Volume 6, Issue 2 (2018)                   ECOPERSIA 2018, 6(2): 79-89 | Back to browse issues page

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Bahar Gogani M, Douzbakhshan M, Shayesteh K, Ildoromi A. New Formulation of Fuzzy Comprehensive Evaluation Model in ‎Groundwater Resources Carrying Capacity Analysis. ECOPERSIA 2018; 6 (2) :79-89
URL: http://ecopersia.modares.ac.ir/article-24-15408-en.html
1- ‎Department of Electrical Engineering, Faculty of Electrical and Electronics Engineering, Shahid ‎Beheshti University, Tehran, Iran
2- ‎Department of Environmental Sciences, Faculty of Natural Resources and Environment, Malayer ‎University, Malayer, Iran , mdouzbakhshan@yahoo.com
3- ‎Department of Environmental Sciences, Faculty of Natural Resources and Environment, Malayer ‎University, Malayer, Iran
4- ‎Department of Rangelands & Watershed Management, Faculty of Natural Resources and Environment, ‎Malayer University, Malayer, Iran
Abstract:   (5471 Views)
Aims: Groundwater, especially in comparison with surface water, is one of the most critical sources of water supplies in different parts of the world. Due to the increasing demand in various parts of agriculture, household, industry, etc., and also decreasing groundwater level in recent years in Hamadan province, it is necessary to estimate the carrying capacity of groundwater resources.
Materials and Methods: In this article, seven factors, having greater impacts on the carrying capacity of the region, were selected based on experts’ views during the 2001–2011 period. Furthermore, fuzzy comprehensive evaluation method using different membership functions (MF) was used to estimate the carrying capacity of groundwater resources.
Findings: By considering different numbers of MF, the results of this study pointed out that groundwater carrying capacity decreased throughout the 2001–2011 period. Moreover, by considering the rate of decline of water level, it is obvious that by the use of five member functions in comparison with other methods, the reduction level of groundwater resources is better observed. Hence, the process of recognition of reduction groundwater resources carrying capacity in Hamadan Province can be immediately done.
Conclusion: As a consequence, governments can make some proper and quick decisions and effective strategies to compensate the reduction and save implementation cost and time.
Full-Text [PDF 317 kb]   (1185 Downloads)    
Article Type: Original Research | Subject: Aquatic Ecology
Received: 2017/04/23 | Accepted: 2018/07/17 | Published: 2018/07/17
* Corresponding Author Address: Department of Environmental Sciences, Malayer University, Malayer, Iran.‎

