Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-11-27T22:05:05.307Z Has data issue: false hasContentIssue false

Filth flies associated with municipal solid waste and impact of delay in cover soil application on adult filth fly emergence in a sanitary landfill in Pulau Pinang, Malaysia

Published online by Cambridge University Press:  10 January 2013

A.T. Nurita*
Affiliation:
School of Biological Sciences, Universiti Sains Malaysia, 11800, Minden Pulau Pinang, Malaysia
A. Abu Hassan
Affiliation:
School of Biological Sciences, Universiti Sains Malaysia, 11800, Minden Pulau Pinang, Malaysia
*
* Author for correspondenceFax: +604-6565125 E-mail: [email protected]

Abstract

Two types of municipal solid waste (MSW), newly arrived and 2 weeks old, were sampled from a sanitary landfill in Pulau Pinang, Malaysia at a fortnightly interval and kept under field conditions for 2 weeks. A total of 480 kg of each type of MSW was sampled to study species composition and impact of delays in cover soil applications on filth fly emergence. Out of 960 kg of MSW sampled, 9.2 ± 0.5 flies emerged per kilogram. Weekly adult fly emergence rates of newly arrived and 2-week-old waste did not differ significantly and MSW remained suitable for fly breeding for up to 1 month. Eight species of flies emerged from the MSW: namely, Musca domestica, Musca sorbens, Synthesiomyia nudiseta, Hydrotaea chalcogaster, Chrysomya megacephala, Lucilia cuprina, Hemipyrellia ligurriens and Sarcophaga sp. Newly arrived waste was determined to be the main source for M. domestica, C. megacephala and L. cuprina in the landfill owing to significantly higher mean emergence compared with 2-week-old waste. Musca sorbens was found in newly arrived waste but not in 2-week-old waste, suggesting that the species was able to survive transportation to landfill but unable to survive landfill conditions. Hemipyrellia ligurriens, H. chalcogaster and S. nudiseta were not imported into the landfill with MSW and pre-existing flies in and around the landfill itself may be their source. The results show that landfills can be a major source of fly breeding if cover soil or temporary cover is not applied daily or on a regular schedule.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 2013

