Biodegradability of the antioxidant diaryl-p-phenylene diamine using a modified inherent biodegradation method at an environmentally relevant concentration |
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Authors: | R Dailey M Daniel AP Leber |
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Institution: | 1. The Goodyear Tire & Rubber Company, 1485E Archwood Avenue, Akron, OH 44306, USA;2. Brixham Environmental Laboratory, Freshwater Quarry, Brixham, Devon TQ5 8BA, UK;3. Contributing Consultant to The Goodyear Tire & Rubber Company, Diplomat-AM. Board of Toxicology, 1344 Jefferson Avenue, Akron, OH 44313, USA |
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Abstract: | The chemical product diaryl-p-phenylene diamine (DAPD), produced by The Goodyear Tire & Rubber Company as POLYSTAY 100® (CAS 68953-84-4), is employed as an antidegradant in polymers used in tires and industrial rubber products. Previous evaluations pertaining to the ecological fate of DAPD indicated a lack of biodegradative activity in aquatic media. In order to further pursue the biodegradation potential of DAPD, it was deemed necessary to enhance the sensitivity of the aquatic biodegradation assay through (a) employment of a radiotracer of the test substance, and (b) optimisation of conditions for achieving maximal solubilisation of test material in the aquatic media of the incubation vessels. Test vessels were prepared according to the OECD ready biodegradability test guidelines, with DAPD added on silica gel at concentrations of 10 or 100 μg L−1, together with a surfactant to aid solubilisation. After 63 d incubation up to 37% mineralisation was measured and up to 29% of the applied radioactivity was incorporated into cell biomass. Also, after 28 d no DAPD could be measured in solution by radio-TLC and HPLC–MS. These three results demonstrate that the antioxidant DAPD undergoes microbiologically mediated biodegradation and is highly unlikely to persist in the environment. |
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Keywords: | Diaryl-p-phenylene diamine Degradation Environmental Antioxidant DAPD Polystay |
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