DOI: 10.18488/journal.68.2020.71.31.39 
Awotedu, B.F. , Awotedu, O. L. , Ogunbamowo, P. O. , Chukwudebe E. P. , Ariwoola, O. S.
[1] O. T. Adepoju, "Proximate composition and micronutrient potentials of three locally available wild fruits in Nigeria," African Journal of Agricultural Research, vol. 4, pp. 887-892, 2009.
[2] P. Moreno and V. Salvado, "Determination of eight water-and fat-soluble vitamins in multi-vitamin pharmaceutical formulations by high-performance liquid chromatography," Journal of Chromatography A, vol. 870, pp. 207-215, 2000. Available at: https://doi.org/10.1016/s0021-9673(99)01021-3.
[3] J. G. LeBlanc, C. Milani, G. S. De Giori, F. Sesma, D. Van Sinderen, and M. Ventura, "Bacteria as vitamin suppliers to their host: A gut microbiota perspective," Current Opinion in Biotechnology, vol. 24, pp. 160-168, 2013. Available at: https://doi.org/10.1016/j.copbio.2012.08.005.
[4] B. Klejdus, J. Petrlová, D. Potěšil, V. Adam, R. Mikelová, J. Vacek, R. Kizek, and V. Kubáň, "Simultaneous determination of water-and fat-soluble vitamins in pharmaceutical preparations by high-performance liquid chromatography coupled with diode array detection," Analytica Chimica Acta, vol. 520, pp. 57-67, 2004. Available at: https://doi.org/10.1016/j.aca.2004.02.027.
[5] H.-D. Belitz, W. Grosch, and P. Schieberle, "Cereals and cereal products, Food Chemistry," 4th ed Berlin, Heidelberg, Germany: Springer-Verlag, 2009, pp. 670-745.
[6] S. S. Arogba, A. A. Ajiboro, and I. J. Odukwe, "A physico-chemical study of nigerian velvet tamarind (Dialium guineense L) fruit," Journal of the Science of Food and Agriculture, vol. 66, pp. 533-534, 2006.
[7] M. Nwosu, "Plant resources used by traditional women as herbal medicines and cosmetics in Southeast-Nigeria," Ärzt Naturh, vol. 41, pp. 760-767, 2000.
[8] A. A. David, A. T. Olaniyi, A. O. Mayowa, A. A. Olayinka, and O. I. Anthony, "Anti-Vibrio and preliminary phytochemical characteristics of crude methanolic extracts of the leaves of Dialium guineense (Wild)," Journal of Medicinal Plants Research, vol. 5, pp. 2398-2404, 2011.
[9] M. Balogun, J. Oji, E. Besong, and G. Umahi, "Evaluation of the anti-ulcer properties of aqueous leaf extract of Dialium guineense (VELVET TAMARIND) on experimentally induced ulcer models in rats," International Journal of Development Research, vol. 3, pp. 106-110, 2013.
[10] J. Bero, H. Ganfon, M.-C. Jonville, M. Frédérich, F. Gbaguidi, P. DeMol, M. Moudachirou, and J. Quetin-Leclercq, "In vitro antiplasmodial activity of plants used in Benin in traditional medicine to treat malaria," Journal of Ethnopharmacology, vol. 122, pp. 439-444, 2009. Available at: https://doi.org/10.1016/j.jep.2009.02.004.
[11] E. B. K. Ewedje and A. Tandjiekpon, Dialium guineense, velvet tamarind. Conservation and sustainable use of genetic resources of priority food tree species in Sub-Saharan Africa. Rome. Italy: Bioversity International, 2011.
[12] G. Effiong, T. Ibia, and U. Udofia, "Nutritive and energy values of some wild fruit spices in Southeastern Nigerian," Electronic Journal of Environmental, Agricultural & Food Chemistry, vol. 8, pp. 917 -923, 2009.
[13] L. Adamec, "Leaf absorption of mineral nutrients in carnivorous plants stimulates root nutrient uptake," New Phytologist, vol. 155, pp. 89-100, 2002. Available at: https://doi.org/10.1046/j.1469-8137.2002.00441.x.
[14] G. Effiong and I. Udo, "Nutritive values of four indigenous wild fruits in Southeastern Nigeria," Electronic Journal of Environmental, Agricultural & Food Chemistry, vol. 9, pp. 1168 -1176, 2010.
