The respiration rate of PH3 susceptible strain was significantly higher than the resistant strain. The results showed no significant effect of oxygen level on the respiration rate of both strains. Phosphine reduced the respiration rate of both strains when it was applied in average concentrations. However, the rate of respiration of the resistant beetles increased significantly under a high level of phosphine. The increase of respiration rate was associated with the higher emission of VOCs which prove the acceleration of metabolic processes to face the phosphine action for survival. Flat grain beetle Cryptolestes pusillus and rusty grain beetle C. ferrugineus are similar insect species, but only C. ferrugineus is capable to develop a high phosphine resistance. A direct immersion solid phase microextraction gas chromatography-mass spectrometry (DI-SPME-GCMS) technology has identified the different fatty acids from PH3 resistant and susceptible strain of Tribolium castaneum.

Three formula types (gel, cookie, and liquid), six commercial roach bait products containing one of active ingredients among Fipronil, Avermectin, Dinotefuran, and Chlorpyrifos were examined against susceptible strain of German cockroach, Blattella germanica (L.). For the results of killing speed (LT50 values), universal killing speed effects depended on bait formula types. The killing speed of liquid bait formula type was the fastest among three formula types. Followed by gel bait type and cookie bait type. However the control speed (LT90 values) effects depended on the active ingredients that contained in roach baits. The baits contained Fipronil were shown the strongest control performance against German cockroaches. Chlorpyrifos was similar with Fipronil. Followed by Avermectin and Dinotefuran.

Acquisition of a reference Tetranychusstrains that are completely susceptible to acaricides and retain identical genetic backgrounds to acaricide-resistant strains is an essential step in elucidating mechanisms of resistance. To establish both completely susceptible and acaricide-resistant strains for this purpose, I collected Tetranychus mite populations from various regions in South Korea including both heavily cultivated and remote regions. Suitability as a susceptible or resistant reference strain was tested by determining species identity as Tetranychus urticae along with baseline susceptibility to common acaricides. The majority of mite populations collected from cultivated areas belonged to a monophyletic group of the previously reported green-type T. urticae as determined by mtCOI- and ITS2-based phylogenetic analysis. These strains showed relatively reduced levels of susceptibility to the acaricides tested, suggestive of the development of resistance. Among them, the AbaR strain was classified as a minor group in the T. urticae complex. The UD strain, originally collected from a remote island region, was found to be susceptible to the acaricides tested and generated an independent phylogenetic branch. The UD strain was also considered a minor group in the T. urticae complex. Phenotypic analysis based on morphological characters confirmed that both the AbaR and UD strains were statistically undistinguishable from the major green-type T. urticae. Taken together, I propose that the UD strain be used as a susceptible reference strain as it provides baseline susceptibility to acaricides and a wild-type genetic background for the resistance studies.