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بررسی اقتصادی نقش تغییر نظام آبیاری در بهره وری آب در شبکه آبیاری و زهکشی درودزن | ||
| اقتصاد کشاورزی و توسعه | ||
| مقاله 10، دوره 30، شماره 3 - شماره پیاپی 119، آذر 1401، صفحه 267-286 اصل مقاله (1009.04 K) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.30490/aead.2023.354981.1353 | ||
| نویسندگان | ||
| آذر شیخ زین الدین* 1؛ حامد دهقانپور2 | ||
| 1نویسنده مسئول و استادیار گروه اقتصاد کشاورزی، دانشکده کشاورزی، دانشگاه شیراز، شیراز، ایران | ||
| 2دکترای اقتصاد کشاورزی، دانشگاه شیراز، شیراز، ایران. | ||
| چکیده | ||
| شبکه آبیاری و زهکشی درودزن نقش مهمی در تولید محصولات کشاورزی استان فارس دارد، ولی به دلیل نازل بودن ریزشهای جوی و برداشت های بیرویه و غیر اصولی آب، با مشکلات جدّی مواجه شده است. نظر به اهمیّت آگاهی از مقدار بهره وری آب مصرفی در راستای مدیریت منابع آب، در مطالعه حاضر، با استفاده از شاخص عملکرد به ازای واحد حجم آب (CPD)، به محاسبه بهره وری آب کشاورزی در این شبکه آبیاری و زهکشی پرداخته شد؛ و به منظور بررسی اثرات تغییر در نظام آبیاری «از سطحی به تحت فشار» بر متغیرهای موجود در شاخص بهره وری، از مدل ارزیابی آب و خاک (SWAT) در سال زراعی 1393-1392 استفاده شد. یافته های مطالعه نشان داد که در نظام کشاورزی شبکه آبیاری و زهکشی درودزن، شاخص عملکرد به ازای واحد حجم آب بر حسب حاصل جمع آب آبیاری و بارش مؤثر (CPDIP) برابر با 606/0 کیلوگرم در متر مکعب است؛ همچنین بر اساس نتایج مطالعه، تغییر نظام آبیاری از سطحی به بارانی میتواند بهترتیب، به افزایش شاخص بهره وری بر حسب تبخیر و تعرق واقعی (CPDET) و شاخص CPDIP به مقدار 23 و 46 درصد منجر شود. بنابراین، میتوان گفت که یکی از اقدامات مهم در راستای بهبود بهره وری مصرف آب کشاورزی در شبکه آبیاری و زهکشی درودزن توسعه نظام آبیاری بارانی است. | ||
| کلیدواژهها | ||
| بهره وری آب؛ نظام آبیاری تحت فشار؛ شبکه آبیاری و زهکشی درودزن؛ شاخص CPD | ||
| عنوان مقاله [English] | ||
| Assessing the Impacts of Changing Irrigation System on Water Productivity in Doroudzan Irrigation and Drainage Network | ||
| نویسندگان [English] | ||
| A. Seikhzeinoddin1؛ H. Dehghanpur2 | ||
| 1Corresponding Author and Assistant Professor, Department of Agricultural Economics, Faculty of Agriculture, Shiraz University, Shiraz, Iran | ||
| 2PhD of Agricultural Economics, Shiraz University, Shiraz, Iran | ||
| چکیده [English] | ||
| Doroudzan Irrigation and Drainage Network (DIDN) plays an important role in the production of agricultural products in Fars province of Iran, but it has faced serious problems due to low precipitations and indiscriminate water extraction. Considering the importance of estimating the amount of water consumption productivity for water resources management, this study aimed at calculating the agricultural water productivity in the DIDN network using Crop per Drop (CPD) Index, and to investigate the effects of the change in the irrigation system "from surface to pressurized" on the variables in the productivity index, the assessment model of Soil, Water, Atmosphere and Plant (SWAT) was used in 2013-2014 cropping year. The study findings showed that in the DIDN network, the CPD in terms of the sum of irrigation water and effective precipitation (CPDIP) is equal to 0.606 kg per cubic meter. In addition, based on the study results, changing the irrigation system from surface to rainwater can lead to an increase in the productivity index in terms of actual evaporation and transpiration (CDPET) and CPDIP index by 23 and 46 percent, respectively. Therefore, it can be said that one of the important measures in order to improve the efficiency of agricultural water consumption in the Doroudzan Irrigation and Drainage Network (DIDN) is the development of pressurized irrigation system. | ||
| کلیدواژهها [English] | ||
| Water Productivity, Pressurized Irrigation System, Doroudzan Irrigation and Drainage Network (DIDN), CPD Index | ||
| مراجع | ||
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Abbasi, F., Naseri, A., Sohrab, F., Baghani, J., Abbasi, N. and Akbari, M. (2015). Improvement of water consumption utilization. Agricultural Research, Education and Extension Organization (AREEO), Agricultural Engineering Research Institute. (Persian) Ahmadzadeh, H., Morid, S., Delavar, M. and Srinivasan, R. (2015). Using the SWAT model to assess the impacts of changing irrigation from surface to pressurized systems on water productivity and water saving in the Zarrineh Rud catchment. Journal of Agricultural Water Management, 175: 15-28. Available at https://doi.org/10.1016/j.agwat.2015.10.026. Akbari, M. (2004). Improved irrigation management of farms using information integration, farm and SWAP simulation model. Tehran: Tarbiat Modares University. (Persian) Ashraf Vaghefi, S., Abbaspour, K.C., Faramarzi, M., Srinivasan, R. and