[15] C. Devendra, "Forage supplements, nutritional significance and utilization for drought, meat and milk production in buffaloes," in Proceeding of the 2nd World Buffalo Congress, December 12-17, 1988, New Delhi, India, 1988, pp. 409-423.
[16] E. Okegbile, K. Aina, A. Soboyejo, and S. Akapo, "Studies on lipid content and fatty acid composition of Dialium guineense wild (velvet tamarind) seed," Biosci Res Commun, vol. 3, pp. 103-109, 1991.
[17] C. Achikanu, P. Eze-Steven, C. Ude, and O. Ugwuokolie, "Determination of the vitamin and mineral composition of common leafy vegetables in South Eastern Nigeria," International Journal of Current Microbiology and Applied Sciences, vol. 2, pp. 347-353, 2013.
[18] AOAC, Minerals: In official methods of analysis vol. 16. Washington, DC: Association of Official Analytical Chemists, 2010.
[19] M. Nakos, "Quantitative determination of vitamin B12 in plants," Doctoral Dissertation, Hannover: Gottfried Wilhelm Leibniz Universität Hannover, 2016.
[20] K. Button, "Prescription for nutritional healing," Penguin Putnam, vol. 4, pp. 478-479, 2004.
[21] C. Guyton and J. E. Hall, Textbook of medical physiology vol. 11. Philadelphia, India: Elseveir Publisher, 2006.
[22] WHO, Guidelines for the assessment of herbal medicines. Geneva: World Health Organization, 1991.
[23] C. H. Lukaski, Vitamin and mineral status: Effects on physical performance, 10th ed. Grand Forks, North Dakota, USA: Nutrition Research Center, 2004.
[24] J. Ocheja, B. Lablabe, H. Oguche, and G. Usman, "Vitamin composition and fibre fractions of cashew nut shell: Implication for animal nutrition," Pakistan Journal of Nutrition, vol. 14, pp. 252-4, 2015. Available at: https://doi.org/10.3923/pjn.2015.252.254.
[25] O. Ogbonna, A. Izundu, N. Okoye, and A. Ikeyi, "Vitamin compositions of three Musa species at three stages of development," Journal of Environmental Science, Toxicology and Food Technology, vol. 10, pp. 1-7, 2016.
[26] P. C. Anuforo, N. K. Achi, A. C. C. Egbuonu, and E. U. Egu, "Proximate analysis and determination of some selected vitamins and minerals contents of Terminalia Catappa endocarp flour," Journal of Nutritional Health and Food Sciences, vol. 5, pp. 1-4, 2017. Available at: http://dx.doi.org/10.15226/jnhfs.2017.001109 .
[27] N. K. Achi, C. Onyeabo, C. A. Ekeleme-Egedigwe, and J. C. Onyeanula, "Phytochemical, proximate analysis, vitamin and mineral composition of aqueous extract of Ficus capensis leaves in South Eastern Nigeria," Journal of Applied Pharmaceutical Science, vol. 7, pp. 117-122, 2017.
[28] H. N. Ogungbenle, "Analytical and nutritional evaluation of velvet tamarind (Dialium guineense) Pulps," American Chemical Science Journal, vol. 6, pp. 69-76, 2015.
[29] C. Offor and S. Igwe, "Comparative analysis of the vitamins composition of two different species of Garden Egg (Solanum aethiopicum and Solanum macrocarpum," World Journal of Medical Sciences, vol. 12, pp. 274-276, 2015.
[30] M. Duru, C. Amadi, A. Ugbogu, A. Eze, and B. Amadi, "Phytochemical, vitamin and proximate composition of Dacryodes edulis fruit at different stages of maturation," Asian Journal of Plant Science and Research, vol. 2, pp. 437-441, 2012.
[31] I. T. Chabite, I. F. Maluleque, V. J. Cossa, I. J. Presse, I. Mazuze, R. A. Abdula, and F. Joaquim, "Morphological characterization, nutritional and biochemical properties of baobab (Adansonia digitata L.) fruit pulp from two districts of Mozambique," EC Nutrition, vol. 14, pp. 158-164, 2019.
[32] F. Asoiro, S. Ezeoha, G. Ezenne, and C. Ugwu, "Chemical and mechanical properties of velvet tamarind fruit (Dialium guineense)," Nigerian Journal of Technology, vol. 36, pp. 252-260, 2017.
