Insecticidal Properties and Chemical Composition of Conyza Aegyptiaca (L.) Oil: Studies on Two Dipterous Insect Pests

Mansour, Sameeh A.; Mohamed, R. I.

doi:10.2174/1875414701305010001

Cited by 6 publications

(3 citation statements)

References 32 publications

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“…Larvicidal bioassay was done in accordance to Mansour and Mohamed (2013) using 20 larvae in the presence of 100 g of semisynthetic diet (described above) with 50 ml water containing the tested concentrations of the extracts (0.5, 1, 2, 3 g/ L). Mortality was recorded at 24, 48, and 72 h after treatment during which any change in mobility and appearance of larvae was noted down.…”

Section: Larval Feeding Bioassaymentioning

confidence: 99%

Musca domestica laboratory susceptibility to three ethnobotanical culinary plants

Zayyat

Soliman²,

Elleboudy

et al. 2015

Environ Sci Pollut Res

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Throughout history, synanthropic Musca domestica had remained a worldwide problem whenever poor sanitation and bad hygienic conditions exists. Houseflies growing resistance to chemical insecticides are a rising environmental problem that necessitates search for alternatives. Mentha cervina, Ocimum basilicum, and Coriandrum sativum were tested for bioactivity on M. domestica adults and larvae. They are culinary Mediterranean plants. In adulticidal bioassay, using both CDC bottles and fumigation techniques, basil was the most effective extract with LC50 1.074 and 34.996 g/L, respectively. Concerning larvicidal bioassay by fumigation technique, coriander had the highest toxicity index with LC50 29.521 g/L. In both dipping and feeding technique, basil had the highest toxicity with LC50 32.643 and 0.749 g/L, respectively. Basil showed the highest toxicity results in four out of the five models tested followed by coriander then mint; this result highlights the potentiality of basil as a green insecticide in management of flies and opens new insight in the industrialization of basil-based fly control products.

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Section: Larval Feeding Bioassaymentioning

confidence: 99%

Musca domestica laboratory susceptibility to three ethnobotanical culinary plants

Zayyat

Soliman²,

Elleboudy

et al. 2015

Environ Sci Pollut Res

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“…In Togo, a large part of the population continues to use plants remedies for their primary healthcare (Kpodar et al, 2016), including the management of central nervous system disorders (Kantati et al, 2016). Conyza aegyptiaca is one of these medicinal plants of Togolese flora, whose scientific studies have revealed its antioxidant potential through its antimicrobial (Anani et al, 2000), antihypertensive and cardioprotective (Kpegba et al, 2011), antimalarials and insecticides (Mansour and Mohamed, 2013), and antihyperglycemic's properties (Akakpo et al, 2016(Akakpo et al, , 2017. However, none of these scientific studies have focused on its neuroactive potential.…”

Section: Introductionmentioning

confidence: 99%

Neuroprotective activity of Conyza aegyptiaca hydroethanolic extract against ethanol-induced neurodegeneration in adolescent Wistar rats brain

Yendubé¹,

Kanfitine²,

Mabozou³

et al. 2022

J. Neurosci. Behav. Health

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Alcohol consumption is a common well-known source of brain damages. This work aimed to evaluate the neuroprotective effect of Conyza aegyptiaca against ethanol-induced neurodegeneration in a Wistar rat binge drinking model. Animals, pretreated orally once a day during 3 days with the hydroethanolic extract of C. aegyptiaca (HECA 250 and 500 mg/kg), received daily intraperitoneally 7 g/kg of ethanol for 3 more days, concomitantly with HECA. Behavioral studies, brains tissue oxidative stress markers (MDA, GSH) assays, blood cell count and biochemistry analysis were performed. In vitro antioxidant activity using DPPH and FRAP tests and phytochemical tests were also realized. The negative geotaxis test showed that HECA 500 rats took significantly less time (3.24 ± 0.49 s, P<0.05 vs Ethanol control) compared to their congeners of Ethanol control group (6.80 ± 1.267 s, P<0.01 vs Sham). HECA treatment lowered significantly MDA levels (P<0.05 vs Ethanol control) and significantly increased GSH levels (P<0.05 vs Ethanol control). HECA treatment also significantly reduced the platelet count (P<0.001 vs Ethanol control). Ethanol 7 g/kg i.p raised hepatic function markers ALT and AST (respectively +27%, P<0.01 and +58.29%, P<0.01 vs Sham), effects significantly reversed by HECA treatments. DPPH scavenging activity with an IC50 of 368.769 ± 16.467 µg/mL and ferric ion reducing power with an EC50 of 139.65 ± 7.14 µg/mL should be related to the polyphenolic compounds found in HECA, tannins and flavonoids in particular. C. aegyptiaca could therefore potentially protect the brain against situations of neurodegeneration such as those observed in acute ethanol neurotoxicity.

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“…Many studies revealed satisfactory results from the use of several essential oils for the house fly M. domestica management (Abdel Halim and Morsy, 2005;Sinthusiri and Soonwera, 2013;Pinto et al, 2015). In addition, the synergistic action of essential oils with conventional chemical pesticide previously studied (Mansour and Mohamed, 2013).…”

Section: Introductionmentioning

confidence: 99%

The Toxic Spectrum of Ricinus Communisand Zingiber Officinalis Essential Oils against Musca Domestica L.

Bosly¹

2017

American Journal of Agricultural and Biological Sciences

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The housefly, Musca domestica L., is a cosmopolitan insect, associated with various diseases and is one of the species with the greatest ability to develop resistance to insecticides. The study designed to evaluate the larvicidal, pupicidal, adulticidal and ovicidal effect of lethal concentrations LC50 of R. communis and Z. officinalis essential oils against the housefly M. domestica L. The larvicidal mortality (LC50) values of R. communis and Z. officinalis essential oils against M. domestica were 349.40 ppm and 132.60 ppm, with mortality percentage 46.67±2.89 and 50.00±0.00, respectively. The LC50 doses showed pupation mortality percentage (31.21 and 46.67) and adult mortality percentage (36.90 and 63.33), respectively. As compared to control, the treated 2 nd larval instar with either R. communis or Z. officinalis essential oils showed significant decline in the fecundity of M. domestica females through significant decrease in the total eggs number as compared to control (72.67% and 62.00%) with Effective Repellency (ER%) (51.34 and 58.48) and the Oviposition Activity (OAI) (-0.35 and -0.41), respectively. The hatchability of eggs recorded significant reduction as compared to control (86.38% and 73.66%) for R. communis and Z. officinalis, respectively. The present study revealed toxic properties of the tested plant extracts of R. communis and Z. officinalis against M. domestica L. and pave the way for its use as a measure of the eco-friendly housefly control.

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Insecticidal Properties and Chemical Composition of Conyza Aegyptiaca (L.) Oil: Studies on Two Dipterous Insect Pests

Cited by 6 publications

References 32 publications

Musca domestica laboratory susceptibility to three ethnobotanical culinary plants

Musca domestica laboratory susceptibility to three ethnobotanical culinary plants

Neuroprotective activity of Conyza aegyptiaca hydroethanolic extract against ethanol-induced neurodegeneration in adolescent Wistar rats brain

The Toxic Spectrum of Ricinus Communisand Zingiber Officinalis Essential Oils against Musca Domestica L.

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