Decision
The purpose of this survey is to get at a suited site for landfill locating. Two possible sites were identified and one selected as a better alternate utilizing AHP process. The nearest neighbour analysis helped to find the nature of the distribution of the skips which was discovered to be a clustered 1. The spider analysis was used to apportion different colonies to reassign Stationss. The consequence of this survey has shown that more aggregation points are needed because of the unequal nature of the transportation Stationss which cover merely portion of the full country.
This survey has shown that the integrating of GIS and MCE is of extreme importance to effectual and efficient waste direction, as GIS enables one to pull strings informations which are spatially referenced. Assorted spacial operations performed aid to get at suited sites for waste disposal. Ibadan North though seems to be occupied with different land utilizations and high concentration of people, suited sites for landfill were still found.
The overall direction can be said to be below criterion as equal commissariats of waste aggregations and disposal are non made for the population particularly within families and commercial Centres. Some countries are non provided with skips and bins and this has led to creative activity of many illegal shit sites, thereby degrading the environment at an dismaying rate.
Recommendation
From the survey carried out it is evident that there is an pressing demand for an effectual solid waste disposal system in the survey country. The consequence of the nearest neighbor analysis shows that the aggregation points are clustered. More skips should hence be provided in locations that are missing. This will cut down the spread of illegal garbage dumps.
Future surveies
This survey has merely covered one major facet of municipal solid waste direction in Ibadan North Local Government country of Nigeria. Other constituents of waste direction which include transportation, aggregation and recycling have non been studied. The design, operation and care of the landfill are besides non portion of the undertaking. As a consequence of cost, complexness and clip restraints, merely portion of Ibadan metropolis has been covered. Future research work should therefore embracing the usage of GIS in waste aggregation and planning in the full metropolis of Ibadan ( being one of the largest metropoliss in Sub-Saharan Africa ) . Other relevant informations like groundwater, dirt type, which were non available for this survey should be incorporated in future planning of waste direction. The survey can besides be expanded farther by utilizing the ace determination package to analyze the benefit, chance, cost and hazard ( BOCR ) in which each option site would be evaluated in footings of its benefits, costs and hazards ( Banar 2007 ) .
True representation of the full population should be taken into history by prosecuting a big population sample in the interview phase to integrate the sentiments of larger audience in the site choice procedure. This would help in obtaining a better and permanent consequence.
Future surveies should besides research on equal proviso of skips within sensible distances. Surveies should besides look into how much wastes are generated in order to find specifically countries that would necessitate more skips and would necessitate timely visit for transporting into waste aggregation sites.
As a consequence of restraint posed by clip, population and family informations should be collected in other to suitably apportion bins among families and wards within sensible distances. Significant attempts should besides be made in Ibadan North to construct compost and recycling workss like those that were made in Port Harcourt, Kaduna and Ibadan South, though these are based on local engineering.
Recycling is another agency to pull off waste efficaciously as it extends the clip over which merchandises which are no longer serviceable are farther used. The debut of recycling aggregation points to recycle re-useable waste in the survey country would be of great benefit. However, where recycling is highly impossible, landfilling could so be turned to.
Mentions
Adewuyi, R. , Komine, H. , Yasuhara, K. , and Murakami, S. , 2009. Municipal solid waste direction in developed and developing countries-Japan and Nigeria as instance surveies.
Akinola, S. and Salami, R. , 2001. An appraisal of the effectivity of private Sector engagement enterprises in solid waste direction in Mushin Local Government Area, Lagos State. Nigerian Journal of Social and Educational Research. A Publication of the Nigerian Association of Social and Educational Research, University of Ado-Ekiti.
Allende, R. , 2009. Waste history in the Gambia. Thesis ( MSC ) . University of the Gambia.
Al-Jarrah. O. and Abu-Qdais, H. , 2006. Municipal solid waste landfill locating utilizing intelligent system. Waste Management. 26 ( 3 ) 299-306.
Association of Science-Technology Centers Incorporated, 1998. Available from hypertext transfer protocol: //www.astc.org/exhibitions/rotten/rthome.htm. [ Accessed 21 September 2009 ]
Augustin, B. G. , 2008. Landfill site suitableness analysis for non-toxic solid waste in Puerto Rico- A GIS Approach. Department of Geography and Planning. The University of Akron.
Ayininuola, G.M. and Muibi, M. A. 2008. An technology attack to solid waste aggregation system: Ibadan North as instance survey. Waste Management, 28 ( 9 ) , 1681-1687.