[33] S. Gnansounou, J. Noudogbessi, B. Yehouenou, A. Gbaguidi, L. Dovonon, M. Aina, H. Ahissou, and D. Sohounhloue, "Proximate composition and micronutrient potentials of Dialium guineense wild growing in Benin," International Food Research Journal, vol. 21, pp. 1603-1607, 2014.
[34] J. O. Jacob, A. Mann, O. I. Adeshina, and M. M. Ndamitso, "Nutritional composition of selected wild fruits from minna area of Niger State, Nigeria," International Journal of Nutrition and Food Engineering, vol. 10, pp. 37-42, 2016.
DOI: 10.18488/journal.68.2020.71.23.30
Anissa Gara , Saber Trabelsi , Jamel Kailene , Najeh Dali
DOI: 10.18488/journal.68.2020.71.15.22
Muhammad Hafeez , Zia Ahmad Chatha , Alamgir Akhtar Khan , Allah Bakhsh , Abdul Basit , Fatima Tahira
[1] N. D. Mueller, J. S. Gerber, M. Johnston, D. K. Ray, N. Ramankutty, and J. A. Foley, "Closing yield gaps through nutrient and water management," Nature, vol. 490, pp. 254-257, 2013. Available at: https://doi.org/10.1038/nature11907.
[2] L. Feng, T. Li, and W. Yu, "Cause of severe droughts in Southwest China during 1951–2010," Climate Dynamics, vol. 43, pp. 2033-2042, 2014. Available at: https://doi.org/10.1007/s00382-013-2026-z.
[3] P. Martí, P. González-Altozano, R. López-Urrea, L. A. Mancha, and J. Shiri, "Modeling reference evapotranspiration with calculated targets. Assessment and implications," Agricultural Water Management, vol. 149, pp. 81-90, 2015. Available at: https://doi.org/10.1016/j.agwat.2014.10.028.
[4] M. Hafeez and A. A. Khan, "Assessment of Hargreaves and Blaney-Criddle methods to estimate reference evapotranspiration under coastal conditions," American Journal of Science, Engineering and Technology, vol. 3, pp. 65-72, 2018.
[5] Z. A. Chatha, M. Arshad, A. Bakhah, and A. Shakoor, "Statistical analysis for lining the watercourses," Journal of Agricultural Research, vol. 53, pp. 109-118, 2015.
[6] Q. Javed, M. Arshad, A. Bakhsh, A. Shakoor, Z. A. Chatha, and I. Ahmad, "Redesigning of drip irrigation system using locally manufactured material to control pipe losses for Orchard," Land and Water, vol. 13, pp. 1-4, 2014.
[7] R. Awal, H. Habibi, A. Fares, and S. Deb, "Estimating reference crop evapotranspiration under limited climate data in West Texas," Journal of Hydrology: Regional Studies, vol. 28, p. 100677, 2020. Available at: https://doi.org/10.1016/j.ejrh.2020.100677.
[8] R. G. Allen, L. S. Pereira, D. Raes, and M. Smith, "Crop evapotranspiration-Guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56," Fao, Rome, vol. 300, p. D05109, 1998.
[9] I. A. Walter, R. G. Allen, R. Elliott, M. Jensen, D. Itenfisu, B. Mecham, T. Howell, R. Snyder, P. Brown, and S. Echings, "ASCE's standardized reference evapotranspiration equation," ed: Watershed Management and Operations Management, 2000, pp. 1-11.
[10] D. J. Howes, P. Fox, and P. H. Hutton, "Evapotranspiration from natural vegetation in the Central Valley of California: Monthly grass reference-based vegetation coefficients and the dual crop coefficient approach," Journal of Hydrologic Engineering, vol. 20, p. 04015004, 2015. Available at: https://doi.org/10.1061/(asce)he.1943-5584.0001162.
[11] B. C. Gurski, D. Jerszurki, and J. L. M. d. Souza, "Alternative reference evapotranspiration methods for the main climate types of the state of Paraná, Brazil," Brazilian Agricultural Research, vol. 53, pp. 1003-1010, 2018. Available at: https://doi.org/10.1590/s0100-204x2018000900003.
[12] U. Akumaga, A. Tarhule, and A. A. Yusuf, "Validation and testing of the FAO AquaCrop model under different levels of nitrogen fertilizer on rainfed maize in Nigeria, West Africa," Agricultural and Forest Meteorology, vol. 232, pp. 225-234, 2017. Available at: https://doi.org/10.1016/j.agrformet.2016.08.011.
