Laboratório de Entomologia Médica, Núcleo de Biodiversidade, Instituto de Pesquisas Científicas E Tecnológicas Do Amapá, CEP 68903-419, Macapá, Amapá, Brasil.
Laboratório de Zoologia de Invertebrados, Universidade Federal Do Pará, Instituto de Ciências Biológicas, Rua Augusto Corrêa, 01, Guamá, 66075-110, Belém, PA, Brasil.
Int J Legal Med. 2023 Jul;137(4):1253-1261. doi: 10.1007/s00414-023-02989-0. Epub 2023 Mar 28.
Fatal poisonings with diazinon may occur both accidentally or intentionally in suicide cases. Forensic entomotoxicology can aid in understanding these deaths by detecting and analyzing the interference of toxic substances in the biology of necrophagous insects. Hence, this study sought to evaluate diazinon's effect on the composition and succession of calliphorid species in the tropical savannas of the Amazon. Nine rabbit carcasses were divided into three groups: one control and two diazinon treatments (100 mg/kg and 300 mg/kg); each group had three replicates. Three fragments of the Amazon tropical savanna were selected for the experiments. Daily collections of adult and immature calliphorids were performed. Five decomposition stages were observed: fresh, bloated, active decay co-occurring, advanced decay, and dry. Eight species of Calliphoridae were identified among the collected adults: Chloroprocta idioidea (0.1%), Chrysomya albiceps (58.3%), Chrysomya megacephala (14.2%), Chrysomya putoria (2.6%), Cochliomyia hominivorax (1.3%), Cochliomyia macellaria (0.5%), Lucilia eximia (19.8%), and Paralucilia paraensis (3.3%). The adult specimens in the control group with the highest abundance were observed only from the advanced decay stage onward. In the dry stage, abundance was higher in control than in treated carcasses. From the sampled 941 Calliphorid immatures, three species were identified: C. albiceps (76,3%), C. putoria (1%), and L. eximia (22,7). The number of immatures was higher in control than in treated carcasses. Therefore, diazinon interferes with the putrefaction timeframe in carcasses, slowing the decomposition stages and affecting their colonization by immature forms of Calliphoridae.
敌敌畏中毒可能发生在自杀案件中,无论是意外中毒还是故意中毒。法医昆虫毒理学可以通过检测和分析有毒物质对腐食性昆虫生物学的干扰,来帮助理解这些死亡事件。因此,本研究旨在评估敌敌畏对亚马逊热带稀树草原地区丽蝇科物种组成和演替的影响。将 9 只兔尸分为三组:一组对照和两组敌敌畏处理组(100mg/kg 和 300mg/kg);每组有 3 个重复。为实验选择了亚马逊热带稀树草原的 3 个片段。每天收集成年和未成熟丽蝇科昆虫。观察了 5 个分解阶段:新鲜、肿胀、活跃腐烂共存、高级腐烂和干燥。在收集到的成年昆虫中鉴定出 8 种丽蝇科昆虫:氯普罗塔伊迪奥伊亚(0.1%)、黄腹厕蝇(58.3%)、大头金蝇(14.2%)、污蝇(2.6%)、人厕蝇(1.3%)、厩腐蝇(0.5%)、丽蝇(19.8%)和拟厕蝇(3.3%)。在对照组中,丰度最高的成虫标本仅在高级腐烂阶段后观察到。在干燥阶段,对照组的丰度高于处理组。在采样的 941 只丽蝇科未成熟个体中,鉴定出 3 种:黄腹厕蝇(76.3%)、污蝇(1%)和丽蝇(22.7%)。对照组中未成熟个体的数量高于处理组。因此,敌敌畏会干扰尸体内的腐败时间框架,减缓分解阶段,并影响其被丽蝇科未成熟形态的定殖。
