice. |
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Keywords: | biodegradation chemotherapeutants sediment emamectin benzoate deltamethrin sea lice |
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