[13] C. De Fraiture and D. Wichelns, "Satisfying future water demands for agriculture," Agricultural Water Management, vol. 97, pp. 502-511, 2010. Available at: https://doi.org/10.1016/j.agwat.2009.08.008.
[14] M. Gundalia and M. Dholakia, "Modelling daily reference evapotranspiration in middle South Saurashtra Region of India for Monsoon season using dominant meteorological variables and the FAO-56 Penman-Monteith method," International Journal of Sustainable Water and Environmental Systems, vol. 8, pp. 101-108, 2016.
[15] B. Hanson, S. Orloff, and D. Peters, "Monitoring soil moisture helps refine irrigation management," California Agriculture, vol. 54, pp. 38-42, 2000. Available at: https://doi.org/10.3733/ca.v054n03p38.
[16] A. Majeed, S. Mehmood, K. Sarwar, G. Nabi, and M. A. Kharal, "Assessment of reference evapotranspiration by the hargreaves Method in Southern Punjab Pakistan," European Journal of Advances in Engineering and Technology, vol. 4, pp. 64-70, 2017.
[17] G. Naadimuthu, K. Raju, and E. Lee, "A heuristic dynamic optimization algorithm for irrigation scheduling," Mathematical and Computer Modelling, vol. 30, pp. 169-183, 1999. Available at: https://doi.org/10.1016/s0895-7177(99)00172-7.
[18] H. Blaney and W. Criddle, "Determining water requirements in irrigated areas from climatological and irrigation data," 3, pp. 8-9, 1950.
[19] C. H. B. Priestley and R. Taylor, "On the assessment of surface heat flux and evaporation using large-scale parameters," Monthly Weather Review, vol. 100, pp. 81-92, 1972. Available at: https://doi.org/10.1175/1520-0493(1972)100<0081:otaosh>2.3.co;2.
[20] G. H. Hargreaves and Z. A. Samani, "Reference crop evapotranspiration from temperature," Applied Engineering in Agriculture, vol. 1, pp. 96-99, 1985. Available at: https://doi.org/10.13031/2013.26773.
[21] P. Gavilán, I. Lorite, S. Tornero, and J. Berengena, "Regional calibration of Hargreaves equation for estimating reference ET in a semiarid environment," Agricultural Water Management, vol. 81, pp. 257-281, 2006. Available at: https://doi.org/10.1016/j.agwat.2005.05.001.
[22] R. Lopez-Urrea, F. M. De Santa Olalla, C. Fabeiro, and A. Moratalla, "An evaluation of two hourly reference evapotranspiration equations for semiarid conditions," Agricultural Water Management, vol. 86, pp. 277-282, 2006. Available at: https://doi.org/10.1016/j.agwat.2006.05.017.
[23] D. Althoff, R. A. D. Santos, H. C. Bazame, F. F. D. Cunha, and R. Filgueiras, "Improvement of hargreaves–samani reference evapotranspiration estimates with local calibration," Water, vol. 11, p. 2272, 2019. Available at: https://doi.org/10.3390/w11112272.
[24] A. Malik, A. Kumar, M. A. Ghorbani, M. H. Kashani, O. Kisi, and S. Kim, "The viability of co-active fuzzy inference system model for monthly reference evapotranspiration estimation: Case study of Uttarakhand State," Hydrology Research, vol. 50, pp. 1623-1644, 2019. Available at: https://doi.org/10.2166/nh.2019.059.
[25] G. H. Hargreaves and R. G. Allen, "History and evaluation of Hargreaves evapotranspiration equation," Journal of Irrigation and Drainage Engineering, vol. 129, pp. 53-63, 2003. Available at: https://doi.org/10.1061/(asce)0733-9437(2003)129:1(53.
[26] P. Droogers and R. G. Allen, "Estimating reference evapotranspiration under inaccurate data conditions," Irrigation and Drainage Systems, vol. 16, pp. 33-45, 2002.
[27] J. P. Rojas and R. E. Sheffield, "Evaluation of daily reference evapotranspiration methods as compared with the ASCE-EWRI Penman-Monteith equation using limited weather data in Northeast Louisiana," Journal of Irrigation and Drainage Engineering, vol. 139, pp. 285-292, 2013. Available at: https://doi.org/10.1061/(asce)ir.1943-4774.0000523.
