J. Compos. Sci., Vol. 8, Pages 534: The Crucial Role of Additives in the Properties of Perlite- and Gypsum-Based Superabsorbent Composites I: The Development of Composite Carrier Materials for Biological Mosquito Larva-Killing Agents

J. Compos. Sci., Vol. 8, Pages 534: The Crucial Role of Additives in the Properties of Perlite- and Gypsum-Based Superabsorbent Composites I: The Development of Composite Carrier Materials for Biological Mosquito Larva-Killing Agents

Journal of Composites Science doi: 10.3390/jcs8120534

Authors: László Kótai Ernő Tamics Zoltán Homonnay Márk Windisch Kende Attila Béres

The increase in the risks of mosquito-transmitted serious diseases or viral infections generates strong motivations to find new and efficient solutions for controlling blood-sucking mosquitoes. There are selective protein toxins such as BTI (Bacillus thüringiensis israelensis) used to kill mosquito larvae, which require carrier materials that keep the active ingredient on the surface of the water where the mosquito larvae feed. Environmentally friendly and effective composite carrier materials consisting of gypsum and perlite with controlled floating and sinking times were developed. The partial closing of open pores with modified cellulose derivatives as carboxymethyl cellulose (CMC) or cricket made from corn starch and hot water were used to ensure the slow dissolution of “CMC corks” in the pores, which can control the floating and sinking properties as well. The carrier composites were combined with BTI toxins such as 4% Vectobac WP (5000 ITU (international toxic unit)) toxin, resulting in a 90–100% killing rate against different tests (Culex pipiens) and various naturally abundant mosquito larva species. The stability test of the BTI-containing new carrier materials shows good applicability at flooded/dried/re-flooded areas where the flooding is temporary thus the composites can be applied as preventive treatment as well.