Biological Soil Conservation Planning by Spatial Multi-Criteria Evaluation Techniques (Case Study: Bonkuh Watershed in Iran)
This paper discusses site selection process for
biological soil conservation planning. It was supported by a valuefocused
approach and spatial multi-criteria evaluation techniques. A
first set of spatial criteria was used to design a number of potential
sites. Next, a new set of spatial and non-spatial criteria was
employed, including the natural factors and the financial costs,
together with the degree of suitability for the Bonkuh watershed to
biological soil conservation planning and to recommend the most
acceptable program. The whole process was facilitated by a new
software tool that supports spatial multiple criteria evaluation, or
SMCE in GIS software (ILWIS). The application of this tool,
combined with a continual feedback by the public attentions, has
provided an effective methodology to solve complex decisional
problem in biological soil conservation planning.
[1] B. Sener, M. L. S├╝zen, and V. Doyuran, "Landfill site selection by using
geographic information systems," Environmental Geology 49, 376-388.
2006.
[2] D. Geneletti, "Combining stakeholder analysis and spatial multicriteria
evaluation to select and rank inert landfill sites," Waste Management,
2009,
[3] D. Wichelns, J.J. Opaluch, S. I. K. Swaloow, T. F. Weaver, and C. W.
Wessells, "A landfill site evaluation model that includes public
preferences regarding natural resources and nearby communities,"
Waste Management and Research 11, 185-201. 1993.
[4] G. Higgs, "Integrating multi-criteria techniques with geographical
information systems in waste facility location to enhance public
participation," Waste Management and Research 24, 105-117. 2006.
[5] J. C. Mourmouris, "MCDM for location and evaluation of waste
disposal facilities in metropolitan areas: the case of East Attica,"
International Journal of Environmental Technology and Management 6
(1/2), 180-192. 2006.
[6] J. Hokkanen, and P. Salminen, "Locating a waste treatment facility by
multicriteria analysis," Journal of Multi-Criteria Decision Analysis 6,
175-184. 1997.
[7] J. Malczewski, "GIS and Multicriteria Decision Analysis," Wiley, New
York, 1999, 392pp.
[8] J. Malczewski, "GIS-based land-use suitability analysis: a critical
overview," Progress in Planning 62 (2004), 3-65.
[9] J. Malczewski, GIS-based multicriteria decision analysis: a survey of the
literature. International Journal of Geographical Information Science 20
(7), 703-726. 2006.
[10] J. Petts, "Evaluating the effectiveness of deliberative processes; waste
management case studies," Journal of Environmental Planning and
Management 44, 207-226. 2001.
[11] J. Petts, "Waste management strategy development: a case study of
community involvement and consensus building in Hampshire," Journal
of Environmental Planning and Management 38, 519-536. 1995.
[12] M. A. Sharifi, V. Retsios, "Site selection for waste disposal through
Spatial Multiple Criteria Decision Analysis," III International
Conference on Decision Support for Telecommunications and
Information, Society, 4 - 6 September 2003, Warsaw, Poland.
[13] M. F. Norese, ELECTRE III as a support for participatory decisionmaking
on the localisation of waste-treatment plants. Land Use Policy
23, 76-85. 2006.
[14] M. G. Collins, F. R. Steiner, and M. J. Rushman, "Land-use suitability
analysis in the United States: historical development and promising
technological achievements," Environmental Management 28 (5), 611-
621. 2001.
[15] T. L. Saaty, L. G. Vargas, Comparison of Eigenvalue and logarithmic
least squares and least squares methods in estimating ratios.
Mathematical modelling, Vol. 5, pp. 309-324. 1984.
[1] B. Sener, M. L. S├╝zen, and V. Doyuran, "Landfill site selection by using
geographic information systems," Environmental Geology 49, 376-388.
2006.
[2] D. Geneletti, "Combining stakeholder analysis and spatial multicriteria
evaluation to select and rank inert landfill sites," Waste Management,
2009,
[3] D. Wichelns, J.J. Opaluch, S. I. K. Swaloow, T. F. Weaver, and C. W.
Wessells, "A landfill site evaluation model that includes public
preferences regarding natural resources and nearby communities,"
Waste Management and Research 11, 185-201. 1993.
[4] G. Higgs, "Integrating multi-criteria techniques with geographical
information systems in waste facility location to enhance public
participation," Waste Management and Research 24, 105-117. 2006.
[5] J. C. Mourmouris, "MCDM for location and evaluation of waste
disposal facilities in metropolitan areas: the case of East Attica,"
International Journal of Environmental Technology and Management 6
(1/2), 180-192. 2006.
[6] J. Hokkanen, and P. Salminen, "Locating a waste treatment facility by
multicriteria analysis," Journal of Multi-Criteria Decision Analysis 6,
175-184. 1997.
[7] J. Malczewski, "GIS and Multicriteria Decision Analysis," Wiley, New
York, 1999, 392pp.
[8] J. Malczewski, "GIS-based land-use suitability analysis: a critical
overview," Progress in Planning 62 (2004), 3-65.
[9] J. Malczewski, GIS-based multicriteria decision analysis: a survey of the
literature. International Journal of Geographical Information Science 20
(7), 703-726. 2006.
[10] J. Petts, "Evaluating the effectiveness of deliberative processes; waste
management case studies," Journal of Environmental Planning and
Management 44, 207-226. 2001.
[11] J. Petts, "Waste management strategy development: a case study of
community involvement and consensus building in Hampshire," Journal
of Environmental Planning and Management 38, 519-536. 1995.
[12] M. A. Sharifi, V. Retsios, "Site selection for waste disposal through
Spatial Multiple Criteria Decision Analysis," III International
Conference on Decision Support for Telecommunications and
Information, Society, 4 - 6 September 2003, Warsaw, Poland.
[13] M. F. Norese, ELECTRE III as a support for participatory decisionmaking
on the localisation of waste-treatment plants. Land Use Policy
23, 76-85. 2006.
[14] M. G. Collins, F. R. Steiner, and M. J. Rushman, "Land-use suitability
analysis in the United States: historical development and promising
technological achievements," Environmental Management 28 (5), 611-
621. 2001.
[15] T. L. Saaty, L. G. Vargas, Comparison of Eigenvalue and logarithmic
least squares and least squares methods in estimating ratios.
Mathematical modelling, Vol. 5, pp. 309-324. 1984.
@article{"International Journal of Earth, Energy and Environmental Sciences:59769", author = "Ali Akbar Jamali", title = "Biological Soil Conservation Planning by Spatial Multi-Criteria Evaluation Techniques (Case Study: Bonkuh Watershed in Iran)", abstract = "This paper discusses site selection process for
biological soil conservation planning. It was supported by a valuefocused
approach and spatial multi-criteria evaluation techniques. A
first set of spatial criteria was used to design a number of potential
sites. Next, a new set of spatial and non-spatial criteria was
employed, including the natural factors and the financial costs,
together with the degree of suitability for the Bonkuh watershed to
biological soil conservation planning and to recommend the most
acceptable program. The whole process was facilitated by a new
software tool that supports spatial multiple criteria evaluation, or
SMCE in GIS software (ILWIS). The application of this tool,
combined with a continual feedback by the public attentions, has
provided an effective methodology to solve complex decisional
problem in biological soil conservation planning.", keywords = "GIS, Biological soil conservation planning, Spatial
multi-criteria evaluation, Iran", volume = "6", number = "1", pages = "36-3", }