Ayotamuno, J. M. and Gobo, E. A. , 2004. Municipal Solid Waste Management in Port-Harcourt, Nigeria: Obstacles and chances, 5 ( 4 ) 389-398.
Baabereyir, A. , 2009. Urban environmental jobs in Ghana: a instance survey of societal and environmental unfairness in solid waste direction in Accra and Sekondi-Takoradi. Thesis ( PHD ) . University of Nottingham.
Baban, M.J. , 1998. Identifying optimal waste disposal site locations in the Caribbean part utilizing Geoinformatics. Available from hypertext transfer protocol: //www.bvsde.paho.org/bvsacd/cef-2/SBwastdisp.pdf [ Accessed December 23 2009 ] .
Babayemi, J. O. and Dauda, K. T. , 2009. Evaluation of solid waste coevals, classs and disposal options in developing states: a instance survey of Nigeria. Journal of Applied Sciences and Environmental Management, 13 ( 3 ) , 83-88.
Baban, M. and Parry, T. , 2001. Developing and using a GIS-assisted attack to turn uping air current farms in the UK. Renewable Energy Journal 24 ( 1 ) 59-71.
Banar, M. , Kose, B. , Ozkan, A. and Acar, I. , 2007. Choosing a municipal landfill site by analytical web procedure. Environmental Geology52, 747-751. Available from hypertext transfer protocol: //www.springerlink.com/content/565568408rq42105/ . [ Accessed January 5 2010 ] .
Bennui, A. et al. , 2007. Site choice for big air current turbine utilizing GIS. PSU-UNS International Conference on Engineering and Environment – ICEE-2007, Phuket May 10-11, 2007.
Berkun, M. , Aras, E. and Nemlioglu, S. , 2005. Country study disposal of solid waste in Istanbul and along the Black Sea seashore of Turkey, Waste Management 25 ( 8 ) 847-855.
BESR, 2002. Down To Earth: Geographic Information for Sustainable Development in Africa, Board on Earth Sciences and Resources. Available from hypertext transfer protocol: //www.nap.edu/openbook.php? record_id=10455 & A ; page=104 [ Accessed 30 October 2009 ] .
Burrough P.A. , 1983. Principles of Geographic Information Systems for Land Resources Assessment. Monographs on Soil and Resources Survey 12: Clarendon Press.
Carver, S.J. , 1991. Integrating multi-criteria rating with geographical information systems. International Journal of Geographical Information Systems 5 ( 3 ) 321-339.
Chakhar S. and V. Mousseau. , 2008. Spatial multicriteria determination devising. In: Shehkar S. and H. Xiong ( Eds. ) , Encyclopedia of GIS, New York: Springer-Verlag, pp. 747-753.
Chandrakanthi, M. , Ruwanpura, J.Y. , Hettiaratchi, P. and Prado, B. , 2002. Optimization of the Waste Management for Construction Projects utilizing Simulation. Proceedings of the Winter Simulation Conference, 2002.
Chang, N. , Parvathinathanb, G. , and Breden, B. , 2008. Uniting GIS with fuzzed multi-criteria decision-making for landfill locating in a aggressive urban part. Journal of Environmental Management, 87, 139-153.
Cohon, J. L. , 1978, Multi-objective scheduling and planning. New York: Academic Press.
Cummins, V. et al. , 2002. A New Approach to Landfill Site Selection in Ireland utilizing GIS Technology. Available from hypertext transfer protocol: //cmrc.ucc.ie/publications/conf_proceedings/Rio_Landfill.pdf. [ Accessed 12 October 2009 ] .
Daneshvar, R. , Fernandes, L. , Warith, M. , and Daneshfar, B. , 2005. Custom-making Arcmap interface to bring forth a user- friendly landfill site choice GIS tool. Journal of SolidWaste Technology and Management, 31 ( 1 ) , 1-12.
Despotakis, V.K and Economopoulos, A.O. , 2007. A GIS theoretical account for landfill sitting. Global Nest Journal, 9, ( 1 ) 29-34.
Drobne, S. and Lisec, A. , 2009. Multi-attribute Decision Analysis in GIS: Weighted Linear Combination and Ordered Weighted Averaging. Informatica 33, 459-474.
Edgecombe, D. , 1999. Director, Technical and Scientific Affairs, Canadian Plastics Industry Association.
Eldrandaly, K. et al. , 2005. Integrating GIS and MCDM Using COM Technology. The International Arab Journal of Information Technology, 2 ( 2 ) 162-167.