Arnold, J.G. (2017). Modeling crop water productivity using a coupled SWAT-MODSIM model. Journal of Water, 9(3): 157. Available at https://doi.org/10.3390/w9030157. Cai, X., McKinney, D.C. and Rosegrant, M.W. (2003). Sustainability analysis for irrigation water management in the Aral Sea region. Journal of Agricultural Systems 76(3): 1043-1066. Droogers, P. and Kite, G.W. (2001). Estimating productivity of water at different spatial scales using simulation modeling. Research Reports44568, International Water Management Institute (IWMI). Ehsani, M. and Khaledi, H. (2003). Agricultural water productivity. Tehran: Iranian National Committee on Irrigation and Drainage (IRNCID). (Persian) FAO (2015). Towards a regional collaborative strategy on sustainable agricultural water management and food security in the Near East and North Africa Region. Cairo, FAO Regional Office for Near East and North Africa. 107 pp. Available at: https://www.fao.org/fileadmin/user_upload/rne/docs/LWD-Main-Report-2nd-Edition.pdf. Heidari, N. (2012). Determination and evaluation of water use efficiency of some major crops under farmers management in Iran. Water and Irrigation Management, 1(2): 43-57. (Persian) Huang, F. and Li, B. (2010). Assessing grain crop water productivity of China using a hydro-model-coupled-statistics approach: Part I: Method development and validation. Journal of Agricultural Water Management, Elsevier, 97(7): 1077-1092. IRNCID (2015). Agricultural water productivity. Tehran: Iranian National Committee on Irrigation and Drainage (IRNCID). (Persian) Keshavarz, A. and Dehghani Sanij, H. (2012). Water productivity index and solutions for future agricultural activities in Iran. Quarterly Journal of Economic Strategy, 1(1): 199-233. (Persian) Liu, Q., Niu, J., Sivakumar, B., Ding, R. and Li, S. (2021). Accessing future crop yield and crop water productivity over the Heihe River basin in northwest China under a changing climate. Geoscience Letters, 8(1): 1-16. Available at https://doi.org/10.1186/s40562-020-00172-6. MAJ (2009). Productivity of crops in exchange for water consumption in Iran and comparison with other countries of the world. Ministry of Agriculture-Jahad (MAJ),Agricultural Planning, Economics and Rural Development Research Institute (APERDRI). (Persian) Mottaghi, M. and Seyedan, S. (2019). Determination of the physical and economic water productivity for grain and forage corn under modern and traditional irrigation systems in Hamadan province. Journal of Water Sustainable Development, 6(1): 1-8. (Persian) Neitsch, S.L., Arnold, J.G., Kiniry, J.R. and Williams, J.R. (2011). Soil and water assessment tool theoretical documentation version 2009. Texas Water Resources Institute Technical Report No. 406. Texas A&M University System. Sadeghzadeh, K. and Keshavarz, A. (2000). Recommendations on optimization of water use efficiency in Iran. Tehran: Agricultural Research,Education and Extension Organization (AREEO), Office for the Production of Extension Programs and Technical Publications. Center for Information and Scientific Documents of Agriculture. (Persian) Sharifan, H., Ghahreman, B., Alizadeh, A. and Mirlotfi, M. (2005). Evaluation of radiation and moisture methods for estimating reference evapotranspiration and effects of air dryness on it in Golestan province. Journal of Soil and Water Science, 19(2): 290-290. (Persian) Sheikh Zeinoddin, A. and Esmaeili, A.K. (2017). Ecological and economic impacts of different irrigation and fertilization practices: case study of a watershed in the southern Iran. Environment, Development and Sustainability, 19(6): 2499-2515. DOI: 10.1007/s10668-016-9868-6. Sheikh Zeinoddin, A., Esmaili, A.K. and Noshadi, M. (2016). Impact of irrigation and fertilization management strategies on nitrate leaching: using SWAT model. Journal of Water and Soil Science (Sciences and Technology of Agriculture and Natural Resources), 19(74): 141-155. (Persian) Törnqvist, R. and Jarsjö, J. (2012). Water savings through improved irrigation techniques: basin-scale quantification in semi-arid environments. Water Resources Management, 26(4): 949-962. Tuong, T.P. and Bouman, B.A.M. (2003) Rice production in water-scarce environments. In: J.W. Kijne, R. Barker and D. Molden (Eds) Water productivity in agriculture: limits and opportunities for improvement, CABI Publishing, Wallingford, 53-67. UI Hassan, M., Qureshi, A.S. and Heydari, N. (2007). A proposed framework for irrigation management transfer in Iran: lessons from Asia and Iran. Colombo, Sri Lanka: International Water Management Institute (IWMI). 31p. (IWMI Working Paper 118). DOI: 10.3910/2009.299. | ||
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