Study of different climatic conditions to assess the role of solar radiation in reference crop evapotranspiration equations

Archives of Agronomy and Soil Science

Volumn 61, Issue 5, 2015, Pages 679-694

  Valipour, Mohammad ^a  

^a ISLAMIC AZAD UNIVERSITY   (Iran)

Author keywords

evapotranspiration; FAO Penman Monteith; Iran; radiation; solar radiation

Indexed keywords

EID: 84922236942     PISSN: 03650340     EISSN: 14763567     Source Type: Journal    
DOI: 10.1080/03650340.2014.941823     Document Type: Article

References (72)

1. Abtew W. 1996. Evapotranspiration measurements and modeling for three wetland systems in South Florida. J Am Water Resour Assoc. 32:465–473. doi:10.1111/j.1752-1688.1996.tb04044.x
2. Alexandris S, Kerkides P. 2003. New empirical formula for hourly estimations of reference evapotranspiration. Agric Water Manag. 60:157–180. doi:10.1016/S0378-3774(02)00172-5
3. Alexandris S, Kerkides P, Liakatas A. 2006. Daily reference evapotranspiration estimates by the “Copais” approach. Agric Water Manag. 82:371–386. doi:10.1016/j.agwat.2005.08.001
4. Allen RG, Pereira LS, Raes D, Smith M. 1998. Crop evapotranspiration: guidelines for computing crop water requirements. FAO Irrigation and Drainage. Paper no. 56. Rome: Food and Agriculture Organization of the United Nations.
5. Banihabib ME, Valipour M, Behbahani SMR. 2012. Comparison of autoregressive static and artificial dynamic neural network for the forecasting of monthly inflow of Dez reservoir. J Environ Sci Technol. 13:1–14. Available from: http://jest.srbiau.ac.ir/?_action=articleInfo&article=84
6. Berengena J, Gavilán P. 2005. Reference evapotranspiration estimation in a highly advective semiarid environment. J Irrig Drain Eng. 131:147–163. doi:10.1061/(ASCE)0733-9437(2005)131:2(147)
7. Caprio JM. 1974. The solar thermal unit concept in problems related to plant development and potential evapotranspiration. In: Lieth H, editor. Phenology and seasonality methoding, ecological studies. Vol. 8. New York (NY): Springer; p. 353–364.
8. Castaneda L, Rao P. 2005. Comparison of methods for estimating reference evapotranspiration in Southern California. J Environ Hydrol. 13:1–10.
9. Christiansen JE. 1968. Pan evaporation and evapotranspiration from climatic data. J Irrig Drain Div. 94:243–265.
10. de Bruin HAR, Stricker JNM. 2000. Evaporation of grass under non-restricted soil moisture conditions. Hydrological Sci J. 45:391–406. doi:10.1080/02626660009492337
11. Doorenbos J, Pruitt W. 1977. Crop water requirements. Irrigation and Drainage Paper 24 Rome: Food and Agriculture Organization of the United Nations; p. 144.
12. Fooladmand HR. 2008. Evaluation of five methods for monthly evapotranspiration calculation in Shiraz region. J Agr Sci. 13:371–379.
13. Fooladmand HR. 2011. Evaluation of some equations for estimating evapotranspiration in the south of Iran. Arch Agron Soil Sci. 57:741–752. doi:10.1080/03650340.2010.483593
14. Hansen S. 1984. Estimation of potential and actual evapotranspiration. Nord Hydrol. 15:205–212.
15. Hargreaves GH, Allen RG. 2003. History and evaluation of Hargreaves evapotranspiration equation. J Irrig Drain Eng. 129:53–63. doi:10.1061/(ASCE)0733-9437(2003)129:1(53)
16. Irmak S, Irmak A, Allen RG, Jones JW. 2003. Solar and net radiation-based equations to estimate reference evapotranspiration in humid climates. J Irrig Drain Eng. 129:336–347. doi:10.1061/(ASCE)0733-9437(2003)129:5(336)
