| تعداد نشریات | 286 |
| تعداد نشریات سازمان | 84 |
| تعداد شمارهها | 2,846 |
| تعداد مقالات | 32,300 |
| تعداد مشاهده مقاله | 41,387,090 |
| تعداد دریافت فایل اصل مقاله | 18,562,167 |
ارزیابی خطر و برنامه بیلان صفر بیابانزایی در افق 2030 در دشت گرگان | ||
| تحقیقات مرتع و بیابان ایران | ||
| مقاله 5، دوره 29، شماره 3، مهر 1401، صفحه 191-200 اصل مقاله (1.34 M) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.22092/ijrdr.2022.127630 | ||
| نویسندگان | ||
| زهرا جمالی1؛ مجید اونق* 2؛ عبدالرسول ماهینی3 | ||
| 1دانشجوی دکتری بیابان زدایی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان | ||
| 2استاد گروه آبخیزداری و مدیریت مناطق بیابانی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان | ||
| 3استاد، گروه محیط زیست، دانشگاه علوم کشاورزی و منابع طبیعی گرگان. | ||
| چکیده | ||
| رویکرد مدیریتی بیلان صفر تخریب اراضی (ZNLD) بهعنوان یک رویکرد نوین برای اولین بار در سال 2012 با هدف صفرسازی تخریب اراضی در افق 2030 مطرح شد. هدف از انجام این پژوهش، بررسی روند بیابانزایی با استفاده از مدل ESAs، اجرای رویکرد ZNLD و ارائه یک برنامه مدیریتی است. در این پژوهش پس از تهیه نقشه کاربری اراضی مربوط به سالهای 2000، 2010 و 2018 و پیشبینی آن در سال 2030 با استفاده از زنجیره مارکوف و شبیهسازی پارامتر دما و بارش با استفاده از مدل ریزمقیاسنمایی SDSM تحت سناریوی RCP4.5، نقشه خطر در افق زمانی 2030 شبیهسازی شد. در گام بعدی، برای دستیابی به ZNLD در افق 2030، برنامه مدیریتی برای به صفر رساندن بیابانزایی و تهیه نقشه ZNLD پیشنهاد گردید. نتایج مورد مطالعه نشان داد شدت بیابانزایی در افق زمانی 2030 رو به افزایش است. بیشترین افزایش خطر مربوط به کلاس F3 به میزان 7/2 درصد و بیشترین کاهش مربوط به کلاس P به میزان 7/4 درصد میباشد. کلاسهای خطر I و II بهترتیب به میزان 3 و 2/3 درصد در افق زمانی 2030 کاهش خواهد یافت. این در حالی است که کلاسهای خطر III و IV روند افزایشی خواهند داشت. برای دستیابی به سطح ZNLD بهترتیب با احیاء مساحتی برابر 3/2 و 6/12 درصد از وسعت اراضی با کلاس خطر F1 و P و با حفظ شرایط موجود (2/0 درصد از مناطق N) در مجموع مساحتی برابر 1/15 درصد به مناطق غیربیابانی افزوده خواهد شد و سطح ZNLD در افق 2030 به 4/23 درصد خواهد رسید. | ||
| کلیدواژهها | ||
| RCP؛ تغییرات کاربری اراضی؛ تغییر اقلیم؛ دشت گرگان؛ ریسک | ||
| عنوان مقاله [English] | ||
| Assessment of Hazard and Risk and Road Map to Zet-Nero in Gorgan plain for 2030 | ||
| نویسندگان [English] | ||
| zahra jamali1؛ Majid Ownegh2؛ Abdol Rasool mahini3 | ||
| 1PhD student of combat desertification, Gorgan University of Agricultural Science and natural Resources | ||
| 2Department of Watershed and desert Resorts Management Professor | ||
| 3Department of Environmental Science Professor, Gorgan University of Agricultural Science and natural Resources | ||
| کلیدواژهها [English] | ||
| RCP, land use change, climate change, Risk, Gorgan plain | ||
| مراجع | ||
|
Akbari, M., Neamatollahi, E. and Neamatollahi, P., 2019. Evaluating land suitability for spatial planning in arid regions of eastern Iran using fuzzy logic and multi-criteria analysis. Journal of Ecological indicators, 98:587-598. Akbari, M., Ownegh, M., Asgari, H.R., Sadoddin, A. and Khosravi, H., 2016. Desertification risk assessment and management program. Global Journal of Environmental Science and Management, 2(4): 365-380. Ammann, W., 2016. Early Warning in Disaster Risk Reduction Needs and Potential, In7th International conference on integrated natural disaster management-INDM, Iran, 2016 Feb, 15-16. Analysis Report of surface and groundwater. 2014. Golestan Province Planning Studies, Management and Planning Organization. Ansari, A. and Golabi, M.H., 2019. Prediction of spatial land use changes based on LCM in a GIS environment for Desert Wetlands–A case study: Meighan Wetland, Iran. International soil and water conservation research, 7(1): 64-70. Berg, A. and Sheffield, J., 2018. Climate change and drought: the soil moisture perspective. Current Climate Change Reports, 4(2):180-191. Burrell, A.L., Evans, J.P. and De Kauwe, M.G., 2020. Anthropogenic climate change has driven over 5 million km 2 of drylands towards desertification. Nature communications, 11(1):1-11. Behnia, M., Zehtabian, G.H., Khosravi, H., Ahmadali, K.H., Nazari Samani, A.A. and Mesbahzadeh, T., 2021. Investigating the relationship between desertification criteria and land use change and providing