CESAM - Centre for Environmental and Marine Studies, Department of Biology, Campus Universitário de Santiago, University of Aveiro, 3810-193 Aveiro, Portugal.
CESAM - Centre for Environmental and Marine Studies, Department of Chemistry, Campus Universitário de Santiago, University of Aveiro, 3810-193 Aveiro, Portugal.
Sci Total Environ. 2024 Oct 10;946:174164. doi: 10.1016/j.scitotenv.2024.174164. Epub 2024 Jun 21.
The global interest in edible insects as sustainable protein sources raises concerns about the bioaccumulation of contaminants, including polycyclic aromatic hydrocarbons (PAHs), to problematic levels. Understanding the accumulation dynamics of PAHs in edible insects is highly relevant due to the widespread sources and toxicological profiles; however, the bioaccumulative potential of PAHs in edible insects is unexplored. This study examined the uptake and elimination dynamics of benzo(a)pyrene (B(a)P), a representative and carcinogenic PAH, in yellow mealworm larvae (YMW, Tenebrio molitor). Larvae were exposed to feeding substrate with varying B(a)P concentrations (0.03, 0.3, and 3 mg kg), and uptake (21 days in B(a)P-contaminated substrate) and elimination (21 days in B(a)P-free substrate) kinetics were subsequently assessed. The results showed that YMW can eliminate B(a)P, revealing dose-dependent B(a)P bioaccumulation in these insects. Larvae fed on a substrate with 0.03 mg kg accumulated B(a)P over 21 days, presenting values of 0.049 (Standard deviation - 0.011) mg kg and a kinetic-based (BAF) of 1.93 g g , exceeding the EU regulatory limits for food. However, with a B(a)P half-life (DT) of 4.19 days in the larvae, an EU legislation safety criterion was met after a 13-day depuration period in clean substrate. Larvae exposed to substrates with 0.3 and 3 mg kg showed B(a)P accumulation, with BAF values of 3.27 and 2.09 g g , respectively, not meeting the current legal standards for food consumption at the end of the exposure to B(a)P. Although the B(a)P half-life values after 35 days were 4.30 and 10.22 days (DT), the larvae retained B(a)P levels exceeding permitted food safety limits. These findings highlight a significant oversight in regulating PAHs in animal feed and the need for comprehensive safety evaluations of PAH hazards in edible insects for improved PAH feeding guidelines.
全球对食用昆虫作为可持续蛋白质来源的兴趣引发了人们对污染物(包括多环芳烃 (PAHs))生物蓄积的关注,这些污染物的蓄积水平达到了令人担忧的程度。了解 PAHs 在食用昆虫中的积累动态非常重要,因为它们的来源广泛且具有毒理学特征;然而,PAHs 在食用昆虫中的生物蓄积潜力尚未得到探索。本研究考察了苯并(a)芘(B(a)P)在黄粉虫幼虫(YMW,黄粉虫)中的摄取和消除动力学,B(a)P 是一种代表性的致癌 PAH。幼虫暴露于含有不同 B(a)P 浓度(0.03、0.3 和 3 mg kg)的饲料基质中,随后评估了摄取(21 天在 B(a)P 污染基质中)和消除(21 天在 B(a)P 无基质中)动力学。结果表明,YMW 可以消除 B(a)P,表明这些昆虫中存在剂量依赖性的 B(a)P 生物蓄积。幼虫在含有 0.03 mg kg 的基质中进食 21 天,积累了 B(a)P,其值为 0.049(标准偏差 - 0.011)mg kg 和基于动力学的 BAF(1.93 g g ),超过了欧盟对食品的监管限制。然而,由于幼虫中的 B(a)P 半衰期(DT)为 4.19 天,在清洁基质中进行 13 天的净化期后,符合欧盟立法的安全标准。暴露于 0.3 和 3 mg kg 基质的幼虫表现出 B(a)P 积累,BAF 值分别为 3.27 和 2.09 g g ,不符合暴露于 B(a)P 结束时食用的现行法律标准。尽管 35 天后的 B(a)P 半衰期值分别为 4.30 和 10.22 天(DT),但幼虫保留的 B(a)P 水平仍超过允许的食品安全限值。这些发现突出表明,在动物饲料中对 PAHs 的监管存在重大疏忽,需要对食用昆虫中的 PAH 危害进行全面的安全评估,以制定更好的 PAH 喂养指南。
