Subscribe Now Subscribe Today
Abstract
Fulltext PDF
References
Research Article
 

Effect of Cypermethrin on Protein Contents in Lizard Calotes versicolor in Comparison to That in Frog Rana tigrina



Muhammad Zaheer Khan , Farina Fatima and Imtiaz Ahmad
 
ABSTRACT

The present study highlights the effect of cypermethrin (0.1 and 1% concentration) on kidney and liver of Calotes versicolor and in Rana tigrina. In the case of Calotes versicolor, a decrease in protein contents was found upto 16 and 40% in liver and 17 and 35% in kidney, respectively. It was observed that protein contents were decreased in Rana tigrina upto 69 and 79% in kidney and 44 and 76% in liver, respectively.

Services
Related Articles in ASCI
Similar Articles in this Journal
Search in Google Scholar
View Citation
Report Citation

 
  How to cite this article:

Muhammad Zaheer Khan , Farina Fatima and Imtiaz Ahmad , 2002. Effect of Cypermethrin on Protein Contents in Lizard Calotes versicolor in Comparison to That in Frog Rana tigrina . Journal of Biological Sciences, 2: 780-781.

DOI: 10.3923/jbs.2002.780.781

URL: https://scialert.net/abstract/?doi=jbs.2002.780.781

REFERENCES
Abdulali, H., 1985. On the export of frog legs from India. J. Bombay Nat. Hist. Soc., 2: 347-375.
Direct Link  |  

Ahmad, I., A. Shamshad and R. Tabassum, 2000. Effect of neem extract in comparison with cypermethrin (10 EC) and methylparathion (50 EC) on cholinesterase and total protein content of adult Tribolium castaneum (PARC strain). Bull. Pure Applied Sci., 19: 55-61.

Alvarz, R., M.P. Honrubia and M.P. Herraez, 1995. Skeletal malformations induced by the insecticides ZZ Aphox and Folidol during larval development of Rana perezi. Arch. Environ. Contam. Toxicol., 28: 349-356.
PubMed  |  Direct Link  |  

Antony, A.J. and K. Ramalingham, 1990. Phosalone toxicity on the movements and feeding behaviour of Rana tigrina (Daudin). Uttar Pradesh J. Zool., 10: 180-181.

Balasundaram, K. and V.R. Selvarajan, 1990. Inhibition of acetylcholinesterase in the central nervous system of Rana tigrina by an organophosphate. J. Biochem. Toxicol., 5: 65-66.

Bauer Dial, C.A. and N.A. Dial, 1995. Lethal effects of the consumption of field levels of paraquat-contaminated plants on frog tadpoles. Bull. Environ. Contam. Toxicol., 55: 870-877.
CrossRef  |  Direct Link  |  

Berrill, M., S. Bertram, B. Pauli, D. Coulson, M. Kolohon and D. Ostrander, 1995. Comparative sensitivity of amphibian tadpoles to single and pulsed exposures of the forest-use insecticide fenitrothion. Environ. Toxicolo. Chem., 14: 1011-1018.
Direct Link  |  

Bradbury, S.P. and J.R. Coats, 1989. Comparative Toxicology of the Pyrethroid Insecticides: Reiews of Environmental Contamination and Toxicology, Vol. 108, Springer-Verlag, New York, pp: 132-177.

Haya, K., 1989. Toxicity of pyrethroid insecticides to fish. Environ. Toxicol. Chem., 8: 381-391.
Direct Link  |  

Hilton-Taylor, C., 2000. IUCN Red List of Threatened Species. IUCN, Gland, Switzerland and Cambridge, UK., pp: 18-61.

Jacques, M., 1999. Bengali frog legs export and uses of pesticides. TED Case Studies No. 508 Vol. 9(1).

Kegley, S., L. Neumeister and T. Martin, 1999. Disrupting the Balance: Ecological Impacts of Pesticides in California. Pesticide Action Network, California, pp: 99.

Khan, M.S., 1990. The impact of human activity on the status and distribution of amphibians in Pakistan. Hamadryad, 15: 21-24.
Direct Link  |  

Khan, M.Z. and F. Fatima, 2002. Comparison of induced effect of pyrethroid (Cypermethrin) with organophosphate (Malathion) on GOT and GPT in liver, kidney and brain of Calotes versicolor daudin (Agamidae: Reptilia). J. Biol. Sci., 2: 408-410.
CrossRef  |  Direct Link  |  

Khan, M.Z., 2000. Determination of induced effect in Agama against permethrin and neem fractions and their effect on proteinic and enzymatic pattern. Ph.D. Thesis, Department of Zoology, University of Karachi, Pakistan.

Khan, M.Z., 2002. Comparison of induced effect of pyrethroid (permethrin) with phytopesticide (Biosal) on cholinesterase activity against lizard Calotes versicolor (Agamidae). J. Nat. Hist. Wildlife, 1: 15-20.

Khan, M.Z., S.N.H. Naqvi, M.F. Khan, T. Rahila, I. Ahmad and F. Farina, 2002. Induced effect of Biosal on GOT and GPT in wildlife species of Agama lizard calotes versicolor. Pak. J. Biol. Sci., 4: 611-612.

Khan, M.Z., T. Rahila, S.N.H. Naqvi, Z.S. Erum and T. Farhana et al., 2002. Induced effect of cypermethrin and permethrin on cholinesterase activity and protein contents in Rana tigrina (Amphibia). Turk. J. Zool., 27: 243-246.

Larson, D.L., S. Mcdonald, A. Fivizzani, W. Newton and S. Hamilton, 1998. Effects of the herbicide atrazine on Ambystoma tigrinum metamorphosis: Duration, larval growth and hormonal response. Physiol. Zool., 71: 671-679.
Direct Link  |  

Martin, E.P., G.J.J. Flick and L.M. Davis, 1995. Other Aquatic Life of Economic Significance: Frogs and Frog Legs. Lancaster, Technomic Pub. Co. Inc., UK., pp: 279-287.

Martin, R.E., 2000. Other Aquatic Life of Economic Significance Frogs and Frog Legs. Lancaster, Technomic Pub. Co. Inc., UK.

Mayer, F.L. and M.R. Ellersieck, 1986. Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals. U.S. Department of the Interior, Washington D.C., pp: 160.

Mineau, P., 1993. The hazard of carbofuran to birds and other vertebrate wildlife. Technical Report Series No. 177, Canadian Wildlife Service.

Pandian, T.J. and M.O. Martian, 1986. Production and utilization of frogs an ecological view. Proc. Indian Acad. Sci. Anim. Sci., 95: 289-301.
Direct Link  |  

Parsons, K.C., A.C. Matz, M.J. Hooper and M.A. Pokras, 2000. Monitorinh eading bird exposure to agricultural chemicals using serum cholinesterase activity. Environ. Toxicol. Chem., 19: 1317-1323.

Pauli, B.D. and S. Money, 2000. Ecotoxicology of pesticides in reptiles: Ecotoxicology of amphibians and reptiles. Soc. Environ. Toxicol. Chem., pp: 269-324. http://dsp-psd.pwgsc.gc.ca/Collection/CW69-5-357E.pdf

Taylor, S.K., E.S. Williams and K.W. Mills, 1999. Effects of malathion on disease susceptibility in Woodhouses toads. J. Wildlife Dis., 35: 536-541.
Direct Link  |  

©  2019 Science Alert. All Rights Reserved
Fulltext PDF References Abstract