Abstract
Insect proof nets are widely used in agriculture as mechanical and physical barriers to regulate pest populations in a greenhouse. However, their integration in the greenhouse ventilation openings is highly associated with the decrease of air flow and the adequate ventilation. Thus, there is need for alternative pest management tools that do not impair adequate ventilation. In the present study, we tested four net formulations of relatively large mesh size coated with SiO2 nanoparticles, namely, ED3, ED3-P, ED5, and ED5-P to evaluate their insecticidal properties against adults of Aphis fabae and Sitophilus oryzae and larvae of Tribolium confusum. ED3 and ED5 nets were coated with SiO2 nanoparticles of different diameter, while in the case of ED3-P and ED5-P, paraffin was added to increase the mass of the deposited particles on the net’s surface. In the first series of bioassays, the knockdown and mortality rates of these species were evaluated after exposure to the aforementioned net formulations for 5, 10, 15, 20, 25, 30, 60, 90, and 180 min. In the second series of bioassays, knockdown and mortality of these species were recorded after 1, 7, and 10 days of post-exposure to the nets for different time intervals (15, 30, and 60 min). Based on our results, all nets significantly affected A. fabae, since all insects were dead at the 1-day post-exposure period to the silica-treated nets. Conversely, at the same interval, no effect on either S. oryzae adults or T. confusum larvae was observed. However, in the case of S. oryzae, the efficacy of all nets reached 100% 7 days after the exposure, even for adults that had been initially exposed for 15 min to the treated nets. Among the species tested, T. confusum larvae exhibited the lowest mortality rate, which did not exceed 34% at the 10 days of post-exposure interval. Our work underlines the efficacy of treated nets in pest management programs, under different application scenarios, at the pre- and post-harvest stages of agricultural commodities.
Highlights
Despite the association of many insecticidal compounds with mammalian toxicity and increased environmental footprint, conventional pesticides are widely used as a means of pest management
We tested four net formulations of relatively large mesh size coated with SiO2 nanoparticles, namely, ED3, ED3-P, ED5, and ED5-P to evaluate their insecticidal properties against adults of Aphis fabae and Sitophilus oryzae and larvae of Tribolium confusum
Insect proof nets have been integrated in greenhouse ventilation openings as an alternative to pesticides for many years and their use is related to the management of the population density of external agents
Summary
Despite the association of many insecticidal compounds with mammalian toxicity and increased environmental footprint, conventional pesticides are widely used as a means of pest management. According to the European Commission, a sustainable and environmentally friendly insecticidal strategy should be followed in the case of adequate crop protection, to minimize the negative effects of the intensive chemical pesticide applications on both natural enemies (predators, parasitoids) and human health [4,5]. Nets are widely used in agriculture as mechanical or physical barriers in order to protect crops from either biotic or abiotic stresses. Insect proof nets have been integrated in greenhouse ventilation openings as an alternative to pesticides for many years and their use is related to the management of the population density of external agents. The design of nettings is determined by the size and geometry of the hole, the size of the insect thorax, as well as the method of knitting [9]
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