17. Jensen ME. 1966. Empirical methods of estimating or predicting evapotranspiration using radiation. In: Evapotranspiration and its role in water resources management. St. Joseph (MI): American Society of Agricultural Engineers; p. 49–53, 64.
18. Jensen ME, Haise HR. 1963. Estimation of evapotranspiration from solar radiation. J Irrig Drain Div. 89:15–41.
19. Jones JW, Ritchie JT. 1990. Crop growth methods: management of farm irrigation systems. In: Hoffman GJ, Howel TA, Solomon KH, editors. ASAE Monograph No. 9. St. Joseph (MI): ASAE; p. 63–89.
20. Makkink GF. 1957. Testing the Penman formula by means of lysimeters. J Institu Water Eng. 11:277–288.
21. McGuinness JL, Bordne EF. 1972. A comparison of lysimeter-derived potential evapotranspiration with computed values. Technical bulletin 1452. Washington (DC): Agricultural Research Service, US Department of Agriculture.
22. Priestley CHB, Taylor RJ. 1972. On the assessment of surface heat flux and evaporation using large-scale parameters. Monthly Weather Rev. 100:81–92. doi:10.1175/1520-0493(1972)100<0081:OTAOSH>2.3.CO;2
23. Rahimi S, Gholami Sefidkouhi MA, Raeini-Sarjaz M, Valipour M. 2014. Estimation of actual evapotranspiration by using MODIS images (a case study: Tajan catchment). Arch Agron Soil Sci. doi:10.1080/03650340.2014.944904
24. Samani ZA, Pessarakli M. 1986. Estimating potential crop evapotranspiration with minimum data in Arizona. Trans ASAE. 29:522–524. doi:10.13031/2013.30184
25. Stephens JC. 1965. Discussion of “estimating evaporation from insolation”. J Hydraul Div. 91:171–182.
26. Turc L. 1961. Estimation of irrigation water requirements, potential evapotranspiration: a simple climatic formula evolved up to date. Ann Agron. 12:13–49.
27. Valipour M. 2012a. Critical areas of Iran for agriculture water management according to the annual rainfall. Eur J Sci Res. 84:600–608.
28. Valipour M. 2012b. Comparison of surface irrigation simulation models: full hydrodynamic, zero inertia, kinematic wave. J Agr Sci. 4:68–74.
29. Valipour M. 2012c. Determining possible optimal values of required flow, nozzle diameter, and wetted area for linear traveling laterals. Int J Eng Sci. 1:37–43. Available from: http://www.theijes.com/papers/v1-i1/H011037043.pdf
30. Valipour M. 2012d. Hydro-module determination for Vanaei Village in Eslam Abad Gharb, Iran. ARPN J Agr Biol Sci. 7:968–976.
31. Valipour M. 2012e. Number of required observation data for rainfall forecasting according to the climate conditions. Am J Sci Res. 74:79–86.
32. Valipour M. 2012f. Scrutiny of pressure loss, friction slope, inflow velocity, velocity head, and Reynolds number in center pivot. Int J Adv Sci Technol Res. 2:703–711.
33. Valipour M. 2012g. Ability of box-Jenkins models to estimate of reference potential evapotranspiration (A case study: Mehrabad Synoptic Station, Tehran, Iran). IOSR J Agric Vet Sci. 1:1–11. doi:10.9790/2380-0150111
34. Valipour M. 2012h. Effect of drainage parameters change on amount of drain discharge in subsurface drainage systems. IOSR J Agric Vet Sci. 1:10–18. doi:10.9790/2380-0141018
35. Valipour M. 2012i. A comparison between horizontal and vertical drainage systems (include pipe drainage, open ditch drainage, and pumped wells) in anisotropic soils. IOSR J Mech Civil Eng. 4:07–12. doi:10.9790/1684-0410712
