Arif Kurnia Wijayanto
IT for Natural Resources Management, Bogor Agricultural University, IPB, Jl Raya Tajur km 6, Bogor, 16134, Indonesia
Kudang Boro Seminar
Department of Mechanical and Biosystem Engineering,
Rudi Afnan
Department of Animal Production and Technology, Bogor Agricultural University, IPB, Darmaga Campus, West Java, 16680, Indonesia
ABSTRACT
Massive development of broiler farms has led to many socio-environmental problems. A mapping based on the socio-environmental factors and sustainable principles is urgently needed to cope with this problem. The objective of this research was to create a suitability map for broiler farm development in Parung region, Indonesia-as study area. There were four factors considered in the mapping: (1) ecology and environmental impact, (2) economic and infrastructure, (3) natural condition and (4) natural disaster vulnerability, each of which consists of sub-factors. An Analytical Hierarchy Process (AHP) by using pairwise comparison method was applied to determine weight of each factor and sub-factor based on experts valuation. From the AHP process, natural condition was considered as the most important factor, followed by ecological and environmental impact factor. By considering weights resulted from the AHP, the spatial analysis and weighted overlay by GIS software were applied in the data processing and suitability map building. Suitability map for broiler farm in Parung region has been created and can be used as guidance for broiler farm development and also for local government as decision support tool to manage the farming area concerning ecology and environment factor.
PDF References Citation
How to cite this article
Arif Kurnia Wijayanto, Kudang Boro Seminar and Rudi Afnan, 2015. Suitability Mapping for Broiler Closed House Farm Using Analytical Hierarchy Process and Weighted Overlay with Emphasize on Environmental Aspects. International Journal of Poultry Science, 14: 577-583.
DOI: 10.3923/ijps.2015.577.583
URL: https://scialert.net/abstract/?doi=ijps.2015.577.583
DOI: 10.3923/ijps.2015.577.583
URL: https://scialert.net/abstract/?doi=ijps.2015.577.583
REFERENCES
- Carvalho, L.M.T., M.S. Ribeiro, L.T. de Oliveira, T.C.A. Oliveira, J.N. Lozada, J.R.S. Scolforo and A.D. Oliveira, 2007. Weighted overlay, fuzzy logic and neural networks for estimating vegetation vulnerability within the ecological economical zoning of minas Gerais, Brazil. Proceedings of the 9th Brazilian Symposium on GeoInformatics, November 25-28, 2007, Brazil, pp: 171-182.
- Greene, R., R. Devillers, J.E. Luther and B.G. Eddy, 2011. GIS-based multiple-criteria decision analysis. Geography Compass, 5: 412-432.
CrossRefDirect Link - Janssen, R. and P. Rietveld, 1990. Multicriteria Analysis and Geographical Information Systems: An Application to Agricultural Land Use in the Netherlands. In: Geographical Information Systems for Urban and Regional Planning, Scholten, H.J. and J.C.H. Stillwell (Eds.). Kluwer Academic Publishers, Dordrecht, pp: 129-139.
- Hossain, M.S. and N.G. Das, 2010. GIS-based multi-criteria evaluation to land suitability modelling for giant prawn (Macrobrachium rosenbergii) farming in Companigonj Upazila of Noakhali, Bangladesh. Comput. Electron. Agric., 70: 172-186.
CrossRefDirect Link - Kilic, I. and E. Yaslioglu, 2014. Ammonia and carbon dioxide concentrations in a layer house. Asian-Aust. J. Anim. Sci., 27: 1211-1218.
CrossRefDirect Link - Liaghat, M., H. Shahabi, B.R. Deilami, F.S. Ardabili, S.N. Seyedi and H. Badri, 2013. A multi-criteria evaluation using the analytic hierarchy process technique to analyze coastal tourism sites. APCBEE Procedia, 5: 479-485.
CrossRefDirect Link - Saaty, T.L., 2008. Decision making with the analytic hierarchy process. Int. J. Serv. Sci., 1: 83-98.
Direct Link - Ziaei, M. and F. Hajizade, 2011. Fuzzy analytical hierarchy process (FAHP): A GIS-based multicriteria evaluation/selection analysis. Proceedings of the 19th International Conference on GeoInformatics, June 24-26, 2011, Shanghai, China, pp: 1-6.
CrossRef