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Impact profenophos (pesticide) on infectivity of Biomphalaria alexandrina snails with schistosoma mansoni miracidiaand on their physiological parameters

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DOI: 10.4236/oje.2011.12005    7,693 Downloads   13,711 Views   Citations
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ABSTRACT

Profenophos is an organophosphorus pesticide which are used effectively against cotton insects and mites.The present work was carried out to evaluate the molluscicidal activity of pesticides (Profenophos) against Biomphalaria alexandrina snails. Also, the effect of sublethal concentrations of pesticide on the infection of B. alexandrina with Schistosoma mansoni and some enzymes of energy metabolism were studied. The results showed that the infection of B. alexandrina with schistosoma mansoni was greatly reduced after exposure to LC0, LC10, LC25 of pesticide and also, reduction in number of cercariae per snail during the patent period and in the period of cercarial shedding. The present study indicated that the increase in levels of aminotransaminases, acid phosphatase and alkaline phosphatases enzymes in haemolymph and soft tissue of snails and the activity level of lactate dehydrogenase, hexokinase and pyruvatekinase was also significantly reduced in response to treatment.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Mohamed, R. (2011) Impact profenophos (pesticide) on infectivity of Biomphalaria alexandrina snails with schistosoma mansoni miracidiaand on their physiological parameters. Open Journal of Ecology, 1, 41-47. doi: 10.4236/oje.2011.12005.