[28] B. Ashraf, R. Yazdani, M. Mousavi-Baygi, and M. Bannayan, "Investigation of temporal and spatial climate variability and aridity of Iran," Theoretical and Applied Climatology, vol. 118, pp. 35-46, 2014. Available at: https://doi.org/10.1007/s00704-013-1040-8.
[29] H. Tabari, M. E. Grismer, and S. Trajkovic, "Comparative analysis of 31 reference evapotranspiration methods under humid conditions," Irrigation Science, vol. 31, pp. 107-117, 2013. Available at: https://doi.org/10.1007/s00271-011-0295-z.
[30] Y. Dinpashoh, "Study of reference crop evapotranspiration in IR of Iran," Agricultural Water Management, vol. 84, pp. 123-129, 2006. Available at: https://doi.org/10.1016/j.agwat.2006.02.011.
[31] H. Afzaal, A. A. Farooque, F. Abbas, B. Acharya, and T. Esau, "Computation of evapotranspiration with artificial intelligence for precision water resource management," Applied Sciences, vol. 10, pp. 1-16, 2020. Available at: https://doi.org/10.3390/app10051621.
[32] S. Trajkovic, M. Gocic, R. Pongracz, J. Bartholy, and M. Milanovic, "Assessment of reference evapotranspiration by regionally calibrated temperature-based equations," KSCE Journal of Civil Engineering, vol. 24, pp. 1020-1027, 2020. Available at: https://doi.org/10.1007/s12205-020-1698-2.
DOI: 10.18488/journal.68.2020.71.6.14
Muhammad Hafeez , Allah Bakhsh , Abdul Basit , Zia Ahmad Chattha , Alamgir Akhtar Khan , Muhammad Adnan Majeed , Fatima Tahira
[1] Z. A. Chatha, M. Arshad, A. Bakhah, and A. Shakoor, "Statistical analysis for lining the watercourses," Journal of Agricultural Research, vol. 53, pp. 109-118, 2015.
[2] M. Gocić, S. Motamedi, S. Shamshirband, D. Petković, Ch, S., R. Hashim, and M. Arif, "Soft computing approaches for forecasting reference evapotranspiration," Computers and Electronics in Agriculture, vol. 113, pp. 164-173, 2015.
[3] H. R. Fooladmand, "Comparing reference evapotranspiration using actual and estimated sunshine hours in south of Iran," African Journal of Agricultural Research, vol. 7, pp. 1164-1169, 2012.
[4] A. Berti, G. Tardivo, A. Chiaudani, F. Rech, and M. Borin, "Assessing reference evapotranspiration by the Hargreaves method in north-eastern Italy," Agricultural Water Management, vol. 140, pp. 20-25, 2014.
[5] O. Kisi, "Modeling solar radiation of Mediterranean region in Turkey by using fuzzy genetic approach," Energy, vol. 64, pp. 429-436, 2014.
[6] A. Majeed, S. Mehmood, K. Sarwar, G. Nabi, and M. A. Kharal, "Assessment of reference evapotranspiration by the hargreaves method in Southern Punjab Pakistan," European Journal of Advances in Engineering and Technology, vol. 4, pp. 64-70, 2017.
[7] C. Y. Xu and D. Chen, "Comparison of seven models for estimation of evapotranspiration and groundwater recharge using lysimeter measurement data in Germany," Hydrological Processes: An International Journal, vol. 19, pp. 3717-3734, 2005. Available at: https://doi.org/10.1002/hyp.5853.
[8] M. Valipour, "Study of different climatic conditions to assess the role of solar radiation in reference crop evapotranspiration equations," Archives of Agronomy and Soil Science, vol. 61, pp. 679-694, 2015. Available at: https://doi.org/10.1080/03650340.2014.941823.
[9] A. H. Azhar and B. Perera, "Evaluation of reference evapotranspiration estimation methods under southeast Australian conditions," Journal of Irrigation and Drainage Engineering, vol. 137, pp. 268-279, 2011. Available at: https://doi.org/10.1061/(asce)ir.1943-4774.0000297.
[10] V. J. da Silva, H. d. P. Carvalho, C. R. da Silva, R. d. Camargo, and R. Teodoro, "Performance of different methods of estimating the daily reference evapotranspiration in Uberlandia, MG," Bioscience Journal, vol. 27, pp. 95-101, 2011.