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abdel-Gawaad, A.A. & Stein, W. (1978) Studies on the insect fauna of refuse tips. II Aerobic refuse tips as breeding grounds for synanthropic flies (Diptera: Muscidae and Calliphoridae). Zeitschrift fuer Angewandte Zoologie 53, 357365.Google Scholar
Amano, S. (2005) A practical guide to landfill management in pacific island countries – how to improve your waste disposal facility and its operation in an economical and effective way. p. 52 in South Pacific Regional Environment Programme (SPREP) and Japan International Cooperation Agency (JICA).Google Scholar
Andrewartha, H.G. & Birch, C. (1954) The Distribution and Abundance of Animals. Chicago, University of Chicago Press.Google Scholar
Baharudin, O., Abdullah, M.M. & Azliza, A. (2003) Synanthropic index of flies (Diptera: Muscidae and Calliphoridae) collected at several locations in Kuala Lumpur and Gombak, Malaysia. Tropical Biomedicine 20, 7782.Google Scholar
Banjo, A.D., Lawal, O.A. & Adeduji, O.O. (2005) Bacteria and fungi isolated from housefly (Musca domestica L.) larvae. African Journal of Biotechnology 4, 780784.Google Scholar
Barrett, A. & Lawlor, J. (1995) The Economics of Waste Management in Ireland. Dublin, Economic and Social Research Institute.Google Scholar
Boase, C.J. (1999) Trends in urban refuse disposal: a pest's perspective. pp. 8398 in Robinson, W.H., Rettich, F. & Rambo, G.W. (Eds) Proceedings of the 3rd International Conference on Urban Pests. Czech Republic, Grafické Závody Hronov.Google Scholar
de Carvalho, C.J.B. & de Mello-Patiu, C.A. (2008) Key to the adults of the most common forensic species of Diptera in South America. Revista Brasileira de Entomologia 52, 390406.CrossRefGoogle Scholar
Chakrabarti, S., Kambhampati, S. & Zurek, L. (2010) Assessment of house fly dispersal between rural and urban habitats in Kansas, USA. Journal of the Kansas Entomological Society 83, 172188.CrossRefGoogle Scholar
Chong, T.L., Matsufuji, Y. & Hassan, M.N. (2005) Implementation of the semi-aerobic landfill system (Fukuoka method) in developing countries: a Malaysia cost analysis. Waste Management 25, 702711.CrossRefGoogle ScholarPubMed
Consumers’ Association of Penang (CAP) (2001) Malaysia country report. pp. 12 in Proceedings of Waste Not Asia 2001. Taiwan, CAP.Google Scholar
Couri, M.S. (2010) Key to the Australasian and Oceanian genera of Muscidae (Diptera). Revista Brasileira de Entomologia 54, 529544.CrossRefGoogle Scholar
Crosskey, D.W. & Lane, R.P. (1993) House flies, blowflies and their allies (Calyptrate, Diptera). pp. 403428 in Lane, R.P. & Crosskey, R.W. (Eds) Medical Insects and Arachnids. London, Chapman & Hall.CrossRefGoogle Scholar
Dhillon, M.S., Mandeville, D. & Challet, G.L. (1983) Impact of Uncovered Active Face of Sanitary Landfills on Vector Populations: Bionomics of Flies at Four Landfills in Orange County, California. Santa Avia, California, Orange County Vector Control District.Google Scholar
Ellis, S.A. (1998) Fly control on landfill: a literature review (contract report for Enventure Ltd). Available online at http://www.mondegreen.org.uk/documents/Flycontrolonlandfillsites-literaturestudy.pdf (accessed 18 November 2012).Google Scholar
Farkas, R., Hogsette, J.A. & Börzsönyi, L. (1998) Development of Hydrotaea aenescens and Musca domestica (Diptera: Muscidae) in poultry and pig manures of different moisture content. Environmental Entomology 27, 695699.CrossRefGoogle Scholar
Ferriera, M.J.D.M. & Lacerda, P.V.D. (1993) Synanthropic muscoids associated with the urban garbage in Goiania, Goias. Revista Brasileira de Zoologia 10, 185195.Google Scholar
Field, A.P. (2005) Discovering Statistics Using SPSS. London, Sage Publications.Google Scholar
Geden, C.J., Stinner, R.E. & Axtell, R.C. (1988) Predation by predators of the house fly in poultry manure: effects of predator density, feeding history, interspecific interference, and field conditions. Environmental Entomology 17, 320329.Google Scholar
Goddard, J. (1996) Physicians Guide to Arthropods of Medical Importance. Boca Raton, Florida, CRC Press.Google Scholar
Goh, B.L. (2007) National Reports: Malaysia. Tokyo, Asian Productivity Organisation (APO). Available online at http://www.apo-tokyo.org/00e-books/IS-22_SolidWasteMgt/IS-22_SolidWasteMgt.pdf (accessed 18 November 2012).Google Scholar
Goulson, D., Hughes, W.O.H. & Chapman, J.W. (1999) Fly populations associated with landfill and composting sites used for household refuse disposal. Bulletin of Entomological Research 89, 493498.CrossRefGoogle Scholar
Government Engineering (2006) Landfill design and operation: Disposal sites, the final links in the waste handling chain, are usually transfer stations and sanitary landfills. Government Engineering, May–June 2006, 3842. Available online at http://www.govengr.com/ArticlesMay06/landfilldesign.pdf (accessed 18 November 2012).Google Scholar
Graczyk, T.K., Knight, R., Gilman, R.H. & Cranfield, M.R. (2001) The role of non-biting flies in the epidemiology of infectious diseases. Microbes and Infection 3, 231235.CrossRefGoogle Scholar
Greenberg, B. & Kunich, J.C. (2002) Entomology and the Law: Flies as Forensic Indicators. Cambridge, UK, Cambridge University Press.Google Scholar
Harwood, R.F. & James, M.J. (1979) Entomology in Human and Animal Health, 7th edn. New York, Macmillan Publishing.Google Scholar
Hogsette, J.A., Farkas, R. & Coler, R.R. (2002) Development of Hydrotaea aenescens (Diptera: Muscidae) in manure of unweaned dairy calves and lactating cows. Journal of Economic Entomology 95, 527530.CrossRefGoogle ScholarPubMed
Hoornweg, D. & Thomas, L. (1999) What a Waste: Solid Waste Management in Asia. Washington D.C., The International Bank for Reconstruction and Development, The World Bank.Google Scholar
