1. M. Clemens, G. Khurelbaatar, R. Merz, C. Siebert, M.V. Afferden, T. Rödiger, Groundwater protection under water scarcity; from regional risk assessment to local wastewater treatment solutions in Jordan, Sci. Total Environ., 706 (2020) 136066.
  2. A. Rezaei, H. Hassani, S. Hassani, N. Jabbari, S.B.F. Mousavi, S. Rezaei, Evaluation of groundwater quality and heavy metal pollution indices in Bazman basin, southeastern Iran, Groundwater Sustainable Dev., 9 (2019) 100245.
  3. H. Gökçekuş, Y. Kassem, J. Aljamal, Analysis of different combinations of meteorological parameters in predicting rainfall with an ANN approach: a case study in Morphou, Northern Cyprus, Desal. Water Treat., 177 (2020) 350–362.
  4. M. Song, R. Wang, X. Zeng, Water resources utilization efficiency and influence factors under environmental restrictions, J. Cleaner Prod., 184 (2018) 611–621.
  5. S. Kundu, D. Khare, A. Mondal, Future changes in rainfall, temperature and reference evapotranspiration in the central India by least square support vector machine, Geosci. Front., 8 (2017) 583–596.
  6. C.D. Ahrens, R. Henson, Meteorology Today: an Introduction to Weather, Climate, and the Environment, Cengage Learning, Boston, MA, 2016.
  7. P. Panagos, P. Borrelli, J. Poesen, C. Ballabio, E. Lugato, K. Meusburger, C. Alewell, The new assessment of soil loss by water erosion in Europe, Environ. Sci. Policy, 54 (2015) 438–447.
  8. T. Iizumi, N. Ramankutty, How do weather and climate influence cropping area and intensity?, Global Food Secur., 4 (2015) 46–50.
  9. C.P. McMullen, J.R. Jabbour, Climate Change Science Compendium 2009, United Nations Environment Programme, Nairobi, 2009.
  10. O. Mehmet, H. Bicak, Modern and Traditional Irrigation Technologies in the Eastern Mediterranean, IDRC International Development Research Centre, 2002.
  11. A. Sofroniou, S. Bishop, Water scarcity in Cyprus: a review and call for integrated policy, Water, 6 (2014) 2898–2928.
  12. E.A. Pearce, C.G. Smith, The Times Books World Weather Guide, Times Books/Random House, New York, 1990.
  13. I. Iacovides, Water Resources in Cyprus: Endowments and Water Management Practices, Water Resour. Allocation, 1 (2011) 11–21.
  14. O.P. Agboola, F. Egelioglu, Water scarcity in North Cyprus and solar desalination research: a review, Desal. Water Treat., 43 (2012) 29–42.
  15. G.R.H. Wright, Ancient Building in Cyprus, E.J. Brill, Leiden, 1992.
  16. D. Fanta, Conceptual Model Development for Güzelyurt aquifer, North Cyprus (Master dissertation), Middle East Technical University. Retrieved February 30, 2020. Available at:
  17. U. Türker, B.R. Hansen, River Basin Management and Characterization of Water Bodies in North Cyprus, 10th International Congress on Advances in Civil Engineering, 7–19 October 2012, Middle East Technical University, Ankara, Turkey.
  18. H. Gökçekuş, V. Nourani, Lessons from Groundwater Quantity and Quality Problems In the Güzelyurt Coastal Aquifer, North Cyprus, In Advances in Environmental Research, Vol. 64, Nova Science Publishers, Inc., USA, 2018.
  19. H. Gökçekus, V. Doyuran, Evaluation of hydrodynamic data from Güzelyurt Aquifer (Turkish Republic of Northern Cyprus) through cluster analysis, Turk. J. Earth Sci., 4 (1995) 1–10.