[11] H. Tabari, M. E. Grismer, and S. Trajkovic, "Comparative analysis of 31 reference evapotranspiration methods under humid conditions," Irrigation Science, vol. 31, pp. 107-117, 2013. Available at: https://doi.org/10.1007/s00271-011-0295-z.
[12] K. C. DeJonge, M. Ahmadi, J. C. Ascough II, and K.-D. Kinzli, "Sensitivity analysis of reference evapotranspiration to sensor accuracy," Computers and Electronics in Agriculture, vol. 110, pp. 176-186, 2015. Available at: https://doi.org/10.1016/j.compag.2014.11.013.
[13] M. Hafeez and A. A. Khan, "Assessment of Hargreaves and Blaney-Criddle methods to estimate reference evapotranspiration under coastal conditions," American Journal of Science, Engineering and Technology, vol. 3, pp. 65-72, 2018.
[14] S. Mehdizadeh, H. Saadatnejadgharahassanlou, and J. Behmanesh, "Calibration of hargreaves–samani and priestley–taylor equations in estimating reference evapotranspiration in the Northwest of Iran," Archives of Agronomy and Soil Science, vol. 63, pp. 942-955, 2017. Available at: https://doi.org/10.1080/03650340.2016.1249474.
[15] R. Yoder, L. O. Odhiambo, and W. C. Wright, "Evaluation of methods for estimating daily reference crop evapotranspiration at a site in the humid southeast United States," Applied Engineering in Agriculture, vol. 21, pp. 197-202, 2005. Available at: https://doi.org/10.13031/2013.18153.
[16] T. McMahon, M. Peel, L. Lowe, R. Srikanthan, and T. McVicar, "Estimating actual, potential, reference crop and pan evaporation using standard meteorological data: A pragmatic synthesis," Hydrology and Earth System Sciences, vol. 17, pp. 1331-1363, 2013.
[17] D. Yates and K. Strzepek, "Comparison of models for climate change assessment of river basin runoff," 1994.
[18] S. Alexandris, R. Stricevic, and S. Petkovic, "Comparative analysis of reference evapotranspiration from the surface of rainfed grass in central Serbia, calculated by six empirical methods against the Penman-Monteith formula," European Water, vol. 21, pp. 17-28, 2008.
[19] N. N. A. Tukimat, S. Harun, and S. Shahid, "Comparison of different methods in estimating potential evapotranspiration at Muda Irrigation Scheme of Malaysia," Journal of Agriculture and Rural Development in the Tropics and Subtropics (JARTS), vol. 113, pp. 77-85, 2012.
[20] M. Tahashildar, P. K. Bora, L. I. Ray, and D. Thakuria, "Comparison of different reference evapotranspiration (ET^ sub 0^) models and determination of crop-coefficients of french bean (Phesiolus vulgaris.) in mid hill region of Meghalaya," Journal of Agrometeorology, vol. 19, pp. 233-237, 2017.
[21] S. Er-Raki, A. Chehbouni, S. Khabba, V. Simonneaux, L. Jarlan, A. Ouldbba, J. Rodriguez, and R. Allen, "Assessment of reference evapotranspiration methods in semi-arid regions: can weather forecast data be used as alternate of ground meteorological parameters?," Journal of Arid Environments, vol. 74, pp. 1587-1596, 2010. Available at: https://doi.org/10.1016/j.jaridenv.2010.07.002.
[22] B. Bois, P. Pieri, C. V. Leeuwen, and J. P. Gaudillere, "Sensitivity analysis of the penman-monteith evapotranspiration formula and comparison of empirical methods used in viticulture soil water balance," in In XIV International GESCO Viticulture Congress, Geisenheim, Germany, 23-27 August, 2005 Groupe d'Etude des Systemes de COnduite de la vigne (GESCO), 2005, pp. 187-193.
[23] K. Schneider, B. Ketzer, L. Breuer, K. Vaché, C. Bernhofer, and H.-G. Frede, "Evaluation of evapotranspiration methods for model validation in a semi-arid watershed in northern China," Advances in Geosciences, European Geosciences Union, vol. 11, pp. 37-42, 2007.
