Lipid adsorption of diatomaceous earths and increased water permeability in the epicuticle layer of the cowpea weevil Callosobruchus maculatus (F.) and the bean weevil Acanthoscelides obtectus (Say) (Chrysomelidae)

Newly emerged females of the cowpea weevil Callosobruchus maculatus (F.) and bean weevil Acanthoscelides obtectus (Say) were exposed to diatomaceous earth (DE). The cuticular water loss rate (mg cm2 h1) of the DE treated and untreated weevils was determined gravimetrically based on the total body mass changed at 25 ± 1 C and 75 ± 5% r.h. within a 48 h period. Fatty acid profiles comprising acids with a carbon chain length between 9 and 20 carbon atoms (C9eC20) of C. maculatus (F.) and A. obtectus (Say) were studied comparatively by using extracted DE particles from DE treated weevils, pure DE, water extraction and hexane extraction of the weevils. Peak area percentages of the GC chromatograms were used to compare the cuticular lipid compositions. The cuticular water loss rate (CWLR) of DE treated weevils was significantly higher than that untreated weevils. Despite of the DE treated weevils strive to control their CWLR within the first 10e12 h, CWLR drop significantly until their physical death. DE and hexane extracts contained only fatty acid chain lengths between C16 and C18. The major fatty acid identified in the DE extracts was oleic acid in the C18:1cis9 group which averaged to about 55.7 ± 3.04% and 63.8 ± 3.52% in C. maculatus and A. obtectus, respectively. Hexane extracts showed that cuticular hydrocarbons of the C. maculatus were dominated by C18:2cis9,12 and C16:0 equivalents to the fatty acids of linoleic and palmitic acids, respectively. The loss of these fatty acids due to adsorption of DE may result in a greater water permeability of the insect cuticle and thus lead to desiccation and mortality.