بختیاری، ب. 1388. برآورد تبخیرتعرق مرجع چمن در مقیاس های زمانی کوتاه و به تفکیک شب و روز (مطالعه موردی در اقلیم کرمان). رساله دکتری در رشته هواشناسی کشاورزی، دانشکده مهندسی آب و خاک، پردیس کشاورزی و منابع طبیعی کرج، دانشگاه تهران.
بختیاری، ب.، خلیلی، ع.، لیاقت، ع. م. و خانجانی، م . ج. 1388. مقایسه تبخیرتعرق روزانه با مجموع ساعتی در ایستگاه هواشناسی مرجع کرمان. مجله آب و خاک، 23(1): 56-45.
بختیاری، ب.، لیاقت، ع. م. و خلیلی، ع. 1389. تأثیر بازه زمانی اندازهگیری متغیرهای هواشناسی در برآورد نیاز آبی گیاه مرجع. آبیاری و زهکشی ایران. 4(1): 89-83.
خلیلی، ع.، بذرافشان، ج.، چراغعلیزاده، م. 1401. بررسی تطبیقی نقشههای اقلیمی ایران در طبقهبندی دمارتن گسترش داده شده و کاربست روش برای پهنهبندی اقلیم جهان. هواشناسی کشاورزی، 10(1): 16-3.
محمدیان ا.، علیزاده، ا. و جوانمرد، س. 1384. محاسبه میزان فرابرآورد تبخیرتعرق مرجع با استفاده از دادههای ایستگاههای هواشناسی غیر مرجع در ایران. مجله تحقیقات مهندسی کشاورزی، 6 (23): 84-67.
Allen, R. G., Raes, L. S. and Smith, M. 1998. Crop Evapotranspiration Guidelines for Computing Crop Water Requirements. FAO Irrigation and Drainage, Paper No. 56, FAO, Rome, Italy, 301 p.
Al-Nakshabandi, G. A., and Kijne, J. W. 1974. Potential evapotranspiration in central Iraq using the Penman method with modified wind function. Journal of Hydrology. 23(3-4):319-328.
Bakhtiari, B., Kamyab Moghadas, R., Khanjani, M. J. and Taraz, H. 2006. Kerman weighing electronic lysimeter error analysis. International conference on Sustainable Irrigation Management, Technologies and Policies. WIT Transactions on Ecology and the Environment. 96:137-147, Bologna, Italy.
Berengena, J. and Gavilan, P. 2005. Reference evapotranspiration estimation in a highly advective semiarid environment. Journal of Irrigation and Drainage Engineering. 131(2): 147-163.
de Bruin, H. A. R. and Trigi, I. F. 2019. A New Method to Estimate Reference Crop Evapotranspiration from Geostationary Satellite Imagery: Practical Considerations. Water. 11(2):382.
Eching, S. O. and Snyder, R. L. 2003. Statistical Control Charts for Quality Control of Weather Data for Reference Evapotranspiration Estimation. CIMIS, Department of Water Resources Office of Water Use Efficiency.
Hupet, F. and Vanclooster, M. 2001. Effect of the sampling frequency of meteorological variables on the estimation of the reference evapotranspiration. Journal of Hydrology. 243(3-4):192-204.
Liu, B., Han, H., Liu, X., Li, C., Chen, X., Wu, H., Luo, Y. and Cui, Y. 2022. Quantifying the effects of advection on single crop coefficients over a humid paddy field for sustainable irrigation. Journal of Hydrology. 614, part B, 128552.
Losavio, N., Mastrorilli, N. and Rana, G. 1992. Review of the convective term in the Penman formula. Proceedings of the Second ESA Congress, Norwick University. 184–185
Malek, E. 1994. Calibration of the Penman wind function using the Bowen ratio energy balance method. Journal of Hydrology. 163:289-298.
McGuffie, K., and Henderson-Sellers, A. 2003. A Climate Modelling Primer. Third Edition, John Wiley & Sons, INC, USA.
Mcjannet, D. L., Webster, I. T. and Cook, F. J., 2012. An area-dependent wind function for estimating open water evaporation using land-based meteorological data. Environmental Modeling & software. 31: 76-83.
Montgomery, D. C. 2000. Introduction to Statistical Quality Control. Fourth Edition. John Wiley and Sons Inc., New York.
Monteith, J. L. 1986. Howard Latimer Penman, 10 April 1909-13 October 1984. Biographical memoirs of fellows of the royal society. pp. 378-404.
Perez, A., Lagos, O., Lillo-Saavedra, M., Souto, C., Paredes, J. and Arumí, J. L. 2020. Mountain Lake Evaporation: A Comparative Study between Hourly Estimations Models and In Situ Measurements. Water. 12(9): 2648.
Rahimi, J., Ebrahimpour, M. and Khalili, A. 2013. Spatial changes of extended De Martonne climatic zones affected by climate change in Iran. Theoretical and applied climatology. 112(3): 409-418.
Rana, G. and Katerji, N. 1998. A measurement-based sensitivity analysis of the Penman-Monteith actual evapotranspiration model for crops of different height and in contrasting water status. Theoretical and Applied Climatology. 60:141-149.
Rana, G. and Katerji, N. 2000. Measurement and estimation of actual evapotranspiration in the field under Mediterranean climate: a review. European Journal of Agronomy 13 (2-3): 125-153.
Rosenberg, N. J., Blad, B. L. and Verma, S. B. 1983. Microclimate: the biological Environment John Wiley and Sons Inc., New York. 495 p.
Sabeti, H. 1969. Bioclimatic studies of Iran. University of Tehran Press, Tehran, 1231, 266 pp (In Farsi).
Seyyed Azizy, A. 1999. Estimation of Reference Crop Potential Evapotranspiration and ISO-ETo Maps for Iran. M. Sc. Thesis, Shiraz university. Shiraz, Iran.
Temesgen, B., Eching, S., Davidoff, B. and Frame, K. 2005. Comparison of some reference evapotranspiration equations for California. Journal of Irrigation and Drainage Engineering. 131(1): 73-84.
Varga-Haszonits, Z., Szalka, E. and Szakal, T. 2022. Determination of reference evapotranspiration using Penman-Monteith method in case of missing wind speed data under subhumid climatic condition in Hungary. Atmospheric and Climatic Sciences. 12(2):235-245.
Verma, S. B., Rosenberg, N. J., Blad, B. L. and Barabas, M. U. 1976. Resistance energy balance method for predicting evapotranspiration determination of boundary layer resistance and evaluation of error effects. Agronomy Journal. 68: 776-782.
Yang, Y., Su, H., Zhang, R., Wu, J. and Qi, J. 2013. A new evapotranspiration model accounting for advection and its validation during SMEX02. Advances in Meteorology. 389563, 1-13