References
1. Oki T, Yeh P. Water and energy cycles. In: Njoku EG, editor. Encyclopedia of remote sensing, encyclopedia ‎of earth sciences series. New York: Springer; 2014. 903-9.‎ [Link]
2. Cao JK, Zhang J, Ma SQ. The analysis of water resource ecological carrying capacity of Hainan International ‎Island. In: Cao BY, Ma ShQ, Cao HH, editors. Ecosystem assessment and fuzzy systems management. New ‎York; Springer Science & Business Media; 2014. pp. 63-71.‎ https://doi.org/10.1007/978-3-319-03449-2 [Link] [DOI:10.1007/978-3-319-03449-2_7]
3. Yang J, Lei K, Khu S, Meng W. Assessment of water resources carrying capacity for sustainable ‎development based on a system dynamics model: A case study of tieling city, China. Water Resour Manag. ‎‎2015;29(3):885-99.‎ [Link] [DOI:10.1007/s11269-014-0849-y]
4. Zehtabian Gh, Khosravi H, Ghodsi M. High demand in a land of water scarcity: Iran. In: Schneier-Madanes ‎G, Courel MF, editors. Water and Sustainability In Arid Regions. New York: Springer Science & Business ‎Media; 2009. pp. 75-86. ‎ [Link]
5. United Nations Environment Programme. Status report on the application of integrated approaches to ‎water resources management [Internet]. Nairobi: United Nations Environment Programme; 2012. [cited ‎‎2017 August 12]. Available from: ‎http://www.un.org/waterforlifedecade/pdf/un_water_status_report_2012.pdf.‎ [Link]
6. United Nations Environment Programme. Water and the green economy: Capacity development aspects. ‎Reza Ardakanian, Jaeger D, editors. Bonn: UNW-DPC; 2012.‎ [Link]
7. Sarhadi M, Nohtani M, Peiki M. Effect of drought on qualitative and quantitative parameters of Zahedan ‎plain Aquifer. Ecopersia. 2016;4(4):1541-54.‎ [Link] [DOI:10.18869/modares.ecopersia.4.4.1541]
8. Marofi S, Soleymani S, Ghobadi MH, Rahimi Gh, Marofi H. Vulnerability assessment of malayer plain ‎groundwater by Sintacs, Drastic And SI Models. J Water Soil Conserv. 2012;19(2):141-66. [Persian]‎ [Link]
9. Zare Abyaneh H, Bayat Varkeshi M, Marofi S, Ildromi AR. Simulation of malayer plain groundwater level ‎based on weather data using artificial neural network. Phys Geogr Res Q. 2011;43(78):17-28. [Persian]‎ [Link]
10. Dehmardeh Ghaleno MR, Sadoddin A, Vahedberdi Sh, Sabouhi Sabouni M. Optimal utilization of the ‎Chahnimeh Water reservoirs in Sistan region of Iran using goal programming method. Ecopersia. ‎‎2017;5(1):1641-54. ‎ [Link] [DOI:10.18869/modares.ecopersia.5.1.1641]
11. Dou M, Ma JX, Li GQ, Zuo QT. Measurement and assessment of water resources carrying capacity in ‎Henan Province, China. Water Sci Eng. 2015;8(2):102-13.‎ [Link] [DOI:10.1016/j.wse.2015.04.007]
12. Yu P. Study on the assessment of water resources carrying capacity in strategic environmental ‎assessment. In: Yu Y, Yu Zh, Zhao J, editor. Computer Science for Environmental Engineering and ‎EcoInformatics. Berlin: Springer; 2011. pp. 269-74.‎ https://doi.org/10.1007/978-3-642-22694-6 https://doi.org/10.1007/978-3-642-22694-6_38 [Link] [DOI:10.1007/978-3-642-22691-5]
13. Wang YJ, Yang G, Xu HL. Evaluation of water resources carrying capacity based on fuzzy comprehensive ‎evaluation on river basin in Arid Zone. Adv Mater Res. 2010;113:488-494.‎ [Link]
14. Wu Y, Zhang G. Studies on carrying capacity of water resources in Beijing, Tianjin, and Hebei. In: Report ‎on development of Beijing, Tianjin, and Hebei province. Berlin: Springer; 2013. 81-98.‎ [Link]
15. Shi M, Zhang Z, Zhou D. Studies on carrying capacity of water resources in Beijing and Tianjin: Based on ‎the water footprint. In: Wen K, Zhu E, editors. Report on deevelopment of Beijing, Tianjin, and Hebei ‎province (2013): Measurement of carrying capacity and countermeasures. Berlin: Springer; 2015. pp. 99-‎‎118.‎ [Link]
16. Song XM, Kong FZ, Zhan CS. Assessment of water resources carrying capacity in Tianjin city Of China. ‎Water Res Manag. 2011;25(3):857-73.‎ [Link] [DOI:10.1007/s11269-010-9730-9]
17. Meng L, Chen Y, Li W, Zhao R. Fuzzy comprehensive evaluation model for water resources carrying ‎capacity in Tarim river basin, Xinjiang, China. Chin Geogr Sci. 2009;19(1):89-95.‎ [Link] [DOI:10.1007/s11769-009-0089-x]
18. Liu J, Dong S, Mao Q. Comprehensive evaluation of the water resource carrying capacity for China. Geogr ‎Nat Resour. 2012;33(1):92-9.‎ [Link]
19. Yang G, Wang YJ, He XL, Li JF. The study of three evaluation models of water resources carrying capacity ‎in Manas River Basin. Adv Mater Res. 2010;113:442-9.‎ [Link]
20. Movahedi S, Asakereh H, Sabziparvar A, Masodian SA, Maryanaji Z. Investigating the changes of seasonal ‎rainfall pattern in Hamedan Province. Geogr Res. 2013;28(2):33-48. [Persian]‎ [Link]
21. Bayat M, Manshouri M. Temporal and spatial study of water use efficiency of strategic crops in regional ‎scale (Case study: Hamadan Province). J Soil Water Resour Conserv. 2011;1(1):43-51. [Persian]‎ [Link]
22. Ghaemizadeh F, Akhavan S. The feasibility study of pressurized irrigation systems performance based on ‎water quality (Case study: Hamadan Province Plains). J Water Soil Conserv. 2014;21(1):65-83. [Persian]‎ [Link]
23. Office of Studies and Planning Hamadan Regional Water Company; 2012.‎ [Link]
24. Wang W, Jin J, Ding J, Li Y. A new approach to water resources system assessment- set pair analysis ‎method. Sci Chin Ser E Technol Sci. 2009;52(10):3017-23.‎ [Link] [DOI:10.1007/s11431-009-0099-z]
25. Gong L, Jin C. Fuzzy comprehensive evaluation for carrying capacity of regional water resources. Water ‎Resour Manag. 2009;23(12):2505-13.‎ [Link]
26. Ling H, Xu H, Fu J, Liu X. Surface runoff processes and sustainable utilization of water resources in Manas ‎River Basin, Xinjiang, China. J Arid Land. 2012;4(3):271-80.‎ [Link] [DOI:10.3724/SP.J.1227.2012.00271]

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