Idaman Bersih Sdn. Bhd (2007) Pulau Burung Landfill. Available online at http://www.umpangroup.com.my/idaman/index.asp?page=services&submenu=pb (accessed 18 November).CrossRefGoogle Scholar
Isa, M.H., Asaari, F.A.H., Ramli, N.A., Ahmad, S. & Siew, T.S. (2005) Solid waste collection and recycling in Nibong Tebal, Penang, Malaysia: a case study. Waste Management and Research 23, 565570.CrossRefGoogle ScholarPubMed
Jiang, Y., Lei, C., Niu, C., Fang, Y., Xiao, C. & Zhang, Z. (2002) Semiochemicals from ovaries of gravid females attract ovipositing female houseflies, Musca domestica. Journal of Insect Physiology 48, 945950.CrossRefGoogle ScholarPubMed
Keiding, J. (1986) Vector Control Series: the Housefly. Training and Information Guide (WHO/VBC/86.937) . Geneva, Switzerland, Vector Biology and Control Division, World Health Organization (WHO).Google Scholar
Kurahashi, H., Benjaphong, N. & Omar, B. (1997) Blowflies (Diptera: Insecta: Calliphoridae) of Malaysia and Singapore. Raffles Bulletin of Zoology Supplement No. 5, 88.Google Scholar
Labud, V.A., Semenas, L.G. & Laos, F. (2003) Diptera of sanitary importance associated with composting of biosolids in Argentina. Revista de Saúde Pública 37, 722728.CrossRefGoogle ScholarPubMed
Nadzri, Y. (2009) Sanitary landfill: a strategic approach towards solid waste management in pp. 1216, The Ingenieur. Kuala Lumpur, Malaysia, Board of Engineers Malaysia.Google Scholar
Nazni, W.A., Luke, H., Wan Rozita, W.M., Abdullah, A.G., Sa'diyah, I., Azahari, A.H., Zamree, I., Tan, S.B., Lee, H.L. & Sofian, M.A. (2005) Determination of the flight range and dispersal of the house fly, Musca domestica (L.) using mark release recapture technique. Tropical Biomedicine 22, 5361.Google ScholarPubMed
Nesadurai, N. (1999) The 5R approach to environmentally sound solid waste. Paper presented at Seminar on Local Communication and the Environment organized by EPSM, 24–25th October 1998, Petaling Jaya, Selangor, Malaysia.Google Scholar
Nurita, A.T., Abu Hassan, A. & Nur Aida, H. (2008) Species composition surveys of synanthropic fly populations in northern peninsular Malaysia. Tropical Biomedicine 25, 145153.Google ScholarPubMed
Olsen, A.R., Gecan, J.S., Ziobro, G.C. & Bryce, J.R. (2001) Regulatory action criteria for filth and other extraneous materials. V. Strategy for evaluating hazardous and nonhazardous filth. Regulatory Toxicology and Pharmacology 33, 363392.CrossRefGoogle ScholarPubMed
Panagiotakopoulos, D. & Dokas, I. (2001) Design of landfill daily cells. Waste Management & Research 19, 332341.CrossRefGoogle ScholarPubMed
Pickens, L.G., Morgan, N.O., Hartsock, J.G. & Smith, J.W. (1967) Dispersal patterns and populations of the house fly affected by sanitation and weather in Rural Maryland. Journal of Economic Entomology 60, 12501255.CrossRefGoogle Scholar
Prendergast, B.F., Rosales, A.L. & Evans, E.S. (2001) Filth Flies: Significance, Surveillance and Control in Contingency Operations. Washington D.C., Armed Forces Pest Management Board.Google Scholar
Querio, A.J. & Lundell, C.M. (1992) Geosynthetic use as daily cover. Geotextiles and Geomembranes 11, 621627.CrossRefGoogle Scholar
Rosie, J. & Shaharin, I. (2009) Electrocoagulation in removal of cod and heavy metal in leachate from Pulau Burung Landfill Site (PBLS), Penang in Proceedings of Postgraduate Qolloquium First Semester 2009/2010, 2629 October 2009. Kuala Lumpur, Malaysia, Faculty of Environmental Studies Universiti Putra Malaysia.Google Scholar
Rosnow, R.L. & Rosenthal, R. (2005) Beginning behavioral research: a conceptual primer. Upper Saddle River, New Jersey, Pearson/Prentice Hall.Google Scholar
Saeed, M.O., Hassan, M.N. & Abdul Mujeebu, M. (2008) Development of municipal solid waste generation and recyclable components rate of Kuala Lumpur: perspective study in Proceedings of the International Conference on Environment 2008 (ICENV 2008): Environmental Management On Technology Towards Sustainable Development. Penang, Malaysia.Google Scholar
Skidmore, P. (1985) The Biology of the Muscidae of the World. Boston, Massachussetts, Kluwer Academic Publishers.Google Scholar
SPSS Inc (2008) SPSS Statistics 17.0. Chicago, SPSS Inc.Google Scholar
Stafford, K.C. III. (2008) Fly Management Handbook: a Guide to Biology, Dispersal, and Management of the House Fly and Related Flies for Farmers, Municipalities, and Public Health officials (Bulletin 1013) . Available online at http://www.ct.gov/caes/lib/caes/documents/publications/bulletins/b1013.pdf (accessed 18 November 2012).Google Scholar
Syarifah Nor Farihah, T.H. & Abdul Yamin, S. (2009) Environmental ranking considerations for setting up a recuperative energy incinerator. World Applied Sciences Journal 5, 6473.Google Scholar
Taylor, R. & Allen, A. (2006) Waste disposal and landfill: Control and protection. p. 23 in Schmoll, O., Howard, G., Chilton, J. & Chorus, I. (Eds) Protecting Groundwater for Health: Managing the Quality of Drinking-water Sources. London, IWA Publishing, Alliance House on behalf of the World Health Organization (WHO).Google Scholar
Toyama, G.M. (1988) A preliminary survey of fly breeding at sanitary landfills in Hawaii with an evaluation of landfill practices and their effect on fly breeding. Proceedings of the Hawaiian Entomological Society 28, 4956.Google Scholar
Triplehorn, C.A., Johnson, N.F. & Borror, D.J. (2005) Borror and DeLong's Introduction to the Study of Insects. Belmont, California, Thompson Brooks/Cole.Google Scholar
United Nations Environment Programme (2010) Municipal Waste Management Report: Status-quo and Issues in Southeast and East Asian Countries. Pathumthani, Thailand, AIT/UNEP Regional Resource Center for Asia and the Pacific (RRC.AP).Google Scholar
WHO (1991) Insect and Rodent Control through Environmental Management: a Community Action Programme. Geneva, Switzerland, World Health Organization.Google Scholar