بررسی روند خشکسالی هیدرولوژیک در سطح حوضه آبریز دریاچه ارومیه

Abtahi, M., Seif, A. & Khosroshahi, M. (2014). Assessment of temperature and precipitation trends in Kashan Namak lake basin during the last half-century, Iranian Journal of Range and Desert Research, 21(1), 1-12.

Bazrafshan, O., Mahmudzadeh, F. & Bazrafshan, J. (2017). Evaluation of temporal trends of the drought indices SPI and SPEI in the Southern Coast of Iran, Desert Management, 4(8), 54-69.

Kousari, M. R. Ekhtesasi, M. R. & Malekinezhad, H. (2017). Investigation of long-term drought trend in semi-arid, arid and hyper-arid regions of the world, Desert Management, 4(8), 36-53.

Montaseri, M., Amirataee, B., & Khalili, K. (2016). Identification of trend in spatial and temporal dry and wet periods in northwest of Iran based on SPI and RAI indices. Journal of Water and Soil, 30(2), 655-671.

Majidi, A., Radfar, M., Mirabbasi Najafabadi, R. & Marofi, F. (2018). Technical Report: Trend Analysis of Meteorological Drought Characteristics in Hamedan Province, Journal of Watershed Management Research, 9(17), 295-305.

sobhani, B., Jafarzadehaliabad, L., Safarianzengir, V. (2020). Modelling, Analysis, and Prediction of Drought Phenomenon in Iran. Hydrogeomorphology, 6(21), 181-202.

torabipodeh, H., Shahinejad, B., Dehghani, R. (2018). Drought Estimate Using Artificial Network Estimation Drought Using Intelligent Networks. Hydrogeomorphology, 5(14), 179-197.

Abarghouei, H. B., Zarch, M. A. A., Dastorani, M. T., Kousari, M. R., & Zarch, M. S. (2011). The survey of climatic drought trend in Iran. Stochastic Environmental Research and Risk Assessment, 25(6), 851.

AghaKouchak, A., Norouzi, H., Madani, K., Mirchi, A., Azarderakhsh, M., Nazemi, A., ... & Hasanzadeh, E. (2015). Aral Sea syndrome desiccates Lake Urmia: call for action. Journal of Great Lakes Research, 41(1), 307-311.

Ay, M., & Kisi, O. (2015). Investigation of trend analysis of monthly total precipitation by an innovative method. Theoretical and Applied Climatology, 120(3-4), 617-629.‏

Azizzadeh, M., & Javan, K. (2015). Analyzing trends in reference evapotranspiration in northwest part of Iran. Journal of Ecological Engineering, 16(2).‏

Bacanli, Ü. G. (2017). Trend analysis of precipitation and drought in the Aegean region, Turkey. Meteorological Applications, 24(2), 239-249.

Bonaccorso, B., Bordi, I., Cancelliere, A., Rossi, G., & Sutera, A. (2003). Spatial variability of drought: an analysis of the SPI in Sicily. Water resources management, 17(4), 273-296.

Caloiero, T. (2018). SPI trend analysis of New Zealand applying the ITA technique. Geosciences, 8(3), 101.

Dabanlı, İ., Şen, Z., Yeleğen, M. Ö., Şişman, E., Selek, B., & Güçlü, Y. S. (2016). Trend assessment by the innovative-Şen method. Water resources management, 30(14), 5193-5203.

13. Davarpanah, S., Erfanian, M., & Javan, K. (2021). Assessment of Climate Change Impacts on Drought and Wet Spells in Lake Urmia Basin. Pure and Applied Geophysics, 1-19.‏

Delju, A. H., Ceylan, A., Piguet, E., & Rebetez, M. (2013). Observed climate variability and change in Urmia Lake Basin, Iran. Theoretical and applied climatology, 111(1-2), 285-296.

Golian, S., Mazdiyasni, O., & AghaKouchak, A. (2015). Trends in meteorological and agricultural droughts in Iran. Theoretical and applied climatology, 119(3-4), 679-688.

Habeeb, D., Vargo, J., & Stone, B. (2015). Rising heat wave trends in large US cities. Natural Hazards, 76(3), 1651-1665.

Hallegatte, S., Green, C., Nicholls, R. J., & Corfee-Morlot, J. (2013). Future flood losses in major coastal cities. Nature climate change, 3(9), 802-806.

IPCC. (2013). Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press.

Jung, Y., Shin, J. Y., Ahn, H., & Heo, J. H. (2017). The spatial and temporal structure of extreme rainfall trends in South Korea. Water, 9(10), 809.

