水生生物悬浮液和萃取物中杀虫剂噻虫胺的光解降解

Photochem Pub Date : 2023-11-07 DOI:10.3390/photochem3040027
Artemis Pappa, Feidias Bairamis, Ioannis Konstantinou
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引用次数: 0

摘要

本研究以橄榄仁为原料,研究了橄榄仁水炭悬浮液和水提液中新烟碱类农药噻虫胺的水解降解。与在双蒸馏水(k = 0.0040 min - 1)中的降解速率相比,在初始浓度为50 ~ 400 mg L - 1的水炭(HCw)水溶液中(速率常数在k = 0.0034 ~ 0.0039 min - 1之间),噻虫胺的光降解速率有轻微且不显著的降低。相反,在存在氢炭悬浮液(HCp)的情况下,50 mg L−1的氢炭颗粒浓度(k = 0.020 min−1)显著降低,而在更高浓度(100 ~ 400 mg L−1)下,速率常数增加,但与不存在氢炭悬浮液时的动力学相比,差异不显著。除HCp浓度为200mg L−1的水悬浮液外,在HCw和HCp存在下,噻虫胺的光降解速率比在双蒸馏水溶液中的光降解速率降低。采用超高效液相色谱-精确高分辨率质谱联用技术(UHPLC-LTQ-ORBITRAP)鉴定了噻虫苷在光解降解过程中形成的转化产物。TPs的形成曲线因基质的不同而不同,表现出不同程度的直接和间接(光敏化)光转化途径的参与。噻虫胺的光解降解主要通过脱硝、羟化和脱氯途径进行。最后,用费氏弧菌生物测定法研究了鉴定的TPs的毒性。照射300 min后毒性略有降低,照射180 ~ 240 min后毒性达到最大值,说明毒性较强的TPs在光化学降解过程中形成。
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Photolytic Degradation of the Insecticide Clothianidin in Hydrochar Aquatic Suspensions and Extracts
In this study, the aqueous photolytic degradation of the neonicotinoid pesticide clothianidin was studied in suspensions and aqueous extracts of hydrochar produced from olive kernels. A slight and nonsignificant decrease in the photodegradation rate of clothianidin in aqueous extracts of hydrochar (HCw) with an initial concentration of hydrochar ranged from 50 to 400 mg L−1 (rate constants ranged between k = 0.0034 and 0.0039 min−1) was observed in comparison to the respective rate in the bi-distilled water (k = 0.0040 min−1). On the contrary, in the presence of hydrochar suspensions (HCp), a significant decrease was observed for 50 mg L−1 hydrochar particle concentration (k = 0.020 min−1), while for higher concentrations (100 to 400 mg L−1), rate constants increased but with nonsignificant differences compared with the kinetics followed in the absence of them. Generally, the photodegradation rate of clothianidin, in the presence of HCw and HCp, is reduced compared to the photodegradation rate in bi-distilled aqueous solutions, except in the case of the aqueous suspension with an HCp concentration of 200 mg L−1. The transformation products (TPs) of clothianidin formed in the photolytic degradation processes were identified using ultrahigh-performance liquid chromatography coupled with accurate high-resolution mass spectrometry technique (UHPLC-LTQ-ORBITRAP). The formation profiles of TPs varied according to the matrix showing different degrees of participation of direct and indirect (photosensitized) phototransformation pathways. Photolytic degradation of clothianidin takes place mainly through denitration, hydroxylation and dechlorination pathways. Finally, the toxicity of the identified TPs was studied using the Vibrio fischeri bioassay. Toxicity was slightly reduced after 300 min of irradiation while maximum value was observed after 180–240 min of irradiation showing the formation of more toxic TPs along the photochemical degradation.
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