期刊
CHEMICAL ENGINEERING JOURNAL
卷 458, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2023.141417
关键词
Metal-organic frameworks; Postsynthetic modification; Indoxacarb; Solenopsis invicta; Metabonomics
The invasion of red imported fire ants in China is causing increasing damage. A smart nanopesticide that responds to environmental stimuli has been developed to improve insecticidal effects. The smart pesticide showed enhanced toxicity towards fire ants and disrupted their metabolic pathways, providing insight into sustainable pest management.
The invasion area of red imported fire ants (RIFAs) in China continues to expand due to factors such as ecological changes and human activities, and the resulting damage is becoming increasingly severe. The development of smart nanopesticides that respond to environmental stimuli response with precisely controlled release has great potential in improving insecticidal effects. In this work, a smart pH and alpha-amylase dual stimuli-responsive pesticide delivery system was constructed by combining mono-(6-amino-6-deoxy)-beta-cyclodextrin (beta-CD-NH2) with zeolitic imidazole skeleton-90 (ZIF-90) nanoparticles (IDC@ZIF-90-CD) loaded with indoxacarb. The average particle size of the prepared IDC@ZIF-90-CD was 249 nm, and the loading efficiency was 18.43%. The beta-CD-NH2 coating on the surface of nanoparticles reduced the photodegradation of indoxacarb and prevented the premature release of the active ingredient. In vitro release kinetics showed that IDC@ZIF-90-CD rapidly released IDC under acidic and amylase conditions, consistent with the oral and intestinal environment of RIFAs. The results of bioactivity tests showed that IDC@ZIF-90-CD enhanced the toxicity of IDC toward RIFAs by increasing feeding and damaging intestinal cells. The mortality rate of the IDC@ZIF-90-CD-treated group was significantly higher than that of the IDC EC-treated group at 72 h. The nontargeted metabolomic results showed that IDC@ZIF-90-CD affected the metabolism of RIFAs by interfering with the metabolic pathways of six amino acids and one amino acid transport carrier, whereas IDC EC interfered with only two of these amino acid metabolic pathways. Overall, this work provides insight into the effective control of RIFA damage for sustainable pest management.
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