Comparative toxicogenomics of three insensitive munitions constituents 2,4-dinitroanisole, nitroguanidine and nitrotriazolone in the soil nematode Caenorhabditis elegans

Gong, Ping; Donohue, Keri B.; Mayo, Anne M.; Wang, Yuping; Hong, Huasheng; Wilbanks, Mitchell S.; Barker, Natalie D.; Guan, Xin Yuan; Gust, Kurt A.

doi:10.1186/s12918-018-0636-0

Cited by 9 publications

(6 citation statements)

References 51 publications

(63 reference statements)

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“…S1 and Supplemental Table S1). identified in the literature (Gersich and Hopkins, 1986;Xiang et al, 2010;Scott and Crunkilton, 2000) and further confirmed using analytical chemistry in the present study were determined. We used a combination of literature values for D. pulex as well as generation of new toxicity data for previously untested chemicals to provide context for the sum toxicity of UV-degraded NQ (Table 2).…”

Section: Toxicity Screening Of Previously Identified Nq Uv-degradation Compoundssupporting

confidence: 82%

“…The tubes were arranged in the outer ring of the carousel inside a Rayonet photoreactor (Model RPR-100, Southern New England Ultraviolet Co. Branford, CT) equipped with sixteen, 300 nm lightbulbs (RPR-3000A, Southern New England Ultraviolet Co.). Irradiation times were carefully controlled with a timer controller (Control Co. Webster, TX), and photon flux measured to be 1.38 ± 0.16 Â 10 À8 E per second by ferrioxalate actinometry (Goldstein and Rabani, 2008) where the formation of ferrous iron was monitored by UVevis spectroscopy (Cary 8454, Agilent, Santa Clara, CA) after chelation with FerroZine™.…”

Section: Uv-degradationmentioning

confidence: 99%

“…One of the Army's insensitive munitions, IMX-101, consists of a mixture of 2e4 dinitroanisole (DNAN), nitrotriazolone (NTO), and nitroguanidine (NQ) and is being increasingly deployed as a replacement for conventional munitions across weapons platforms (Lee et al 2010;Williams et al, 2014). While the NQ parent compound is less toxic than TNT, RDX, DNAN and NTO in aquatic exposures (Gong et al, 2018;Gust et al, 2018;Gust et al, 2014;Gust et al, 2011;Lotufo et al, 2018;Stanley et al, 2015;Warner et al, 2012), the UV-degradation of NQ can generate products with higher toxic potency than the UV-degradation products of the other munitions constituents and nearly equal to those of TNT (Kennedy et al, 2015;Kennedy et al, 2017;Gust et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Identifying degradation products responsible for increased toxicity of UV-degraded insensitive munitions

Moores¹,

Kennedy²,

May³

et al. 2021

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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 pulex in acute (48 h) exposures comparing toxicities relative to the parent materials. UV-degradation of DNAN had little effect on mortality whereas mortality for UV-degraded NTO and NQ increased by factors of 40.3 and 1240, making UV-degraded NQ the principle driver of toxicity when IMX-101 is UV-degraded. Toxicity investigations for specific products formed during UV-degradation of NQ, confirmed greater toxicity than the parent NQ for degradation products. Summation of the individual toxic units for the complete set of individually measured UV-degradation products identified for NQ only accounted for 25% of the overall toxicity measured in the exposures to the UV-degraded NQ product mixture. Given the underestimation of toxicity using the sum toxic units for the individually measured UV-degradation products of NQ, we conclude that: (1) other unidentified NQ degradation products contributed principally to toxicity and/or (2) synergistic toxicological interactions occurred among the NQ degradation product mixture that exacerbated toxicity.

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Section: Toxicity Screening Of Previously Identified Nq Uv-degradation Compoundssupporting

confidence: 82%

Section: Uv-degradationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Identifying degradation products responsible for increased toxicity of UV-degraded insensitive munitions

Moores¹,

Kennedy²,

May³

et al. 2021

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“…The compound DNAN also has the potential to undergo photochemical transformation (Taylor et al 2017a). It is toxic to a wide variety of aquatic species (Dodard et al 2013; Kennedy et al 2015; Stanley et al 2015; Gust et al 2018; Lotufo et al 2018) and to soil invertebrates (Dodard et al 2013; Gong et al 2018). Lotufo et al (2016) conducted bioaccumulation studies involving the uptake of DNAN by earthworms in amended soil and showed that the DNAN concentration in tissue exceeded the concentration of DNAN in soil.…”

