2021
DOI: 10.21079/11681/42020
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Identifying degradation products responsible for increased toxicity of UV-degraded insensitive munitions

Abstract: Degradation of insensitive munitions (IMs) by ultraviolet (UV) light has become a concern following observations that some UV-degradation products have increased toxicity relative to parent compounds in aquatic organisms. This investigation focused on the Army's IM formulation, IMX-101, composed of three IM constituents: 2,4-dinitroanisole (DNAN), 3-nitro-1,2,4-triazol-5-one (NTO), and nitroguanidine (NQ). The IM constituents and IMX-101 were irradiated in a UV photo-reactor and then administered to Daphnia pu… Show more

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Cited by 1 publication
(5 citation statements)
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“…Even though UV treatment clearly caused increased toxicity of MeNQ in fathead minnows (Table3), the magnitude of increased toxicity is lower than has been reported for UVdegraded NQ in previous experiments(Gust et al 2017;Kennedy et al 2017;Moores et al 2020b) Kennedy et al (2017). reported a 73-fold lower LC50 for UV-treated NQ compared with NQ parent compound in C. dubia Moores et al (2020b). demonstrated the greatest increase in toxicity yet observed for UV-degraded NQ, where 90% UV degradation of NQ elicited a 1240-fold increase in toxicity in Daphnia pulex.…”
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confidence: 58%
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“…Even though UV treatment clearly caused increased toxicity of MeNQ in fathead minnows (Table3), the magnitude of increased toxicity is lower than has been reported for UVdegraded NQ in previous experiments(Gust et al 2017;Kennedy et al 2017;Moores et al 2020b) Kennedy et al (2017). reported a 73-fold lower LC50 for UV-treated NQ compared with NQ parent compound in C. dubia Moores et al (2020b). demonstrated the greatest increase in toxicity yet observed for UV-degraded NQ, where 90% UV degradation of NQ elicited a 1240-fold increase in toxicity in Daphnia pulex.…”
mentioning
confidence: 58%
“…Despite similar concentrations of MeNQ parent compound in the exposure water (716 and 709 mg/L for parent compound and UV-treated solutions, respectively), survival was significantly decreased in the UVtreated MeNQ exposure (14% mean survival) relative to the exposure to non-UV-treated MeNQ parent compound (100% survival). Even though UV treatment clearly caused increased toxicity of MeNQ in fathead minnows (Table3), the magnitude of increased toxicity is lower than has been reported for UVdegraded NQ in previous experiments(Gust et al 2017;Kennedy et al 2017;Moores et al 2020b) Kennedy et al (2017). reported a 73-fold lower LC50 for UV-treated NQ compared with NQ parent compound in C. dubia Moores et al (2020b).…”
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confidence: 65%
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