Erkut, E. and Moran, S. , 1991. Locating objectionable installations in the public sector: an application of the Analytical Hierarchy procedure to municipal landfill locating determinations. Socio Economic Planning Science, 25 ( 2 ) . 89-102.
Everett, J.W. and Modak, A.R. , 1996. Optimal Regional Scheduling of Solid Waste Systems. I Model Development. Journal of Environmental Engineering, 122 ( 9 ) 785-792.
Faniran, A.O. , 1990. Oyo province of Nigeria at a glimpse. Ibadan: Heinemann Bookshop.
Faniran, A. , 2000. Waste and metropolis. The Guardian, 23 January, p. 29a.
Fatta, D. , Saravanos, P. and Loizidou, M. , 1998. Industrial waste installation site choice utilizing geographical information system techniques, International Journal of Environmental Studies, 56 ( 1 ) , 1-14.
Gaim, J.K. , 2004. GIS as determination support tool for landfills locating. Proceedings of Map Asia, 26-29 August 2004 China.
Gottinger, H.W. , 1988. A Computational Model for Solid Waste Management with Application. European Journal of Operational Research, 35 350-364.
Herzog, T, M. , 1999. Suitability analysis determination support system for landfill siting ( and other intents ) , 19th Annual ESRI International User Conference Proceedings, San Diego, California.
Hoover, E.M. , 1937. Location theory and the shoe leather industries. Cambridge: Harvard University Press.
Hwang, C. L. and Masud, A. S. , 1979, Multiple nonsubjective determination doing methods and applications: a province of the art study. Berlin: Springer-Verlag.
Hwang, C. L. and Yoon, K. , 1981, Multiple attribute determination devising methods and applications: A province of the art study. Berlin: Springer-Verlag.
Imam, A. , Mohammed, B. , Wilson, D. and Cheeseman, C. , 2008. Solid waste direction in Abuja, Nigeria. Waste Management 28, 468-472.
Issam, A, et al.,2007. Tendencies and jobs of solid waste direction in developing states: A instance survey in seven Palestinian territories. Waste Management 27 ( 12 ) 1910-1919.
Jankowski, P. , 1995. Integrating Geographic Information systems and multiple standards determination doing methods. International Journal of Geographical Information Systems 9 ( 3 ) 251-273.
Javaheri, H. , et al. , 2006. Site Selection of municipal Solid Waste Landfills Using Analytical Hierarchical Process Method in a Geographic Information Technolocgy Environment in Giroft. Iran Journal of Environmental Health Science Engineering. 3, 177-184.
Jensen, J.R. and Christensen, E.J. , 1986. Solid and risky waste disposal site choice utilizing digital geographic information system techniques. The Science of the Total Environment, ( 56 ) 265-276.
Kao, J, J. , 1996. Multifactor spacial analysis for landfill locating. Journal of Environmental Engineering 122 ( 10 ) 902-908.
Kao, J.J. and Lin, H.Y. 1999. Enhance spacial theoretical account for landfill locating analysis. Journal of Environmental Engineering 125 ( 9 ) 845-851.
Kironde, J.M. , 1999. Dar Es Salaam, Tanzania. Onibokun, A.G. ( Ed ) . Pull offing the Monster. Urban Waste and Governance in Africa. Ottawa: IDRC.
Kontos, T.D. , 2003. Locating MSW landfills on Lesvos island with a GIS-based methodological analysis. Journal of Waste Management 21 ( 3 ) 262-277. Available from hypertext transfer protocol: //wmr.sagepub.com/cgi/content/abstract/21/3/262. [ Accessed February 2 2010 ] .
Kontos, T.D. , Komilis, D.P. and Halvadakis, C.P. , 2005. Locating MSW landfills with a spacial multiple standards analysis methodological analysis, Waste Management 25 ( 8 ) 818-832.
Keeney, R.L. and Raiffa, H. , 1976. Decisions with multiple aims: penchants and value trade-offs. New York: Wiley.
Kyessi, A. and Mwakalinga, V. , 2009. GIS Application in organizing solid waste aggregation: the instance of Sinza vicinity in Kinondoni Municipality, Dar es Salaam City, Tanzania. FIG Working Week 2009.
Lasisi, A. , 2009, Appraisal of municipal soild waste direction in Lagos State. Ibadan: Longman Press.
Lober, D. J. , 1995. Deciding the locating deadlock: Modeling societal and environmental locational standards with a geographic information system. Journal of American Planning Association, 61 ( 4 ) , 482-495.