[24] A. Zarei, S. Zare, and A. Parsamehr, "Comparison of several methods to estimate reference evapotranspiration," West African Journal of Applied Ecology, vol. 23, pp. 17-25, 2015.
[25] L. Turc, "Estimation of irrigation water requirements, potential evapotranspiration: a simple climatic formula evolved up to date," Annales Agronomiques, vol. 12, pp. 13-49, 1961.
[26] H. Blaney and W. Criddle, "Determining water needs from climatological data," USDA Soil Conservation Service. SOS–TP, USA, vol. 3, pp. 8-9, 1950.
[27] D. A. Haith and L. L. Shoemaker, "Generalized watershed loading functions for stream flow nutrients," JAWRA Journal of the American Water Resources Association, vol. 23, pp. 471-478, 1987.
[28] C. W. Thornthwaite, "An approach toward a rational classification of climate," Geographical Review, vol. 38, pp. 55-94, 1948. Available at: https://doi.org/10.2307/210739.
[29] C. H. B. Priestley and R. Taylor, "On the assessment of surface heat flux and evaporation using large-scale parameters," Monthly Weather Review, vol. 100, pp. 81-92, 1972. Available at: https://doi.org/10.1175/1520-0493(1972)100<0081:otaosh>2.3.co;2.
[30] R. G. Allen, L. S. Pereira, D. Raes, and M. Smith, "Crop evapotranspiration-Guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56. ," Fao, Rome, vol. 300, p. D05109, 1998.
[31] T. P. Q. Le, C. Seidler, M. Kändler, and T. B. N. Tran, "Proposed methods for potential evapotranspiration calculation of the Red River basin (North Vietnam)," Hydrological Processes, vol. 26, pp. 2782-2790, 2012. Available at: https://doi.org/10.1002/hyp.8315.
[32] A. R. Niaghi, A. Majnooni-Heris, D. Z. Haghi, and G. Mahtabi, "Evaluate several potential evapotranspiration methods for regional use in Tabriz, Iran," Journal of Applied Environmental and Biological Sciences, vol. 3, pp. 31-41, 2013.
[33] F. Ravelli and P. Rota, Monthly frequency maps of reference evapotranspiration and crop water deficits in southern italy. Rome: Irrigation Experimentation Office of the Former Southern Italy Development Agency, 1999.
[34] S. Irmak, R. Allen, and E. Whitty, "Daily grass and alfalfa-reference evapotranspiration estimates and alfalfa-to-grass evapotranspiration ratios in Florida," Journal of Irrigation and Drainage Engineering, vol. 129, pp. 360-370, 2003. Available at: https://doi.org/10.1061/(asce)0733-9437(2003)129:5(360).
[35] M. Garcia, D. Raes, R. Allen, and C. Herbas, "Dynamics of reference evapotranspiration in the Bolivian highlands (Altiplano)," Agricultural and Forest Meteorology, vol. 125, pp. 67-82, 2004. Available at: https://doi.org/10.1016/j.agrformet.2004.03.005.
[36] H. L. Penman, "Vegetation and hydrology," Soil Science, vol. 96, pp. 362-366, 1963.
[37] K. Djaman, A. B. Balde, A. Sow, B. Muller, S. Irmak, M. K. N’Diaye, B. Manneh, Y. D. Moukoumbi, K. Futakuchi, and K. Saito, "Evaluation of sixteen reference evapotranspiration methods under sahelian conditions in the Senegal River Valley," Journal of Hydrology: Regional studies, vol. 3, pp. 139-159, 2015.
[38] A. R. Pereira and W. O. Pruitt, "Adaptation of the Thornthwaite scheme for estimating daily reference evapotranspiration," Agricultural Water Management, vol. 66, pp. 251-257, 2004. Available at: https://doi.org/10.1016/j.agwat.2003.11.003.
[39] S. Trajkovic, M. Gocic, R. Pongracz, J. Bartholy, and M. Milanovic, "Assessment of reference evapotranspiration by regionally calibrated temperature-based equations," KSCE Journal of Civil Engineering, vol. 24, pp. 1020-1027, 2020. Available at: https://doi.org/10.1007/s12205-020-1698-2.
[40] A. S. Hussein, "Grass ET estimates using Penman-type equations in Central Sudan," Journal of Irrigation and Drainage Engineering, vol. 125, pp. 324-329, 1999. Available at: https://doi.org/10.1061/(asce)0733-9437(1999)125:6(324).
