AE  Vol.1 No.2 , October 2013
Characterization of insect-fauna of the free-ranging urban dog, Canis domesticus (L.) carcass in tropical region of Pakistan: A tool for forensic entomology
Abstract: As the authors’ request, the following paper published in Vol.1, No.2, 29-37, 2013 has been withdrawn from the website.
Cite this paper: Perveen, F. and Khan, A. (2013) Characterization of insect-fauna of the free-ranging urban dog, Canis domesticus (L.) carcass in tropical region of Pakistan: A tool for forensic entomology. Advances in Entomology, 1, 29-37. doi: 10.4236/ae.2013.12007.

[1]   Olive Oil Pakistan (2001) Promotion of the production and marketing of olive oil.

[2]   Collins, J. (2001) Cobuild English dictionary for advanced learners. Harper Collins Publishers, Glasgow, 514-616.

[3]   Goff, M.L. (2000) A fly for the prosecution: How insect evidence helps solve crimes. Harvard University Press, Cambridge, 1-225.

[4]   Benecke, M. (2001) A brief history of forensic entomology. Forensic Science International, 120, 2-14.

[5]   Kashyap, V.K. and Pillai, V.V. (1989) Efficacy of entomological method in estimation of postmortem interval: A comparative analysis. Forensic Science International, 40, 245-250.

[6]   Payne, J.A. (1965) A summer carrion study of the baby pig, Sus scrofa Linnaeus. Ecology, 46, 592-602.

[7]   Lord, W.D. (1990) Case histories of use of insects in investigations. In: Catts, E.P. and Haskell, N.H., Eds., Entomology and Death, a Procedural Guide, Joyce’s Print Shop Inc., Clemson, 9-37.

[8]   Putman, R.J. (1977) Dynamics of the blowfly Calliphora erythrocephala within carrion. Animal Ecology, 46, 853- 866.

[9]   Putman, R.J. (1983) Carrion and dung: The decomposition of animal wastes. Edward Arnold, London, 1-29.

[10]   Goff, M.L. (1993) Estimation of post mortem interval by using the arthropod development and succession patterns. Forensic Science Review, 5, 82-94.

[11]   Tantawi, T.I., El-Kady, E.M., Greenberg, B. and Elghaffar, H.A. (1996) Arthropod succession on exposed rabbit carrion in Alexandria, Egypt. Medical Entomology, 33, 566-580.

[12]   Catts, E.P. and Haskell, N.H. (1990) Entomology and death: A procedural guide. Joyce’s Print Shop Inc., Clemson, 1-182.

[13]   Galloway, A., Birkby, Jones, W.H., Henry, A.M. and Parks, B.O. (1989) Decomposition rates of human remains in an arid environment. Journal of Forensic Sciences, 34, 607-616.

[14]   Schoenly, K. and Reid, W. (1982) Community structure of carrion arthropods in the Chihuahuan Desert. Arid Environments, 6, 253-263.

[15]   Hegazi, E.M., Shaaban, M.A. and Sabry, E. (1991) Carrion insects of the Egyptian Western Desert. Medical Entomology, 28, 734-739.

[16]   Cornaby, B.W. (1974) Carrion reduction by animals in contrasting tropical habitats. Biotropica, 6, 51-63.

[17]   Davis, J.B. and Goff, M.L. (2000) Decomposition patterns in terrestrial and intertidal habitats on Oahu Island and Cocktail Island, Hawaii. Forensic Sciences, 45, 836-842.

[18]   Beck, S.D. (1983) Insect thermoperiodism. Annual Reviews of Entomology, 28, 91-108.

[19]   Anderson, G.S and Vanlaerhoven, S.L. (1996) The initial studies on insect succession on carrion in South Western British Columbia. Forensic Sciences, 41, 617-625.

[20]   Greenberg, B. and Kunich, J.C. (2002) Entomology and the law: Flies as forensic indictors. Cambridge University Press, Cambridge.

[21]   Hall, J.C. (1974) Inside the crime lab. Prentice Hall Inc., Oxford, 154p.