References

[1] Food and Agriculture Organization, (1986) Biomarkers of Human Exposure to Pesticides, Environ, Health, Perspect, 105: 801-806.pyrimidine and pyrimidine-purine dimers, FEBS Letters, 158, 293-297.
[2] Abdel-Kader,A.E. Sharaf El-DinA.T.,(1986) Effect of the pesticides carbofuran (carbamate) and profenophos (organophosphorus) on Biomphalaria alexandrina and on its infection with Schistosoma mansoni miracidia. Egypt, Journal Schistosomiasis Infection Endem Disicover, 27, 71-83.
[3] Kishimba, M.A., Henry, L., Mwevura, H., Mmochi, A.J., Mihale, M. and Hellar, H. (2004) The status of pesticide pollution in Tanzania, Talanta, 64, 48-53. doi.org/10.1016/j.talanta.2003.11.047
[4] Savadogo, P.W., Lompo, F., Coulibaly, K., Traoré, O., Traoré, O.S. and Sedogo, M.P. (2009) A Microscom study of endosulfan degradation and its short-term effect on pH and biological parameters of cotton zones soils of Burkina Faso, Journal Environment Science Technology, 2, 12-21 http://dx.doi.org/10.3923/jest.2009.12.21
[5] WHO/UNEP, (1990) Public health impact of pesticides used in agriculture, World Health Organization, Geneva.
[6] Al-Saleh, I.J. (1994) Pesticides: a review article, Journal Environment Pothole Toxicology Oncology, 13, 151-161.
[7] Rawi, S.M., El-Gindy, H.I. and Abdelkader, A. (1994) The effect of some fresh water pollutants on the survival and egg production of the snail B, Alexandrina, 13, 273-288.
[8] Wafaa S.H. and Ragaa T.M. (2011). Bioassay of two pesticides on Bulinus truncatus snails with emphasis on some biological and histological parameters, Pesticide Biochemistry and Physiology, 100, 1-6. doi.org/10.1016/j.pestbp.2011.01.008
[9] WHO, (1965). Molluscicide screening and evaluation, The World Health Orgernization, 33, 567-581.
[10] Litchfield, J.T. and Wilcoxon, F., (1949) A simplified method of evaluating dose effect experiments, Journal Pharmacology Experimental Therapeutics, 96, 99-113.
[11] Tantawy, A.A., Mostafa, B.B. and Sharaf El-Din, A.T. (2004) Molluscicidal activity of Synadenium grantii (Euphorbiaceae) against Biomphalaria alexandrina and Bulinus truncatus the intermediate host snails of schistosomiasis in Egypt and their infectivity with the parasite, Journal of Biomedical Science, 14, 183-196.
[12] Fregia A. and Jenes, D. (1994) Evaluation of abnorm- al liver tests, Comprehensive Therapy, 20, 50-54.
[13] Ham, A.W. and Gomak, D.H. (1979) Histology 8th Edition, Joshua Ballinger Lippincott Company, Philadelphia and Toronto, 764.
[14] Michelson, E.H. (1966) Specificity of hemolymph antigens in taxonomic discrimination of medically important snails, Journal Parasitic, 52, 466-472. doi.org/10.2307/3276312
[15] Reitman, S. and Frankel, S. (1957) A colorimetric method for the determination of serum glutamic oxaloacetic and glutamic pyruvic transaminases, American Journal Clininic Pathology, 28, 56.
[16] Bessey, W.A., Lowry, O.H. and Brock, M.J. (1946) A method for the rapid determination of alkaline phosphatase with five cubic millimeters of serum, Journal Biological Chemistry, 164, 321-329.
[17] Uyeda, K. and Raker, E. (1965) Regulatory mechanisms in carbohydrate metabolism. VII- Hexokinase and phosphofructokinase, Journal Biological Chemistry, 240, 4682-4688.
[18] McManus, D.P. and James, B.L. (1975) Anaerobic glucose metabolism in the digestive gland of Littorina saxatitis rudis (Maton) and the daughter sporocysts Microphallus similis (Tag), Comparative Biochemistry Physiology, 51B, 293-297..
[19] Cabaud, P. and Wroblewski, F. (1958) Colorimetric measurement of lactic dehydrogenase activity of body fluids, American Journal Clininic Pathology, 30, 234.
[20] Spiegel, R.M. (1981) Theory and problems of Statisti- cs, Schaum’s outline series, McGraw-Hill, Singapore.
[21] El-Fiki, S.A. and Mohamed, A.M. (1978) Effect of some herbicides on the toxicity of certain molluscicides against Biomphalaria alexandrina snails, Egyptian Journal Bilhorod, 5, 91-100.
[22] Bakry, F.A. (2006) Effect of methanol extracts of Furcraea gigantean and Lampranthus spectabilis plants on Biomphalaria alexandrina infection by Schistosoma mansoni and on energy metabolism indicators, Journal Schistosomiasis Infection Endem Disicover, 28, 1-14.
[23] Rizk, E.T. (1995) Studies on the effect of certain molluscicidal agents on the snail intermediate host of Schistosoma mansoni, Ph.D. Thesis, Facical Science, Tanta University Egypt, 120.
[24] El-Emam, M., Shoeb, H. and Rifai, L. (1986) Snail control by Calendula micrantha officinalis, Journal Egyptian Sciences Parasitic, 16, 563-571.
[25] Mostafa B.B. and Sharaf El-Din A.T.S. (2003). Effect of the plants Thymus capitatus and Piper nigrum on susceptibility of Biomphalaria snails and Albino mice to Schistosoma mansoni, Egyptian Journal Applied Science, 18, 15-23.
[26] Sharaf EL-Din, A.T. El-Sayed, K. Mohamed, M.B (2004) Effect of Dithiopyridine carboxylic acid (herbicide) on Biomphalaria alexandrina snails and the free larval stages of Schistosoma mansoni, Journal Geramic Socience Zool, 43, 215-229.
[27] Tantawy, A.A. (2002) Effect of two herbicides on some biological and biochemical parameters of Biomphalaria alexandrina, Journal Egyptian Sciences Parasitic, 32, 837-47
[28] Bakry, F.A. (2009) Use of some plant extracts to control Biomphalaria alexandrina snails with empha- sis on some biological effects, Pesticide Biochemistry and Physiology, 95, 159-165. doi.org/10.1016/j.pestbp.2009.08.007
[29] Ibrahim, W.L., Furu, P., Ibrahim, A.M. and Christen- sen, N.O. (1992) Effect of the organophosphorous insecticide, chlorpyrifos (Dursban), on growth, fecundity and mortality of Biomphalaria alexandrina and on the production of Schistosoma mansoni cercariae in the snail, Journal of Helminthol, 66, 79-88. doi.org/10.1017/S0022149X00012633
[30] Sharaf El-Din, A.T., Bakry, F.A. and Tantawy, A. (2001) Molluscicidal activity of Zygophyllum simplex (Family; Zygophyllaceae) against Biomphalaria alexandrina and Bulinus truncatus, Egyptian Journal of Aquatic Biology and Fisheries, 4, 131-143.
[31] El-Ansary, A., El-Bardicy, S. Solima, S.M. and Zayed, N. (2000) Ambrosia maritima (Damsissa) affecting compatibility of Biomphalaria alexandrina snails to infection with Schistosoma mansoni through disturbing some glycolytic enzymes, Journal 1st International Conference Biolgogy Science, (ICBS) Tanta University.
[32] Gawish, F.M. (1997) Evaluation of combination of certain molluscicide against Biomphalaria alexandrina and the free living stages of Schistosoma mansoni, Ph.D. Thesis, Zoology Department Girls College For Arts, Science & Education, Ain Shams University.
[33] Bakry, F.A, Ismail, S.M and Abd El-Monem, S. (2004) Effect of two plant extracts on some Biological and enzymatic activities of Bulinus truncatus with Schistosoma haematobium, Journalof Fish Biology, 8, 313-446.
[34] El-Emam, M.A., El-Amin, S.M., El-Sayed, M.M. and El-Nahas, H.A. (1996) Field trials to control the snail vectors of schistosomiasis and fascioliasis by the plant Anagallis arvensis (Primulaceae), Egyptian Journal Bilhorod, 18, 89-100.
[35] Sabry, N.M. (1996) Laboratory evaluation of Earth Tec (an environmentally responsible copper sulphate product) as a molluscicide against Lymnaea cailliaudi snails, Egyptian Journal Medcine Science, 17, 623-635.
[36] Michelson, E.H. and DuBois, L. (1973) Increased alkaline phosphatase in the and hemolymph of the snail Biomphalaria glabrata infected with Schistosoma mansoni, Comparative Biochemist Physiologic, 44, 763-767.
[37] Aboul-Zahab, A.O and El-Ansary, A. (1992) Biological aspects of controlling snail hosts of bilharziasis using wild and cultivated plant extracts, Ann Agric Science Moshtohor, 30, 1531-1539.
[38] Bakry, F.A., Ragab, F.M.A and Sakran, A.M.A. (2002) Effect of some plant extracts with molluscicidal properties on some biological and physiological parameters of Biomphalaria alexandrina snails, Journal Geramic Socience Zool, 38D, 101-111.
[39] Paul, J., Bekker, A.Y. and Duran, W.N. (1990) Calcium entry prevents leakage of macromolecules induced by ischemia-reperfusion in skeletal muscle, Circulation Research, 66, 1636-1642.
[40] Prasad, M.R., Popeseu, L.M., Moraru, I.I., Liu, X., Maity, S., Engelman, R.M. and Das, D.K. (1991) Role of phospholipase A and C in myocardial schemici repefusion injury, American Journal Physiology, 29, H877-H883.
[41] Mohamed, A.M., Bakry, F.A. and Heiba, F.N. (2000) Effect of sublethal concentrations of Abamectin on Biomphalaria alexandrina snails and the free living stages of Schistosoma mansoni, Egyptian, Journal of Fish Biology, 4, 1-15.

  
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