Evaluation of baiting fipronil-loaded silica nanocapsules against termite colonies in fields

Evaluation of baiting fipronil-loaded silica nanocapsules against termite colonies in fields

Various pesticide nanocarriers have been developed. However, their pest-control applications remain limited in laboratories. Herein, we developed silica nanocapsules encapsulating fipronil (SNC) and their engineered form, poly(ethyleneimine)-coated SNC (SNC-PEI), based on recombinant catalytic modul...

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Bibliographic Details
Published in:Heliyon Vol. 5; no. 8; p. e02277
Main Authors: Peters, Brenton C., Wibowo, David, Yang, Guang-Ze, Hui, Yue, Middelberg, Anton P.J., Zhao, Chun-Xia
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-08-2019
Elsevier
Subjects:
Chemical engineering
Composite materials
Encapsulation technology
Fipronil
Molecular engineering
Nanocapsules
Nanoparticles
Nanotechnology
Pesticide delivery system
Subterranean termites
Sustained release
Nanoparticles
Composite materials
Chemical engineering
Pesticide delivery system
Nanocapsules
Subterranean termites
Encapsulation technology
Sustained release
Molecular engineering
Nanotechnology
Fipronil
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Summary:Various pesticide nanocarriers have been developed. However, their pest-control applications remain limited in laboratories. Herein, we developed silica nanocapsules encapsulating fipronil (SNC) and their engineered form, poly(ethyleneimine)-coated SNC (SNC-PEI), based on recombinant catalytic modular protein D4S2 and used them against termite colonies Coptotermes lacteus in fields. To achieve this, an integrated biomolecular bioprocess was developed to produce D4S2 for manufacturing SNC containing fipronil with high encapsulation efficiency of approximately 97% at benign reaction conditions and at scales sufficient for the field applications. PEI coating was achieved via electrostatic interactions to yield SNC-PEI with a slower release of fipronil than SNC without coating. As a proof-of-concept, bait toxicants containing varied fipronil concentrations were formulated and exposed to nine termite mounds, aiming to prolong fipronil release hence allowing sufficient time for termites to relocate the baits into and distribute throughout the colony, and to eliminate that colony. Some baits were relocated into the mounds, but colonies were not eliminated due to several reasons. We caution others interested in producing bait toxicants to be aware of the multilevel resistance mechanisms of the Coptotermes spp. “superorganism”.
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content type line 23
Author deceased.
Both authors contributed equally to the manuscript.
ISSN:2405-8440
2405-8440
DOI:10.1016/j.heliyon.2019.e02277