Section: Introductionmentioning

confidence: 99%

“…It has excellent qualities as an explosive such as insensitivity and thermal and mechanical stability and is considered a potential insensitive replacement for hexahydro‐1,3,5‐triazine (RDX) in various formulations (Viswanath et al 2018). It has relatively low toxicity to tadpoles, fish, aquatic invertebrates, and soil nematodes and was found to be considerably less toxic than TNT and DNAN in comparative studies (Stanley et al 2015; Kennedy et al 2017; Pillard et al 2017; Gong et al 2018; Gust et al 2018; Lotufo et al 2018; Madeira et al 2018). The low log octanol–water partition coefficent K OW values predicted for NTO (from 0.89 to –1.19; Toghiani et al 2008) indicate a low propensity to adsorb to organic C through hydrophobic interactions.…”

Section: Introductionmentioning

confidence: 99%

Accumulation of Insensitive Munition Compounds in the Earthworm Eisenia andrei from Amended Soil: Methodological Considerations for Determination of Bioaccumulation Factors

Lotufo

Boyd

Harmon

et al. 2021

Enviro Toxic and Chemistry

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The present study investigates the bioaccumulation of the insensitive munition compounds 2,4-dinitroanisole (DNAN) and 3-nitro-1,2,4-triazol-5-one (NTO), developed for future weapons systems to replace current munitions containing sensitive explosives. The earthworm Eisenia andrei was exposed to sublethal concentrations of DNAN or NTO amended in Sassafras sandy loam. Chemical analysis indicated that 2-and 4-amino-nitroanisole (2-ANAN and 4-ANAN, respectively) were formed in DNAN-amended soils. The SumDNAN (sum of DNAN, 2-ANAN, and 4-ANAN concentrations) in soil decreased by 40% during the 14-d exposure period. The SumDNAN in the earthworm body residue increased until day 3 and decreased thereafter. Between days 3 and 14, there was a 73% decrease in tissue uptake that was greater than the 23% decrease in the soil concentration, suggesting that the bioavailable fraction may have decreased over time. By day 14, the DNAN concentration accounted for only 45% of the SumDNAN soil concentration, indicating substantial DNAN transformation in the presence of earthworms. The highest bioaccumulation factor (BAF; the tissue-to-soil concentration ratio) was 6.2 ± 1.0 kg/kg (dry wt) on day 3 and decreased to 3.8 ± 0.8 kg/kg by day 14. Kinetic studies indicated a BAF of 2.3 kg/kg, based on the earthworm DNAN uptake rate of 2.0 ± 0.24 kg/kg/d, compared with the SumDNAN elimination rate of 0.87 d -1 (half-life = 0.79 d). The compound DNAN has a similar potential to bioaccumulate from soil compared with trinitrotoluene. The NTO concentration in amended soil decreased by 57% from the initial concentration (837 mg NTO/kg dry soil) during 14 d, likely due to the formation of unknown transformation products. The bioaccumulation of NTO was negligible (BAF ≤ 0.018 kg/kg dry wt).

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Effects of military training, warfare and civilian ammunition debris on the soil organisms: an ecotoxicological review

Rodríguez-Seijo,

Fernández-Calviño,

Arias-Estévez

et al. 2024

Biol Fertil Soils

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Civilian and military activities are sources of water and soil contamination by inorganic and organic contaminants caused by shooting practices, warfare, and/or mechanized military training. Lead poisoning and contaminant bioaccumulation due to spent shots or other related military contaminants have been widely studied for mammals, birds, and plants. Although there are different papers on the impact on earthworms, information on micro and mesofauna (i.e., collembola, nematodes, etc.) is still scarce. Here, we review the published data regarding the impact of civilian and military shooting activities, including war-impacted areas, focusing on soil organisms, from microbial communities to the ecotoxicological effects on terrestrial organisms. One hundred eleven studies were considered where earthworms and enchytraeids were widely studied, especially under ecotoxicological assays with Pb and energetic-related compounds from military explosives. There is a lack of information on soil organism groups, such as mites, ants, or gastropods, which play important roles in soil function. Data from combined exposures (e.g., PTEs + TNT and PTEs + PAHs) is scarce since several studies focused on a single contaminant, usually Pb, when combined contaminants would be more realistic. Ecotoxicological assays should also cover other understudied ammunition elements, such as Bi, Cu, or W.

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Comparative toxicogenomics of three insensitive munitions constituents 2,4-dinitroanisole, nitroguanidine and nitrotriazolone in the soil nematode Caenorhabditis elegans

Cited by 9 publications

References 51 publications

Identifying degradation products responsible for increased toxicity of UV-degraded insensitive munitions

Identifying degradation products responsible for increased toxicity of UV-degraded insensitive munitions

Accumulation of Insensitive Munition Compounds in the Earthworm Eisenia andrei from Amended Soil: Methodological Considerations for Determination of Bioaccumulation Factors

Effects of military training, warfare and civilian ammunition debris on the soil organisms: an ecotoxicological review

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