Longley, P.A. , Goodchild, M.F. , Maguire, D.J. and Rhind, D.W. , 2003. Geographic Information Systems and Science. Chichester: John Wiley and Sons.
MacCrimmon, K.R. , 1969. Bettering the system design and rating procedure by the usage of trade-off information: an application to northeast corridor transit planning. RM-5877-DOT. Santa Monica, CA: The Rand Corporation.
Malczewski, J. , 1999. GIS and Multiple-criteria Decision Analysis. New York: John Wiley & A ; Sons.
Miles, S.B. and Ho, C.L. , 1999. Applications and issues of GIS as tool for Civil Engineering. Journal of Computing in Civil Engineering 13 ( 3 ) 144-152.
Mohd Din, M.A. , Yusof, S. & A ; Wan Jaafar, W.Z. 2008. An integrating of the GIS and multi standards determination devising method for landfill locating. Dissertation ( MSC ) . University Malaya.
Mu, E. , 2005. Using ANP in the non-profit sector: choosing a Congress site and foretelling conference attending. International Symposium on the Analytic Hierarchy Process. Honolulu, Hawaii, July 7-10.
NPC database [ CD-ROM ] . ( 1996 ) . Ibadan: Longman.
Nijkamp P. , 1979. Multidimensional spacial informations and determination analysis. West Sussex: Wiley.
Nijkamp P. and Rietveld, P. , 1986. Multiple nonsubjective determination analysis in regional economic sciences. In: P. Nijkamp ( Ed. ) : Handbook of regional and urban economic sciences. Elsevier, New York, pp. 493-541.
Ogwueleka T. C. , 2009. Municipal solid waste features and direction in Nigeria. Iran Journal of Environmental Health Science and Engineering. 6 ( 3 ) 173-180. Available from hypertext transfer protocol: //journals.tums.ac.ir/upload_files/pdf/13922.pdf. [ Accessed January 2010 ] .
Ohman, K.V. et al. , 2007. Development of a landfill theoretical account to prioritise design and operating aims. Environmental Monitoring and Assessment, 135, ( 1-3 ) 85-97.
Omoleke, I.I. , 2004. Management of Environmental Pollution in Ibadan, An African City: The Challenges of Health Hazard Facing Government and The People. Journal of Human Ecology. 15,4.
Onibokun A.G. and Kumuyi, A.J. , 1999, Nigeria. Onibokun, A.G. ( Ed ) . Pull offing the Monster. Urban Waste and Governance in Africa. Ottawa: IDRC.
Pacione, M. 2005. Urban Geography. A Global Perspective. 2nd Edition. London and New York, Routedge, Taylor & A ; Francis Group.
Parsons, R.L. and Frost, J.D. , 2000. Analysis of spacial subsurface informations utilizing GIS based Tool. Journal of Computing in Civil Engineering. 14 ( 4 ) 215-222.
Phua, M. and Minowa, M. , 2005. A GIS-based multi-criteria determination doing attack to forest preservation planning at a landscape graduated table: a instance survey in the Kinabalu Area, Sabah, Malaysia. Landscape and Urban Planning, 71, 207-222.
Pitz, G.F. and Mckillip, J. , 1984. Decision analysis for plan ratings. Thousand Oaks, CA: Sage Publications.
Rezaei-Moghaddam, K. and Karami, E. , 2008. A multiple standards rating ofsustainable agricultural development theoretical accounts utilizing AHP. Environment, Development and Sustainability, ( 10 ) 407-426.
Revelle, C. , Whitlach, J. and Wright, J. , 1997. Civil and Environmental Systems Engineering. New Jersey: Prentice-Hall.
Basagaoglu, H. , Celenk, E. , Marino, M. A. & A ; Usul, N. , 1997. Choice of waste disposal sites utilizing GIS. Journal of the American Water Resources Association 23 ( 2 ) 455-464.
Robinson, W.D. , 1986. The Solid Waste Handbook: A Practical Guide. Chichester: John Wiley & A ; Sons.
Saaty, T.L. , 1990. Multicriteria Decision Making: The Analytic Hierarchy Process, Pittsburgh: Expert Choice, Inc.
Saaty, R.W. , 2003. Decision devising in complex environments. University of Pittsburgh.
Savage, G.M. , Diaz, L.F. and Golueke, G.C. , 1998. Guidance for landfilling waste in economically developing states. EPA 600/R-98-040, US Environmental Protection Agency, National Risk Management Research Laboratory, Cincinnati, OH.