operational monitoring methodology Using IMDPA. Journal of Natural Environmental Hazards, 29: 69-86. Chamanpira, G.H. R., Zehtabian, G.H.R. and Ahmadi, H., 2006. Application of ICD method for determining the severity of desertification in Koohdasht watershed. Journal of Iranian Natural Resourses, 3: 543-555. Chasek, P., Safriel, U., Shikongo, S. and Fuhrman, V.F., 2015. Operationalizing zero net land degradation: The next stage in international efforts to combat desertification? Journal of Arid Environments, 112:5-13. Cook, B.I., Mankin, J.S. and Anchukaitis, K.J., 2018. Climate change and drought: From past to future. Current Climate Change Reports, 4(2):164-179. Dai, A., Zhao, T. and Chen, J., 2018. Climate change and drought: a precipitation and evaporation perspective. Current Climate Change Reports, 4(3):301-312. Dargahian, F., Heidarnejad, S. and Razavizadeh, S., 2021. Investigating the trend of changes in the heat wave properties Related to climate change in arid regions (Case Study: Yazd City), Iranian Journal of Range and Desert Research, 28 (3):564-577. (In Persian with English summary). Davari, S., Rasheki, A.R., Akbari, M. and Talebanfard, A.L., 2019. Monitoring of spatio-temporal indices on desertification in arid regions of south of Khorasan Razavi province. Journal of RS and GIS for Natural Resources, 2:17-32. (In Persian with English summary). Davudirad, A.A., 2017. Adaptive Management based on Zero Net Land Degradtion Approach in Shazand Watershed- Markazi Province, Dissertation, Tarbiat Modares University. European Commission. 1999. Meditterannean Desertification and Land Use (MEDALUS). MEDALUS office. London. 90 P. Farajollahi, A., Asgari, H.R., Ownagh, M., Mahboubi, M.R. and Mahini, A.R., 2017. The effect of land use changes on desertification hazard (Case study: Maraveh Tappeh region of Golestan Province, Iran). Modern Applied Science, 11(1): 168-179. Ghavami, S.A., Akbari, M., Karimi, A. and Yazdanrad, H., 2022. Assessment of vegetation vulnerability using remote sensing (case study: Namdan plain, Fars province), The 1 st International and the 8 th National Conference on Rangeland Management in Iran. Grainger, A., 2015. Is land degradation neutrality feasible in dry areas? Journal of Arid Environments, 112:14-24. Hashemi nasab, S.N. and Jafari, R., 2019. Assessing land use changes order to monitor desertification, Journal of spatial analysis environmental hazard, 3: 59-74. (In Persian with English summary). Hassan, W.H., 2020. Climate change impact on groundwater recharge of Umm er Radhuma unconfined aquifer Western Desert, Iraq. International Journal of Hydrology Science and Technology, 10(4): 392-412. IPCC. Climate change 2013. The physical science basis. Summary for policy makers. Contribution of Working Group I to the Intergovernmental Panel on Climate Change. Cambridge University Press. 2013; 18. Iturbide, M., Gutiérrez, J.M., Alves, L.M., Bedia, J., Cerezo-Mota, R., Cimadevilla, E., Cofiño, A.S., Di Luca, A., Faria, S.H., Gorodetskaya, I.V. and Hauser, M., 2020. An update of IPCC climate reference regions for subcontinental analysis of climate model data: definition and aggregated datasets. Earth System Science Data, 12(4): 2959-2970. Javadinejad, S., Dara, R. and Jafary, F., 2021. Analysis and prioritization the effective factors on increasing farmer’s resilience under climate change and drought. Journal of Agricultural research, 10(3): 497-513. Jehanzaib, M., Sattar, M.N., Lee, J.H. and Kim, T.W., 2020. Investigating effect of climate change on drought propagation from meteorological to hydrological drought using multi-model ensemble projections. Stochastic Environmental Research and Risk Assessment, 34(1): 7-21. Khosravi, Y., Lashkari, H., Matkan, A. and Asakareh, H., 2017. Modeling of spatial relationships of water vapor pressure using spatial statistics techniques. Scientific-Research Quarterly of Geographical Data (SEPEHR), 26(102):81-98. (In Persian with English summary). Lal, R., Safriel, U. and Boer, B., 2012. Zero net land degradation, a new sustainable development goal for RIO+ 20; a report prepared for the Secretariat of the UNCCD. Liu, B., Yan, Z., Sha, J. and Li, S., 2017. Drought evolution due to climate change and