4.17. Larvicidal ActivityIn the fir

4.17. Larvicidal Activity
In the first attempt to determine mosquitoes larvicidal activity of RZZ, Tewtrakul et al. [57] investigate the potential of EEZZ and AEZZ, and VOZZ against Anopheline larvae (5–75 μg/mL) and pupae (25–200 μg/mL). Among the three fractions, the EEZZ exerted the most effective larvicidal and pupacidal activities (LD50 of 18.9 and 97.4 μg/mL, resp.) while the VOZZ exhibited moderate activities (LD50 of 44.1 and 137.7 μg/mL, resp.). Furthermore, at the concentration of 75 μg/mL, the larvicidal effect of EEZZ was approximately 90% compared to the VOZZ, which displayed only 73.3% larvicidal effect. In contrast, at the concentration of 200 μg/mL, both the EEZZ and VOZZ exhibited approximately 70% pupacidal activity while at 25 μg/mL, the EEZZ exhibited 23.3% pupacidal activity as compared to the VOZZ (3.3%). On the other hand, the AEZZ did not show any larvicidal and pupacidal activities (LD50 > 2000 μg/mL). The control of this study was 20 μL dimethyl sulfoxide (DMSO) and 30 μL ethanol in 50 mL dH2O. However, no attempt was made to compare the effectiveness of RZZ extract and volatile oil with any standard drug.
Recent attempt was made to investigate the chemical compositions and larvicidal potential of essential oils of five edible plants, including Z. zerumbet, available in Thailand against mosquito (Aedes aegypti) vectors [58]. The analysis of essential oils was carried out using gas chromatography coupled with mass spectrometry (GC/MS) and resulted in the isolation of 20 compounds from EOZZ with α-humulene (approximately 31.9%) and zerumbone (approximately 31.7%) being the major components followed by minor quantities of o-menth-8-ene (8.46%), santolina triene (5.38%), β-caryophyllene (3.36%), and camphor (3.05%). Citrus hystrix major components include d-limonene, β-pinene and terpinen-4-ol; C. reticulata major components include d-limonene and γ-terpinene; Kaempferia galanga major components include ethyl-p-methoxycinnamate, pentadecane, and 2-propeonic acid; Syzygium aromaticum major components include eugenol and trans-caryophyllene. Assessment of larvicidal efficacy of the essential oils demonstrated that the EOZZ, as well as others, was dose-dependently toxic with different degrees among plant species against both pyrethroid-susceptible and resistant Ae. aegypti laboratory strains at LC50, LC95, and LC99 levels. The EOZZ, at the concentrations ranging approximately between 39.2–60.9 ppm, caused percentage of mortality against 4th instar larvae of pyrethroid-susceptible Ae. aegypti ranging approximately between 6.3–94.3%. In addition, the recorded LC50, LC95, and LC99 levels for EOZZ were approximately 48.9, 62.2, and 71 ppm. In addition, the LC50 value of EOZZ against pyrethroid-resistant strain was 53.1 ppm. As a comparison, C. reticulate and C. hystrix were considered to have the most effective larvicidal activity as indicated by their lowest recorded LC50, LC95, and LC99 values (15.4, 36.4, and 58.8 ppm versus 30.1, 51.0, 68.7 ppm, resp.). Furthermore, the susceptibility of the two strains of Ae. aegypti to essential oils was slightly different but statistically significant. Despite comparing the essential oils activity with control group, which received only DMSO-distilled water, the authors did not provide comparison with any reference compounds.