Schubeler, P. , 1996. UNDP/UNCHS ( Habitat ) /World Bank/SDC Collaborative Programme on Municipal Solid Waste direction in Low-Income Countries. Urban direction and Infrastructure. Conceptual Framework for Municipal Solid Waste Management in Low-Income Countries. Working Paper No. 9. Available from hypertext transfer protocol: //science.jrank.org/pages/7297/Waste-Management.html [ Accessed 27 February 2010 ] .
Senkoro, Hawa. 2003. Solid Waste Management in Africa: A WHO / AFRO Perspective. Paper 1, presented in Dar Es Salaam at the CWG Workshop, March 2003. Available at: hypertext transfer protocol: //www.skat.ch/sf-web/activities/ws/cwg/pdf/cwg-01.pdf [ Accessed 2 November 209 ] .
Sener, B. 2004. Landfill site choice by utilizing Geographic Information Systems. Thesis ( MSc ) . Middle East Technical University.
Sener, B. and Suzen, L. , 2006. Landfill site choice by utilizing geographic information systems. Environ Geology 49, 376-388.
Sener, B. , Suzen, M. and Doyunran, V. , 2006. Landfill site choice by utilizing Geographic Information Systems. Environ Geology 49 ( 3 ) 376-388. Available from hypertext transfer protocol: //www.springerlink.com/content/y921772rj7067187/ [ Accessed 22 November 2009 ] .
Sener, S et al. , 2010. Solid waste disposal site choice with GIS and AHP methodological analysis: a instance survey in Senirkent-Uluborlu ( Isparta ) Basin, Turkey. Journal of Environmental Monitoring Assessment, ( 10 ) 1010-1023.
Sharif, M.A.. 1995. Introduction to determination support system and Multi-Criteria Evaluation Technique. ITC Publication 2,132-174.
Siddiqui, M.Z. et al. , 1996. Landfill locating utilizing Geographic Information Systems: a presentation. Journal of Environmental Engineering, 122 ( 6 ) 515-523
Solomon, U. U. , 2009. A glimpse at the World: The province of solid waste direction in Nigeria. Waste Management, 29, 2787-2790.
Sumiani, Y. et al. , 2009. Environmental planning schemes for optimal solid waste landfill locating. Sains Malaysiana, 38 ( 4 ) , 457-462.
Sloping, M. and Hutt, D. , 1999. Johannesburg, South Africa. Onibokun, A.G. ( Ed ) . Pull offing the Monster, Urban Waste and Governance in Africa. Ottawa: IDRC.
Tchobanoglous, G. , Theisen, H. , and Vigil, S. , 1993. Integrated Solid Waste direction, Engineering Principles and Management Issues. Pp 377. NewYork: McGraw-Hill.
Ulutas, B. , 2005. An Analytic Network Process combined informations enclosure analysis methodological analysis to measure the public presentation of airdromes in Turkey. Available from hypertext transfer protocol: //www.creativedecisions.net/~rozann/0Proceedings/Final_Abstracts/90_Ulutas_DEA_ANP_TurkishAirport_Performance_REV_FIN-a.pdf. [ Accessed 21 December 2009 ] .
Vitalis, K. , and Manoliadis, O. , 2002. A two degree multi-criteria DSS for landfill site choice environmental protection and ecology international. Journal of Geographical Information Systems, 06 ( 1 ) 49-56.
Vreeker, R. , Nijkamp, P. , and Welle, C. T. , 2002. A multicriteria determination support methodological analysis for measuring airport enlargement programs, Transportation Research Part D, 7 ( 1 ) 27-47.
Walsh, P. and O’Leary P. , 2002. Measuring a possible healthful landfill site. Landfill go oning instruction class. Available from hypertext transfer protocol: //wasteage.com/mag/waste_evaluating_potential_sanitary/ [ Accessed 17 January 2010 ] .
Waste Statisticss for England and Wales. 1998-99. Environment Agency.
Worboys, M. , 2001. G.i. : A Computing Perspective. London: Taylor & A ; Francis.
Yaillancourt, K. and Waaub, P. , 2002. Environmental site rating of waste direction installations embedded into EUGENE theoretical account: a multicriteria attack. European Journal of Operation Research 139 ( 2 ) 436-448.
Yesilnacar, M. and Cetin, H. , 2005. Site choice for risky wastes: A instance survey from the GAP country, Turkey. Engineering Geology, 81, 371-388.