36. Valipour M. 2013a. Necessity of irrigated and rainfed agriculture in the world. Irrig Drain Sys Eng. S9:e001. Available from: http://omicsgroup.org/journals/necessity-of-irrigated-and-rainfed-agriculture-in-the-world-2168-9768.S9-e001.php?aid=12800
37. Valipour M. 2013b. Evolution of irrigation-equipped areas as share of cultivated areas. Irrig Drain Sys Eng. 2:e114. doi:10.4172/2168-9768.1000e114
38. Valipour M. 2013c. Need to update of irrigation and water resources information according to the progresses of agricultural knowledge. Agrotechnology. S10:e001. doi:10.4172/2168-9881.S10-e001
39. Valipour M. 2013d. Increasing irrigation efficiency by management strategies: cutback and surge irrigation. ARPN J Agri Biol Sci. 8:35–43.
40. Valipour M. 2013e. Use of surface water supply index to assessing of water resources management in Colorado and Oregon, US. Adv Agr Sci Eng Res. 3:631–640.
41. Valipour M. 2013f. Estimation of surface water supply index using snow water equivalent. Adv Agr Sci Eng Res. 3:587–602.
42. Valipour M. 2013g. Scrutiny of inflow to the drains applicable for improvement of soil environmental conditions. In: The 1st International Conference on Environmental Crises and Its Solutions, Kish Island [cited 2013 Feb 13]. Available from: http://www.civilica.com/EnPaper-ICECS01-ICECS01_048.html
43. Valipour M. 2013h. Comparison of different drainage systems usable for solution of environmental crises in soil. In: The 1st International Conference on Environmental Crises and Its Solutions, Kish Island [cited 2013 Feb 13]. Available from: http://www.civilica.com/EnPaper-ICECS01-ICECS01_047.html
44. Valipour M. 2014a. Importance of solar radiation, temperature, relative humidity, and wind speed for calculation of reference evapotranspiration. Arch Agron Soil Sci. doi:10.1080/03650340.2014.925107
45. Valipour M. 2014b. Drainage, waterlogging, salinity. Arch Agron Soil Sci. doi:10.1080/03650340.2014.905676
46. Valipour M. 2014c. Future of the area equipped for irrigation. Arch Agron Soil Sci. doi:10.1080/03650340.2014.905675
47. Valipour M. 2014d. Temperature analysis of reference evapotranspiration models. Meteorol Appl. doi:10.1002/met.1465
48. Valipour M. 2014e. Application of new mass transfer formulae for computation of evapotranspiration. J Appl Water Eng Res. 2:33–46. doi:10.1080/23249676.2014.923790
49. Valipour M. 2014f. Land use policy and agricultural water management of the previous half of century in Africa. Appl Water Sci. doi:10.1007/s13201-014-0199-1
50. Valipour M. 2014g. Future of agricultural water management in Americas. J Agr Res. 54:245–268.
51. Valipour M. 2014h. Handbook of water engineering problems. Foster City (CA): OMICS Group eBooks. Available from: http://www.esciencecentral.org/ebooks/handbook-of-water-engineering-problems/pdf/handbook-of-water-engineering-problems.pdf
52. Valipour M. 2014i. Future of agricultural water management in Europe based on socioeconomic indices. Acta Adv Agr Sci. 2:1–18.
53. Valipour M. 2014j. Use of average data of 181 synoptic stations for estimation of reference crop evapotranspiration by temperature-based methods. Water Resour Manage. doi:10.1007/s11269-014-0741-9
54. Valipour M. Forthcoming 2014k. Pressure on renewable water resources by irrigation to 2060. Acta Adv Agr Sci.
55. Valipour M. Forthcoming 2014l. Comparison of mass transfer-based models to predict reference crop evapotranspiration. Meteorol Appl.
56. Valipour M. Forthcoming 2014m. Analysis of potential evapotranspiration using limited weather data. Appl Water Sci.