  20. M. Ergil, The salination problem of the Guzelyurt aquifer, Cyprus, Water Res., 34 (2000) 1201–1214.
  21. D. McKinney, P. Brown, Yeşilköy/Ayios Andronikos Aquifer Groundwater Model Technical Report, USGS/SAVE Project, Nicosia, Cyprus, 2007.
  22. H. Gökcekus, A. Iravanian, U. Türker, G. Oguz, S. Sözen, D. Orhon, Massive freshwater transport: a new dimension for integrated water-wastewater management in North Cyprus, Desal. Water Treat., 132 (2018) 215–225.
  23. S. Michaelides, F. Tymvios, T. Michaelidou, Spatial and temporal characteristics of the annual rainfall frequency distribution in Cyprus, Atmos. Res., 94 (2009) 606–615.
  24. H.N. Phien, T.J. Ajirajah, Applications of the log Pearson type-3 distribution in hydrology, J. Hydrol., 73 (1984) 359–372.
  25. R. Tortorelli, W. Asquith, R. Alan, Depth-Duration Frequency of Precipitation for Oklahoma, US Geological Survey, Water Resources Investigation Report, 1999, pp. 99–4232.
  26. Z. Şen, A.G. Eljadid, Rainfall distribution function for Libya and rainfall prediction, Hydrol. Sci. J., 44 (1999) 665–680.
  27. A. Ogunlela, Stochastic Analysis of Rainfall Events in Ilorin, Nigeria, J. Agric. Res. Dev., 1 (2001) 39–50.
  28. M. Zalina, M. Desa, V.T.A. Nguyen, A. Kassim, Selecting a probability distribution for extreme rainfall series in Malaysia, Water Sci. Technol., 45 (2002) 63–68.
  29. D.Q. Tao, V.T. Nguyen, A. Bourque, On Selection of Probability Distributions for Representing Extreme Precipitations in Southern Quebec, In: Annual Conference of the Canadian Society for Civil Engineering, 5–8th June, 2002, pp. 1–8.
  30. C. Lee, Application of rainfall frequency analysis on studying rainfall distribution characteristics of Chia-nan plain in Southern Taiwan, J. Crop Environ. Bioinf., 2 (2005) 31–38.
  31. F. Yusof, Z. Daud, V. Nguyen, S. Jamaludin, Z. Yusop, Fitting the best–fit distribution for the hourly rainfall amount in the wilayah Persekutuan, J. Teknol., 46 (2007) 49–58.
  32. X. Kwaku, O. Duke, Characterization and frequency analysis of one day annual maximum and two to five consecutive days maximum rainfall of Accra, Ghana, ARPN J. Eng. Appl. Sci., 2 (2007) 27–31.
  33. L.S. Hanson, R. Vogel, The Probability Distribution of Daily Rainfall in the United States, World Environmental and Water Resources Congress, Honolulu, Hawaii, United States, 2008.
  34. M. Sharma, J. Singh, Use of probability distribution in rainfall analysis, N. Y. Sci. J., 3 (2010) 40–49.
  35. F. Johnson, K. Haddad, A. Rahman, J. Green, Application of Bayesian GLSR to estimate sub-daily rainfall parameters for the IDF revision project, hydrology and water resources symposium, 19–22 Nov, 2012, Australia, Sydney.
  36. J. Green, K. Xuereb, F. Johnson, G. Moore, The Revised Intensity–Frequency–Duration (IFD) Design Rainfall Estimates for Australia—An Overview, Proceeding of 34th Hydrology and Water Resources Symposium 19–22 November, 2012, Sydney, Australia.
  37. M. Khudri, F. Sadia, Determination of the best fit probability distribution for annual extreme precipitation in Bangladesh, Eur. J. Sci. Res., 103 (2013) 391–404.
  38. A.A. Mamoon, N.E. Joergensen, A. Rahman, H. Qasem, Derivation of new design rainfall in Qatar using L-moment based index frequency approach, Int. J. Sustainable Built Environ., 3 (2014) 111–118.
