Title of article
Synthesis and characterization of silica nanostructures for cotton leaf worm control
Author/Authors
Ayoub, Haytham A Chemistry Department - Faculty of Science - Sohag University, Egypt , Khairy, Mohamed Chemistry Department - Faculty of Science - Sohag University, Egypt , Rashwan, Farouk A Chemistry Department - Faculty of Science - Sohag University, Egypt , Abdel-Hafez, Hanan F Plant Protection Research Institute - Dokki - Giza, Egypt
Pages
10
From page
91
To page
100
Abstract
Herein, silica nanostructures with various
physicochemical characteristics were synthesized via surfactant-
assisted methods. Potent entomotoxic effects of
silica nanostructures were explored against cotton leaf
worm (Spodoptera littoralis) for the first time by utilizing
surface contact and feeding bioassay protocols. The mortality
of the treated larvaes by surface contact was faster
than feeding bioassay method. The results showed that the
surface characteristics and particle size of silica nanostructures
could effectively control their entomotoxic effects
compared to commercial silica or even organic pesticides.
It was also observed that the dead bodies of the insects
became extremely dehydrated due to the damage of insect
cuticular water barrier as a result of abrasion. Furthermore,
the physical mode of action of silica nanostructures makes
insects is unlikely to become physiologically resistant;
hence, silica nanostructures can be efficiently used as a
valuable tool in S. littoralis management programs.
Keywords
Silica nanoparticles , Mesoporous materials , Nanocides , Plant protection , Spodoptera littoralis
Journal title
Astroparticle Physics
Serial Year
2017
Record number
2436267
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