57. Valipour M. 2014n. Handbook of hydrologic engineering problems. Foster City (CA): OMICS Group eBooks. Available from: http://www.esciencecentral.org/ebooks/handbook-of-hydrologic-engineering-problems/pdf/handbook-of-hydrologic-engineering-problems.pdf
58. Valipour M. Forthcoming 2014o. Comparative evaluation of radiation-based methods for estimation of reference evapotranspiration. J Hydrol Eng.
59. Valipour M. 2014p. Handbook of irrigation engineering problems. Foster City (CA): OMICS Group eBooks. Available from: http://www.esciencecentral.org/ebooks/handbook-of-irrigation-engineering-problems/pdf/handbook-of-irrigation-engineering-problems.pdf
60. Valipour M. 2014q. Handbook of hydraulic engineering problems. Foster City (CA): OMICS Group eBooks. Available from: http://www.esciencecentral.org/ebooks/handbook-of-hydraulic-engineering-problems/pdf/handbook-of-hydraulic-engineering-problems.pdf
61. Valipour M, Banihabib ME, Behbahani SMR. 2012a. Parameters estimate of autoregressive moving average and autoregressive integrated moving average models and compare their ability for inflow forecasting. J Math Stat. 8:330–338. doi:10.3844/jmssp.2012.330.338
62. Valipour M, Banihabib ME, Behbahani SMR. 2012b. Monthly inflow forecasting using autoregressive artificial neural network. J Appl Sci. 12:2139–2147. doi:10.3923/jas.2012.2139.2147
63. Valipour M, Banihabib ME, Behbahani SMR. 2013a. Comparison of the ARMA, ARIMA, and the autoregressive artificial neural network models in forecasting the monthly inflow of Dez dam reservoir. J Hydrol. 476:433–441. doi:10.1016/j.jhydrol.2012.11.017
64. Valipour M, Montazar AA. 2012a. Optimize of all effective infiltration parameters in furrow irrigation using visual basic and genetic algorithm programming. Aust J Basic Appl Sci. 6:132–137.
65. Valipour M, Montazar AA. 2012b. Sensitive analysis of optimized infiltration parameters in SWDC model. Adv Environ Biol. 6:2574–2581.
66. Valipour M, Montazar AA. 2012c. An evaluation of SWDC and winsrfr models to optimize of infiltration parameters in furrow irrigation. Am J Sci Res. 69:128–142.
67. Valipour M, Mousavi SM, Valipour R, Rezaei E. 2012c. Air, water, and soil pollution study in industrial units using environmental flow diagram. J Basic Appl Sci Res. 2:12365–12372.
68. Valipour M, Mousavi SM, Valipour R, Rezaei E. 2012d. SHCP: soil heat calculator program. IOSR J Appl Phys. 2:44–50. doi:10.9790/4861-0234450
69. Valipour M, Mousavi SM, Valipour R, Rezaei E. 2013b. A new approach for environmental crises and its solutions by computer modeling. In: The 1st International Conference on Environmental Crises and Its Solutions, Kish Island [cited 2013 Feb 13]. Available from: http://www.civilica.com/EnPaper--ICECS01_005.html
70. Valipour M, Mousavi SM, Valipour R, Rezaei E. 2013c. Deal with environmental challenges in civil and energy engineering projects using a new technology. J Civil Environ Eng. 3:127. doi:10.4172/2165-784X.1000127
71. Valipour M, Ziatabar Ahmadi M, Raeini-Sarjaz M, Gholami Sefidkouhi MA, Shahnazari A, Fazlola R, Darzi-Naftchali A. 2014. Agricultural water management in the world during past half century. Arch Agron Soil Sci. doi:10.1080/03650340.2014.944903
72. Xu CY, Singh VP. 2000. Evaluation and generalization of radiation-based methods for calculating evaporation. Hydrol Process. 14:339–349. doi:10.1002/(SICI)1099-1085(20000215)14:2<339::AID-HYP928>3.0.CO;2-O