  39. M. Montaseri, B. Amirataee, H. Rezaei, Assessment of goodness of fit methods in determining the best regional probability distribution of rainfall data, Int. J. Eng., 27 (2014) 1537–1546.
  40. S. Mandal, B.U. Choudhury, Estimation and prediction of maximum daily rainfall at Sagar Island using best fit probability models, Theor. Appl. Climatol., 121 (2014) 87–97.
  41. A.M. Subyani, N.S. Al-Amri, IDF curves and daily rainfall generation for Al-Madinah city, western Saudi Arabia, Arab. J. Geosci., 8 (2015) 11107–11119.
  42. Z. Hassan, S. Shamsudin, S. Harun, Choosing the best fit distribution for rainfall event characteristics based on 6H-Ietd within Peninsular Malaysia, J. Teknol., 75 (2015) 145–157.
  43. A.A. Mamoon, A. Rahman, Selection of the best fit probability distribution in rainfall frequency analysis for Qatar, Nat. Hazards, 86 (2016) 281–296.
  44. M.T. Amin, M. Rizwan, A.A. Alazba, A best-fit probability distribution for the estimation of rainfall in northern regions of Pakistan, Open Life Sci., 11 (2016) 432–440.
  45. T. Mohamed, A. Ibrahim, Fitting probability distributions of annual rainfall in Sudan, SUST J. Eng. Comput. Sci., 17 (2016) 35–39.
  46. A.I. Agbonaye, O.C. Izinyon, Best-fit probability distribution model for rainfall frequency analysis of Three Cities in South Eastern Nigeria, Nigerian J. Environ. Sci. Technol., 1 (2017) 34–42.
  47. J. Yuan, K. Emura, C. Farnham, M.A. Alam, Frequency analysis of annual maximum hourly precipitation and determination of best fit probability distribution for regions in Japan, Urban Climate, 24 (2018) 276–286.
  48. M. Alam, C. Farnham, K. Emura, Best-fit probability models for maximum monthly rainfall in Bangladesh using Gaussian mixture distributions, Geosciences, 8 (2018) 138.
  49. M. Alam, K. Emura, C. Farnham, J. Yuan, Best-fit probability distributions and return periods for maximum monthly rainfall in Bangladesh, Climate, 6 (2018) 9.
  50. R.K. Meena, S. Dubey, S.M. Basak, Use of different probability distribution in rainfall analysis for RRS, Pundiari, Cooch Behar, Int. J. Curr. Microbiol. Appl. Sci., 8 (2019) 1325–1337.
  51. H. Baghel, H. Mittal, P. Singh, K. Yadav, S. Jain, Frequency analysis of rainfall data using probability distribution models, Int. J. Curr. Microbiol. Appl. Sci., 8 (2019) 1390–1396.
  52. A.S. Parchure, S.K. Gedam, Probability distribution analysis of extreme rainfall events in a flood-prone region of Mumbai, India, Arab. J. Geosci., 12 (2019), article/10.1007/s12517-019-4473-2#citeas.
  53. Y. Kassem, H. Gökçekuş, Water resources and rainfall distribution function: a case study in Lebanon, Desal. Water Treat., 177 (2020) 306–321.
  54. N. Stamatatou, L. Vasiliades, A. Loukas, The effect of sample size on bivariate rainfall frequency analysis of extreme precipitation, Proceedings, 7 (2018) 19.
  55. H. Zaifoglu, B. Akintug, A.M. Yanmaz, Regional frequency analysis of precipitation using time series clustering approaches, J. Hydrol. Eng., 23 (2018) 05018007.
  56. A. Sukrutha, S. Dyuthi, S. Desai, Probability distribution for monthly precipitation data in India, ArXiv, (2017) 1–23, https:// distribution_for_monthly_precipitation_data_in_India.
  57. G.C. Blain, M.C. Meschiatti, Using multi-parameters distributions to assess the probability of occurrence of extreme rainfall data, Rev. Bras. Eng. Agríc. Ambiental, 18 (2014) 307–313.