[41] S. Trajkovic, M. Gocic, R. Pongracz, and J. Bartholy, "Adjustment of Thornthwaite equation for estimating evapotranspiration in Vojvodina," Theoretical and Applied Climatology, vol. 138, pp. 1231-1240, 2019. Available at: https://doi.org/10.1007/s00704-019-02873-1.
[42] D. Lang, J. Zheng, J. Shi, F. Liao, X. Ma, W. Wang, X. Chen, and M. Zhang, "A comparative study of potential evapotranspiration estimation by eight methods with FAO Penman–Monteith method in southwestern China," Water, vol. 9, pp. 1-18, 2017. Available at: https://doi.org/10.3390/w9100734.
[43] M. Lakatos, T. Weidinger, L. Hoffmann, Z. Bihari, and Á. Horváth, "Computation of daily Penman–Monteith reference evapotranspiration in the Carpathian Region and comparison with Thornthwaite estimates," Advances in Science and Research, vol. 16, pp. 251-259, 2020. Available at: https://doi.org/10.5194/asr-16-251-2020.
[44] H. Afzaal, A. A. Farooque, F. Abbas, B. Acharya, and T. Esau, "Computation of evapotranspiration with artificial intelligence for precision water resource management," Applied Sciences, vol. 10, pp. 1-15, 2020. Available at: https://doi.org/10.3390/app10051621.
[45] M. Gundalia and M. Dholakia, "Modelling daily reference evapotranspiration in middle South Saurashtra region of India for monsoon season using dominant meteorological variables and the FAO-56 Penman-Monteith method," Int. J. of Sustainable Water & Environmental Systems, vol. 8, pp. 101-108, 2016.
[46] M. E. Moeletsi, S. Walker, and H. Hamandawana, "Comparison of the hargreaves and samani equation and the Thornthwaite equation for estimating dekadal evapotranspiration in the Free State Province, South Africa," Physics and Chemistry of the Earth, Parts A/B/C, vol. 66, pp. 4-15, 2013. Available at: https://doi.org/10.1016/j.pce.2013.08.003.
DOI: 10.18488/journal.68.2020.71.1.5
Melle Tilahun Tagele , Tesfaye Jorgi
[1] I. Vavilovn, "The origin, variation, immunity and breeding of cultivated plants," Chron. Bot., vol. 13, pp. 1-366, 1951.
[2] K. Assefa, A. Merker, and H. Tefera, "Qualitative trait variation in tef [Eragrostis tef (Zucc.) Trotter] germplasm from western and southern Ethiopia," Euphytica, vol. 127, pp. 399-410, 2002.
[3] T. Ebba, "Tef (Eragrostis tef). The cultivation, usage and some of its known diseases and insect pests, Part I. Expt. Sta. Bull." vol. 60, ed Addias Ababa, Ethiopia: Haile Sellassie I University (Now Addis Ababa University) Pblshing House, 1969.
[4] S. Ketema, Tef (Eragrostis tef). breeding, agronomy, genetic resources, utilization and role in Ethiopian agriculture. Addis Ababa, Ethiopia: IAR, 1993.
[5] National Research Council, National science education standards. Washington, DC: The National Academies Press, 1996.
[6] Central Statistical Authority (CSA), "Agricultural sample survey 2010," Report on Area and Production for Major Crops (private peasant holdings, meher season). Statistical Bulletin 237, Addis Ababa, Ethiopia2010.
[7] T. Hailu and K. Seyfu, "Production and importance of tef in Ethiopia agriculture. In: Hailu Tefera, Getachew Belay and Mark Sorrels (Ends)," in Narrowing the Rift: Tef Research and Development-Proceedings of the International Tef Genetics and improvement, 16-19 October2000, Addis Ababa Ethiopia, 2000.
[8] M. Bänziger, E. G. O., D. Beck, and M. Bellon, Breeding for drought and nitrogen stress tolerance in maize: From theory to practice. Mexico: CIMMYT, 2000.
[9] S. Ayalew, "Participatory demonstration and evaluation of improved variety of tef in selected districts of west and kellem wollega zones," International Journal of Education, Culture and Society, vol. 2, pp. 143-146, 2017.
[10] E. Tadesse., Ethiopia commodity exchange authority 'Understanding Teff': A review of supply and marketing issues. Addis Ababa, Ethiopia, 2009.
