BACKGROUND: The activity of several garlic oil ingredients against Culex pipiens L. larvae was studied. In addition to diallyl sulfide (DS) and diallyl disulfide (DDS), the garlic oils used included one essential oil (EO) and two semi-synthetic garlic essential oils (SSGEO1 and SSGEO2), which resulted from the enrichment of EO with DS and DDS standards respectively. The oils were compared with respect to their toxicity. RESULTS: The chemical composition of the tested oils was evaluated by means of gas chromatography-mass spectrometry. Experimental data from the tested samples revealed high toxicity. In detail, DDS (6.09 mg L(-1)) was the most active, followed by SSGEO2 (7.05 mg L(-1)) and EO (8.01 mg L(-1)), while SSGEO1 and DS were relatively inactive. CONCLUSION: The addition of DDS to EO did not change the toxic effect of the essential oil, whereas the presence of DS in excess produced an enriched essential oil with low toxicity. Furthermore, the antagonistic effect of DS and DDS against the other components of EO was shown by the application of two equations obtained from the literature. Their larvicidal performances were correlated, for the first time, with their detailed chemical composition. Data analysis strongly indicated the toxicity of the other EO sulfur ingredients. 2008 Society of Chemical Industry
BACKGROUND: The activity of several garlic oil ingredients against Culex pipiensL. larvae was studied. In addition to diallyl sulfide (DS) and diallyl disulfide (DDS), the garlic oils used included one essential oil (EO) and two semi-synthetic garlic essential oils (SSGEO1 and SSGEO2), which resulted from the enrichment of EO with DS and DDS standards respectively. The oils were compared with respect to their toxicity. RESULTS: The chemical composition of the tested oils was evaluated by means of gas chromatography-mass spectrometry. Experimental data from the tested samples revealed high toxicity. In detail, DDS (6.09 mg L(-1)) was the most active, followed by SSGEO2 (7.05 mg L(-1)) and EO (8.01 mg L(-1)), while SSGEO1 and DS were relatively inactive. CONCLUSION: The addition of DDS to EO did not change the toxic effect of the essential oil, whereas the presence of DS in excess produced an enriched essential oil with low toxicity. Furthermore, the antagonistic effect of DS and DDS against the other components of EO was shown by the application of two equations obtained from the literature. Their larvicidal performances were correlated, for the first time, with their detailed chemical composition. Data analysis strongly indicated the toxicity of the other EOsulfur ingredients. 2008 Society of Chemical Industry
Authors: Amy Junnila; Edita E Revay; Gunter C Müller; Vasiliy Kravchenko; Whitney A Qualls; Rui-de Xue; Sandra A Allen; John C Beier; Yosef Schlein Journal: Acta Trop Date: 2015-09-25 Impact factor: 3.112
Authors: Angelica Plata-Rueda; Luis Carlos Martínez; Marcelo Henrique Dos Santos; Flávio Lemes Fernandes; Carlos Frederico Wilcken; Marcus Alvarenga Soares; José Eduardo Serrão; José Cola Zanuncio Journal: Sci Rep Date: 2017-04-20 Impact factor: 4.379
Authors: Ephantus J Muturi; Jose L Ramirez; Bruce Zilkowski; Lina B Flor-Weiler; Alejandro P Rooney Journal: J Insect Sci Date: 2018-03-01 Impact factor: 1.857