Stereoselectivity in bioaccumulation and excretion of epoxiconazole by mealworm beetle (Tenebrio molitor) larvae

Lv, Xiaotian; Liu, Chen; Gao, Yanning; Wang, Huili; Li, Jianzhong; Guo, Baoyuan

doi:10.1016/j.ecoenv.2014.02.013

Cited by 29 publications

(10 citation statements)

References 25 publications

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“…However, this reported correlation could not be readily identified from the data presented in that publication. Several other studies on chiral fungicides showed that T. molitor larvae metabolized and degraded the fungicides epoxiconazole (log K ow 3.58) (Lv et al., ), metalaxyl (log K ow 1.65) (Gao et al., ), benalaxyl (log K ow 3.67) (Gao et al., ), and mycolobutanil (log K ow 2.94) (Lv et al., ). These experimental results all are consistent with the K ow pattern observed by Houbraken et al.…”

Section: Chemical Hazardsmentioning

confidence: 99%

Food Safety Issues Related to Uses of Insects for Feeds and Foods

Fels‐Klerx

Camenzuli

Belluco

et al. 2018

Comp Rev Food Sci Food Safe

182

112

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Edible insects are expected to become an important nutrient source for animals and humans in the Western world in the near future. However, before insects can be put on the market, the safety of their use for feed and food is warranted. This literature study was prepared to provide an overview of the actual knowledge of possible food safety hazards, including chemical, microbiological, and allergenic agents and prions, to human and animal health upon the use of insects for food and feed, and to highlight data gaps and suggest the way forward. From the data available, heavy metals of concern are cadmium in black soldier fly and arsenic in yellow mealworm larvae. Investigated mycotoxins do not seem to accumulate. Residues of pesticides, veterinary drugs, and hormones, as well as dioxins and PCBs, are sometimes found in insects. Contamination of insects with pathogens to human health is a consequence of a combination of the substrates used and the farming and processing steps applied. Insects harbor a wide variety of microorganisms, and some human pathogenic bacteria may be present. In addition, insects may harbor and transmit parasites. There is no evidence so far insects may harbor pathogenic viruses or prions, but they may act as vectors. Insects and insect-derived products may have allergenic potential. In this review, evidence on some safety aspects is displayed, and data gaps are identified. Recommendations are given for future research to fill the most relevant data gaps.

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Section: Chemical Hazardsmentioning

confidence: 99%

Food Safety Issues Related to Uses of Insects for Feeds and Foods

Fels‐Klerx

Camenzuli

Belluco

et al. 2018

Comp Rev Food Sci Food Safe

182

112

View full text Add to dashboard Cite

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“…This suggests the existence of many pesticide exposure pathways and a high likelihood that pesticide residues are present in mealworms from various feed sources. In controlled studies, pesticides were detected and bioaccumulated in mealworms after they consumed residue-treated crops [10,11]. It is also possible to intentionally spray chemicals on insect farms for pest control [12].…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, simultaneous analysis of pesticide multiresidues in edible insects is needed to understand pesticide residue patterns and to rapidly monitor samples obtained from controlled studies or commercial insect farms. In mealworm samples, there have been no reports related to pesticide multiresidue analysis, and only a few studies covering a small number of pesticides have been published [10,11,14,15].…”

Section: Introductionmentioning

confidence: 99%

Liquid Chromatography-Tandem Mass Spectrometry for the Simultaneous Analysis of 353 Pesticides in the Edible Insect Tenebrio molitor Larvae (Mealworms)

et al. 2020

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Tenebrio molitor larvae (mealworm) is an edible insect and is considered a future food. Using liquid chromatography-tandem mass spectrometry (LC-MS/MS), a novel method for simultaneous analysis of 353 target analytes was developed and validated. Various sample preparation steps including “quick, easy, cheap, effective, rugged, and safe” (QuEChERS) extraction conditions, number of acetonitrile-hexane partitions, and dispersive-solid phase extraction (dSPE) sorbents were compared, and the optimal conditions were determined. In the established method, 5 g of homogenized mealworms was extracted with acetonitrile and treated with QuEChERS EN 15662 salts. The crude extract was subjected to three rounds of acetonitrile-hexane partitioning, and the acetonitrile layer was cleaned with C18 dSPE. The final solution was matrix-matched and injected into LC-MS/MS (2 μL). For target analytes, the limits of quantitation (LOQs) were ≤10 μg/kg, and the correlation coefficient (r2) of calibration was >0.990. In recovery tests, more than 90% of the pesticides showed an excellent recovery range (70–120%) with relative standard deviation (RSD) ≤20%. For more than 94% of pesticides, a negligible matrix effect (within ±20%) was observed. The analytical method was successfully applied and used for the detection of three urea pesticides in 4 of 11 mealworm samples.

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“…In literature on the effects of reared insects discussed in a previous review (Van der Fels-Klerx et al, 2018), it was largely concluded that tested pesticides did not accumulate in the considered species. These included azoxystrobin and propiconazole (Lalander et al, 2016), chlorpyrifos and chlorpyrifos-methyl, and pirimiphos-methyl (Purschke et al, 2017) in H. illucens larvae, and epoxiconazole (Lv et al, 2014), metalaxyl (Gao et al, 2014), benalaxyl (Gao et al, 2013), and mycolobutanil (Lv et al, 2013) in A. diaperinus larvae. In addition, Poma and co-authors (Poma et al, 2017) confirmed the presence of pirimiphos-methyl in Locusta migratoria and in some insect products including a Buggie burger.…”

Section: Pesticidesmentioning

confidence: 99%

Chemical food safety hazards of insects reared for food and feed

Meyer

Meijer

Hil

et al. 2021

JIFF

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Insects are a promising future source of sustainable proteins within a circular economy. Proving the safety of insects for food and feed is necessary prior to supplying them to the market. This literature review provides a state-of-the-art overview of the chemical food safety hazards for insects reared for food and feed, focusing mainly on transfer of contaminants from the substrate. Contaminants covered are: heavy metals, dioxins and polychlorinated biphenyls, polyaromatic hydrocarbons, pesticides, veterinary drugs, mycotoxins, and plant toxins. The twelve insect species reported as having the largest potential as feed and food in the EU are included. Transfer and bioaccumulation of contaminants depend on the chemical, insect species, life stage, and source of contaminant (spiked vs natural), as well as the particular substrate and rearing conditions. The heavy metals lead, arsenic, mercury, and cadmium can accumulate, whereas mycotoxins and polycyclic aromatic hydrocarbons (PAHs) seem not to accumulate. Mycotoxins and veterinary drugs could be degraded by insects; their metabolic routes need to be further investigated. Data are generally limited, but in particular for PAHs, plant toxins, and dioxins and dioxin-like polychlorinated biphenyls. Further research on chemical safety of different edible insects is therefore warranted.

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Stereoselectivity in bioaccumulation and excretion of epoxiconazole by mealworm beetle (Tenebrio molitor) larvae

Cited by 29 publications

References 25 publications

Food Safety Issues Related to Uses of Insects for Feeds and Foods

Food Safety Issues Related to Uses of Insects for Feeds and Foods

Liquid Chromatography-Tandem Mass Spectrometry for the Simultaneous Analysis of 353 Pesticides in the Edible Insect Tenebrio molitor Larvae (Mealworms)

Chemical food safety hazards of insects reared for food and feed

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