Evaluation of oils from the plants mentha sativa,] ocimum basilicum and cinnamomum camphor on survival, hepatic enzymes activities and protein electrophoresis of biomphalaria Alexandrina snails

Three plant oils from the plants Spearmint, Basil and Camphor were tested for their molluscicidal activity against Biomaphalaria alexandrina snails. Spearmint oil was more toxic than the other two oils against B. alexandrina. Its Lc50 was 42 ppm; meanwhile the values were 500 and 560 ppm for Basil and Camphor, respectively. Spearmint oil, also, showed a more deleterious effect against both miracidia and cercariae of S. mansoni than the other two oils, all of them were killed after 15 min of exposure to 70 ppm. The present results indicated that the alterations in total protein concentrations in tissues of treated snails were not significantly different from that of control ones. It was noticed, also, that the increase in the activity of ALT enzyme and the decrease in that of AlkP enzyme in tissues of treated snails were not significantly different than that of control snails. However, Spearmint oil at 32 and 42 ppm significantly decreased the activities of AST and ACP activities in snail's tissues in comparison with control ones. The electrophoretic [SDS-PAGE] pattern of tissue soluble proteins extracted from treated and controls B. alexandrina snails showed different plant oils effects on the synthesis of protein within snails yielded a complex pattern of polypeptides ranging in molecular weight between 14.7 to 304.6 KDa. Some bands were present in treated snails especially at Camphor oil and at 500ppm of Basil oil. At least, three bands were absent from tissues of snails treated with 42ppm of Spearmint oil in comparison with control group. The molecular weights of these bands are 14.9, 15.7 and 17.0 KDa. It was, also observed that total number of bands in snails treated with Basil or Camphor oil was more [15-17 bands] than that of control group [13 bands]

Influence of some natural and synthetic substances on certain fresh water organsisms and the snail vectors of Schistosomiasis and Fascioliasis

The effect of plants Anagallis arvensis, Calendula micrantha and Ambrosia maritima and the synthetic chemical molluscicides bayluscide and copper sulphate on survivorship, egg production of the snail vectors of schistosomiasis [Biomphalaria alexandrina] and fascioliasis [Lymnaea natalensis] and on some fresh water organisms were studied. Anagallis arvensis and Calendula micrantha showed good molluscicidal action against B. alexandrina and L. natalensis where LC90 values were 88 and 93 ppm, respectively, for A. arvensis and 135 and 100 ppm, respectively, for Calendula micrantha. The cumulative mortality of B. alexandrina [70%] was considerably high after 4 weeks of continuous exposure to A. arvensis. Complete inhibition of egg production was obtained for B. alexandrina after 2 weeks of exposure to low concentration of C. micrantha, bayluscide and copper sulphate. A. arvensis increased the maximum standing crops of algal biomass of Sirogyra [1.1358 g] and daily specific growth rate [0.0586 g.], while the control was 1.0106 g. and 0.0503 g., respectively. A low toxic effect on Daphnia pula was obtained under the effect of Anagul1is arvensis [5% mortality] and calendula micrantha [25% mortality] compared with synthetic molluscicides suggesting the use of the tested plants as molluscicides

Effect of copper sulphate, certain plants and adjuvants on the snails Biomphalaria alexandrina and Lymnae natalensis and on the zooplankton [Daphnia pulex]

The snails Biomphalaria alexandrina and Lymnaea natalensis were exposed to 1/10 LC50 of copper sulphate or of the plants Anagallis arvensis, Calendula micrantha and Ambrosia maritima. The snails were exposed firstly to copper sulphate then to each of the tested plants and vice-versa. The results showed that the pre-exposure of snails to A. arvensis and C. micrantha plants increased the molluscicidal action of copper sulphate against B. alexandrina and L. natalensis where it caused an additive effect. The pre-exposure to A. maritima caused different effects with copper sulphate, where it showed antagonistic effect on B. alexandrina and additive effect on L. natalensis snails. The pre-exposure of snails to copper sulphate increased the molluscicidal action of the tested plants against B. alexandrina and L. natalensis where it caused synergistic effect in case of Anagallis arvensis and Calendula micrantha against L. natalensis and additive effect in the rest of the treatments. Mixing of copper sulphate with each of the tested plants at different ratios caused antagonism in the molluscicidal activity of copper sulphate against B. alexandrina and L. natalensis snails. The addition of each of the following adjuvants; mono-ethylene glycol mono-oleate, mono-ethylene glycol di-oleate, potassium di-hydrogen phosphate and KZ mineral oil to copper sulphate increased the molluscicidal activity of copper sulphate against B. alexandrina, where it caused synergistic effect. In case of L. natalensis, mono-ethylene glycol mono-oleate and mono-ethylene glycol di-oleate caused an additive effect; while, potassium di-hydrogen phosphate and KZ mineral oil induced antagonistic effect. The result of examination of the toxic effect of copper sulphate in combination with each of the tested adjuvant against Daphnia pulex indicated that the treatment of copper sulphate and mono-ethylene glycol di-oleate increases the molluscicidal activity of copper sulphate and at the same time reduces its toxic effect against non-target organisms [Daphnia] and is the best for application