[22]   Megnin, J.P. (1894) La Faune des Cadavres: Application de l’entomologie à la Médecine Légale. Encyclopédie Scientifi que des Aide-Mémoire, Masson, Gauthiers-Villar et Fils, Paris, 214p.

[23]   Von Niezabitowski, E. (1902) Experimentalle betrage zur lehre von der Leichenfauna-Vierteljahresschrift fur gerichrift. Medizin und Offentliches Sanitatswesen, 1, 4400-4450.

[24]   Lane, R.P. and Brian, L. (1992) The encyclopaedia of forensic science. Headline Book Publishing PLC, London, 321p.

[25]   Carvalho, L.M.L. and Linhares, A.X. (2001) Seasonality of insect succession and pig carcass decomposition in a natural forest area in Southeastern Brazil. Forensic Sciences, 46, 604-608.

[26]   White, S.R., Aubertin, D. and Smart, J. (1940) The fauna of British India including the remainder of the Oriental region. Taylor and Francis Ltd., London, 288p.

[27]   Dodge, H.R. (1953) Domestic flies: Pictorial key to common species in southern US. US Department of Health, Education and Welfare, International Congress of Entomology, New York, 12-494.

[28]   Seago, J.M. (1953) Fly larvae: Pictorial key to some common species. US Department of Health, Education and Welfare, New York, 125-133.

[29]   Furman, D.P. and Catts, E.P. (1982) Manual of medical entomology. Cambridge University Press, Cambridge, London, 207p.

[30]   Wells, J.D., Byrd, J.H. and Tantawi, T.I. (1999) Key to third-instar Chrysomyinae (Diptera: Calliphoridae) from carrion in the continental United States. Journal of Medical Entomology, 36, 638-641.

[31]   Ali, P.A., Zahid, M., Shah, M., Sthanadar, A.A., Ahmad, A., Mehmood, T., Perveen, F. and Shah, M. (2013) Forensically important Diptera species associated with Dog carcass (Canis domesticus L.) for a case study in District Mardan, Pakistan. International Journal of Biosciences (IJB), 3, 128-134.

[32]   Linnaeus, C. (1758) Tomus I. Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Editio decima, reformata. Holmiae (Laurentii Salvii), 1-4, 1-824.

[33]   Bharti, M. and Singh, D. (2003) Insect faunal succession on decaying rabbit carcasses in Punjab, India. Forensic Science, 48, 1133-1143.

[34]   Shi, Y.-W., Liu., S.-G., Wang, H.-Y. and Zhang, R.-J. (2009) Seasonality of insect succession on exposed rabbit carrion in Guangzhou, China. Insect Science, 16, 425-439.

[35]   Vitta, A., Wilawa, P. and Udomoak, T. (2007) A preliminary study on insects associated with pig carrion in Phitsumulok, Northen Thialand. Biomedicine, 24, 1-5.

[36]   Carvalho, L.M., Thyssen, P.J. and Linhares, A.X. (2000) A checklist of arthropods associated with pig carrion and human corpses in Southeastern Brazil. Memorial Institution Oswaldo Cruz Rio de Janeiro, 95, 135-138.

[37]   Byrd, J.H. and Butler, J.F. (1997) Effects of temperature on Chrysomya rufifacies (Diptera: Calliphoridae) development. Medical Entomology, 34, 353-358.

[38]   Hewadikaram, K.A. and Goff, M.L. (1991) Effect of carcass size on rate of decomposition and arthropod succession patterns. American Journal of Forensic Medicine and Pathology, 12, 235-240.

[39]   Ames, C. and Turner, B. (2003) Low temperature episodes in development of blowflies: Implications for postmortem interval estimation. Medical and Veterinary Entomology, 17, 178-186.

[40]   Denno, R.F. and Cothran, W.R. (1976) Competitive interactions and ecological strategies of Sarcophagid and Calliphorid flies inhabiting rabbit carrion. Entomological Society of America, 69, 109-113.

[41]   Ahmad, A. and Ahmad, A.H. (2009) A preliminary study on the decomposition and dipteran associated with exposed carcasses in an oil palm plantation in Bandar Baharu, Kedah, Malaysia. Tropical Biomedicine, 26, 1-10.