Khan, M. I., Liu, D., Fu, Q., & Faiz, M. A. (2018). Detecting the persistence of drying trends under changing climate conditions using four meteorological drought indices. Meteorological Applications, 25(2), 184-194.

Khazaei, B., Khatami, S., Alemohammad, S. H., Rashidi, L., Wu, C., Madani, K., ... & Aghakouchak, A. (2019). Climatic or regionally induced by humans? Tracing hydro-climatic and land-use changes to better understand the Lake Urmia tragedy. Journal of hydrology, 569, 203-217.

Malik, A., Kumar, A., Pham, Q. B., Zhu, S., Linh, N. T. T., & Tri, D. Q. (2020). Identification of EDI trend using Mann-Kendall and Şen-Innovative Trend methods (Uttarakhand, India). Arabian Journal of Geosciences, 13(18), 1-15.‏

Manatsa, D., Mukwada, G., Siziba, E., & Chinyanganya, T. (2010). Analysis of multidimensional aspects of agricultural droughts in Zimbabwe using the Standardized Precipitation Index (SPI). Theoretical and Applied Climatology, 102(3-4), 287-305.

McKee, T. B. (1995). Drought monitoring with multiple time scales. In Proceedings of 9th Conference on Applied Climatology, Boston, 1995.‏

McKee, T. B., Doesken, N. J., & Kleist, J. (1993, January). The relationship of drought frequency and duration to time scales. In Proceedings of the 8th Conference on Applied Climatology (Vol. 17, No. 22, pp. 179-183).

Mohorji, A. M., Şen, Z., & Almazroui, M. (2017). Trend analyses revision and global monthly temperature innovative multi-duration analysis. Earth Systems and Environment, 1(1), 9.

Moradi Dashtpagerdi, M., Kousari, M. R., Vagharfard, H., Ghonchepour, D., Hosseini, M. E., & Ahani, H. (2015). An investigation of drought magnitude trend during 1975–2005 in arid and semi-arid regions of Iran. Environmental earth sciences, 73(3), 1231-1244.

Öztopal, A., & Şen, Z. (2017). Innovative trend methodology applications to precipitation records in Turkey. Water resources management, 31(3), 727-737.

Partal, T., & Kahya, E. (2006). Trend analysis in Turkish precipitation data. Hydrological Processes: An International Journal, 20(9), 2011-2026.

Patel, N. R., & Yadav, K. (2015). Monitoring spatio-temporal pattern of drought stress using integrated drought index over Bundelkhand region, India. Natural Hazards, 77(2), 663-677.

Paulo, A. A., Rosa, R. D., & Pereira, L. S. (2012). Climate trends and behaviour of drought indices based on precipitation and evapotranspiration in Portugal. Natural Hazards and Earth System Sciences, 12(5), 1481-1491.

Saada, N., & Abu-Romman, A. (2017). Multi-site modeling and simulation of the standardized precipitation index (SPI) in Jordan. Journal of Hydrology: Regional Studies, 14, 83-91.

Tabari, H., Abghari, H., & Hosseinzadeh Talaee, P. (2012). Temporal trends and spatial characteristics of drought and rainfall in arid and semiarid regions of Iran. Hydrological Processes, 26(22), 3351-3361.

Tabari, H., & Talaee, P. H. (2011). Temporal variability of precipitation over Iran: 1966–2005. Journal of Hydrology, 396(3-4), 313-320.

Trenberth, K. E., Fasullo, J. T., & Shepherd, T. G. (2015). Attribution of climate extreme events. Nature Climate Change, 5(8), 725-730.‏

Tsakiris, G., & Vangelis, H. (2004). Towards a drought watch system based on spatial SPI. Water resources management, 18(1), 1-12.

Wang, W., Shao, Q., Yang, T., Peng, S., Yu, Z., Taylor, J., ... & Sun, F. (2013). Changes in daily temperature and precipitation extremes in the Yellow River Basin, China. Stochastic Environmental Research and Risk Assessment, 27(2), 401-421.

WMO and GWP (World Meteorological Organization and Global Water Partnership) (2016): Handbook of Drought Indicators and Indices. Integrated Drought Management Programme (IDMP): Integrated Drought Management Tools and Guidelines Series 2, No. 1173. – WMO, Geneva-Switzerland.

Yilmaz, B. (2019). Analysis of Hydrological Drought Trends in the Gap Region (Southeastern Turkey) by Mann-Kendall Test and Innovative Şen Method. Applied Ecology and Environmental Research, 17(2), 3325-3342.

Zarghami, M. (2011). Effective watershed management; case study of Urmia Lake, Iran. Lake and Reservoir Management, 27(1), 87-94.