Impact of desiccation on biology of Biomphalaria alexandrina and Bulinus truncatus snails

Biomphalaria alexandrina and Bulinus truncates snails were exposed to either complete or partial desiccation. Complete desiccation was carried out in dried plastic jars, while in partial one, the snails were exposed on filter paper saturated with dechlorinated and chlorinated water. Desiccation periods were 1 or 3 days, followed by recovery [1, 4, 6 and 8 days]. This technique was continued throughout 6 weeks for B. truncates and 18 weeks for B. alexandrina. Also, the hatchability of eggs laid by desiccated B. alexandrina eggs was evaluated. All treatments of both partial and complete desiccation decreased the survival and net reproductive rates of B. alexandrina and B. truncates snails. The net reproductive rates for snails partially desiccated for 24hr, followed by 6 days of recovery were reduced by 72.3% and 57.9% for B. alexandrina and B. truncates, respectively. Moreover, elongation of partial desiccation to 3 days, followed by 4 days of recovery highly suppressed this parameter for B. truncates to be 1.68 compared to 13.29 for control groups as well the life span of desiccated snails was shortened. In addition, B. truncates could not survive after 3 days of complete desiccation followed by 4 days of recovery, while only 7% of B. alexandrina survived at the 6th week of the test. Data also indicated that hatchability of B. alexandrina eggs obtained from snails exposed to both types of desiccation was not approximately affected, but the hatchability period was elongated in some treatments

Difference in the susceptibilty to certain molluscicides and Schistosoma mansoni infection of three forms Egyptian Biomphalaria glabrata

The first generation of three morphologically different forms of B. glabrata collected from Giza was compared for LC50 values susceptibility to bayluscide and copper sulfate [chemical molluscicides], Anagallis arvensis and Calendula micrantha [plant molluscicides] as well as to Schistosoma mansoni infection. Form 2 as juvenile and adult was less sensitive to C. Micrantha and A. arvensis. Form 3 as juvenile and form 1 as adult were least sensitive to CuSO4. Approximately, the same susceptibility to bayluscide was observed in the three forms, either as juvenile or adult. The sublethal concentrations of the molluscicides on the three forms of B. glabrata showed no significant difference in the growth or survival rate in-between. Form 2 was significantly higher in the egg-laying capacity. The total protein concentration was not affected, except in certain cases, where the increase was primarily due to the increase in the globulin concentrations which was observed with the marked increase observed in the urea concentration and the marked increase or inhibition in the activity of either aspartate aminotransferase [AST] or alanine aminotransferase [ALT]. The digestive gland of the three forms of B. glabrata showed a low susceptibility to infection with the local strain of S. mansoni

Molluscicidal activities of certain pesticide and their mixtures against Biomphalaria alexandrina

In this study, Biomphalaria alexandrina snails were collected from irrigation canals at Giza Governorate and maintained on fresh lettuce leaves under suitable laboratory conditions. Niclosamide and uccmaluscide proved to be the most effective compounds, followed by copper sulfate. This was followed by anilofos, isoprothiolane and fluazifop-P-butyl. Moreover, butachlor herbicide was the least potent compound. In general, the specific molluscicides showed more efficiency than the conventional tested herbicides and fungicides on the treated snails. Pre-exposure to 1/10 LC50 of anilofos, butachlor and isoprothiolane showed synergistic effects to uccmaluscide. However, the same treatment with 1/10 LC50 of fluazifop-P-butyl, isoprothiolane and butachlor gave an additive effect to copper sulfate and niclosamide on the treated snails. Data indicated that when butachlor, anilofos, fluazifop-P-butyl or isoprothiolane added to copper sulfate at ratios of 10:40 and 20:30 of LC50 as well as anilofos when added to copper sulfate at 30:20 showed synergism in activity against snails. On the contrary, the tested mixtures with niclosamide resulted in an antagonistic action, while they showed synergistic effect. Isoprothiolane-uccmaluscide mixture at a ratio of 40:10 of LC50 showed an additive effect on the snails. The determination of niclosamide by gas chromatography indicated that niclosamide showed relatively slower degradation either in case of niclosamide or its mixture with butachlor. Meanwhile, its mixture with anilofos or fluazifop-p-butyl or isoprothiolane showed a rapid degradation