links to precipitation intensity in the Haihe River Basin. Journal of Water, 9(11): 878-890. Maryam, M., Mohammad, R., Shima, N. and Ali, A.D., 2020. The survey of desertification potential in Damghan plain by using meteorological data and land use variations. Iranian Journal of Range and Desert Research, 27(1). (In Persian with English summary). Mas, J.F., Kolb, M., Paegelow, M., Olmedo, M.T.C. and Houet, T., 2014. Inductive pattern-based land use/cover change models: A comparison of four software packages. Environmental Modelling & Software, 51: 94-111. Mohammadi, P., Ghorbani, M., Malekian, A. and Nazarisamani, A.k., 2019. Measuring and analyzing the vulnerability of local communities in front of the climate change (Case study: Ghasre-Shirin District). Iranian Journal of Range and Desert Research. 27 (2): 287-299. (In Persian with English summary). Mukherjee, S., Mishra, A. and Trenberth, K.E., 2018. Climate change and drought: a perspective on drought indices. Current Climate Change Reports, 4(2): 145-163. Nazari Samani, A.A., Khalighi, S.H., Abdolshahnejhad, M., Sayadi Lotfabadi, S. and Habibi Nokhandan, M., 2017. Determination the role of climate change and land use on future desertification status, case study: Sabzevar, Watershed engineering and management. 11(3): 806-818. (In Persian with English summary). Nkonya, E. and Anderson, W., 2015. Exploiting provisions of land economic productivity without degrading its natural capital. Journal of Arid Environments, 112: 33-43. Ostad-Ali-Askari, K., Ghorbanizadeh Kharazi, H., Shayannejad, M. and Zareian, M.J., 2020. Effect of climate change on precipitation patterns in an arid region using GCM models: case study of Isfahan-Borkhar Plain. Natural Hazards Review, 21(2): 04020006. Parker, D.C., Manson, S.M., Janssen, M.A., Hoffmann, M.J. and Deadman, P., 2003. Multi-agent systems for the simulation of land-use and land-cover change: a review. Annals of the association of American Geographers, 93(2): 314-337. Parvaneh, H., 2010. Mapping of desertification hazard intensity using MEDALUS method. MSc. Thesis. University of Esfahan. Rahimi, D. and Rahimi Dashliboroon, Y., 2014. Resources in the impacts climate change on floods in north of Iran.Journal of Geography and Environmental Planning, 27(1): 89-102. Salarian; F., Tatian; M.R., Ghanghermeh; A. and Tamartash; R., 2022. Modeling land cover changes in Golestan province using land change modeler (LCM). Journal of RS and GIS for Natural Resources. 12(4): 47-70. (In Persian with English summary). Sarbazi, M., Ownegh, M., Mohammadian Behbahani, A. andAkbari, M., 2021. Evaluating and modeling temporal-spatial change of land use in the expansion of desertification intensity in the arid regions of northeast Iran (Sarakhs). Journal of Geography and environmental hazards. 9(2): 1-18. (In Persian with English summary). Sayadi Lotfabadi, S., 2013. Investigating the Effects of Climate Change on desertification (Case study: Sabzevar). MSc. Thesis. University of Tehran. Shahbazi, K.H., Heshmati, M. and Saeidifar, Z., 2021. Investigating the effect of climate change on drought and desertification risk in Kermanshah Province. Desert management. 8(16):183-200. (In Persian with English summary). Stavi, I. and Lal, R., 2015. Achieving zero net land degradation: challenges and opportunities. Journal of Arid Environments, 112: 44-51. Yanli, Y., Jabbar, M.T. and Zhou, J.X., 2012. Study of environmental change detection using Remote Sensing and GIS application: A case study of northern Shaanxi Province, China. Journal of Study of Environmental Change Detection, 21(3):789-790. Zhang, S., Wu, Y., Sivakumar, B., Mu, X., Zhao, F., Sun, P., Sun, Y., Qiu, L., Chen, J., Meng, X. and Han, J., 2019. Climate change-induced drought evolution over the past 50 years in the southern Chinese Loess Plateau. Environmental Modelling & Software, 122:104519. Ziaee, N., Ownegh, M., Asgari, H.R., Massahbavani, A.R., Mahini, S. and Hosseinalizadeh, M., 2018. Comparison of climate change scenarios on the desertification hazard intensity and risk of Hablehroud basin, Tehran province, Desert ecosystem engineering journal. 6(16): 105-118.
| ||
|
آمار تعداد مشاهده مقاله: 246 تعداد دریافت فایل اصل مقاله: 207 |
||