Environmental fate of pesticides used in Australian viticulture IV. Aqueous stability of dithianon |
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| Authors: | Mayumi Allinson Brian Williams Graeme Allinson Michelle Graymore Frank Stagnitti |
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| Affiliation: | 1. Department of Environmental Science and Management , University of Adelaide , Roseworthy, SA, 5371, Australia;2. School of Ecology and Environment , Deakin University , Warrnambool, Victoria, 3280, Australia;3. Department of Environmental Science and Management , University of Adelaide , Roseworthy, SA, 5371, Australia;4. School of Ecology and Environment , Deakin University , Warrnambool, Victoria, 3280, Australia |
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| Abstract: | Dithianon formulations are unstable in slightly basic aqueous solutions (pH 9, 20°C, t ½ = 5.6 h) but relatively stable in neutral or acidic solution (pH 4,20°C, t ½ = 6443 h). To ensure the efficacy of this fungicide it is important to prepare the spray mix fresh with neutral or slightly acidic water. Dithianon is unstable towards natural sunlight in the solid and aqueous phase, with half‐lives of approximately 68 and 42 days, respectively. Thermal hydrolysis does not seem to be the preferred degradation pathway when aqueous solutions are heated by the South Australian summer sun. The major aqueous phase photodegradation product has been identified as 2,3‐dihydro‐1,4‐dithiaanthraquinone. These results strongly suggest that should dithianon be accidentally released into basic Australian waters then it is likely to be rapidly chemically hydrolysed and pose little long term environmental threat. However, dithianon is only slowly chemically and photo‐lytically hydrolysed in neutral and acidic waters, and in this case accidentally release may pose a significant short term environmental threat. |
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| Keywords: | Pesticide stability in solution South Australia fungicides dithianon |
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