Document Type : Research Paper

Authors

1 1Assistant Professor, Research Institute of Forests and Rangelands, Agricultural Research, Education and extension Organization (AREEO), Tehran, Iran

2 Expert of Agricultural Research and Training Center and Kermanshah Province, Agricultural Research, Education and Extension Organization, Tehran, Iran

Abstract

Therefore, in order to evaluate the cultivability of forage cactus (Opuntia ficus indica L.) in the Naft shahr of Qesir shirin city, Kermanshah province has been considered. Different treatments without irrigation, 1, 15, 30 days, once irrigation in three repetitions for three years were performed based on a completely randomized block design. Cultivation of cactus plant in the first half of November and irrigation began on the first of June. The means of the results were compared using Duncan's multiple range test in SPSS software.The results of analysis of variance showed that the effect of irrigation cycle and the interaction effect of irrigation cycle at the time of measurement on the number of pads and plant height had a significant effect at the statistical level of 0.01. Survival of 75, 57, 43 and 38% of plants was obtained with 15-day irrigation cycle, 30-day treatment, one-time irrigation and no irrigation treatment, respectively. The results of this study show that planting cactus in areas with arid desert climate such as Qesir shirin and Somar in Kermanshah province is recommended due to its high adaptability. Dry forage production Cactus forage can be effective for livestock development in these and similar areas. Also, due to the role of cactus in soil conservation, it is possible to prevent the occurrence of dust, desertification, pasture destruction and soil erosion in the region by developing crops. Also,

Keywords

[1]Barbera, G., Inglese, P., and Pimienta-Barrios, E. (1995). Agroecology, Cultivation and Uses of Cactus Pear Eds.). FAO Plant Production and Protection Paper 132, Rome.
[2]Basile, F., and Foti, V.T. (1997). Economic features of cactus pear production in Italy. Acta Horticulturae. 438,139-150.
[3]Coskuner, Y., Turker, N., Ekiz, H.I., Aksay, S., and Karababa, E. (2000). Effect of pH and temperature on the thermostability of prickly pear (Opuntia ficus-indica) yellow-orange pigments. Nahrung 44(4), 261-263.
[4]Domingues, O. (1963). Origem e introducao da palma forrageira no nordeste. Instituto Joaquim Nabuco de Pesquisas Socias, Pernambuco, Brazil.
[5]Dos Santos, D.C., and de Albuquerque, S.G. (2001). Fodder use in the semi arid northeast of Brazil. p. 37–49. In C. Mondragon-Jacobo and S. Perez-Gonzalez (ed.) Cactus (Opuntia spp.) as forage. FAO plant production and protection paper 169, FAO, Rome, Italy.
[6]Felker, P., Soulier, C., Leguizamón, G., and Ochoa, J. (2002). A comparison of the fruit parameters of 12 Opuntia clones grown in Argentina and the United States. Journal of Arid Environments, 52(3), 361-370.
[7]Forni, E., Polesello, A., Montefiori, D., and Maestrelli, A. (1992). High-performance liquid chromatographic analysis of the pigments of blood-red prickly pear (Opuntia ficus indica). Journal of Chromatography 593, 177-183.
[8]Frank, N. (2000(. El cultivo tecnificado de la tuna. Simpo-sio Internacional Cultivo Frutales de Zonas ridas, San-tiago, Chile, April 27-28, 156-169
[9]Gagender, Y., Sing, G., Dagar, J. C., and Khajanchi, L. (2014). Performance of edible cactus (Opuntia ficus-indica) in saline environments. INDIAN J AGR SCI, 84(4),73-87.
[10]Galizzi, F., Felker, P., and Gardiner, G. )2004(. Correlations between soil and cladode nutrient concentrations and fruit yield and quality in Opuntia ficus indica in a traditional farm setting in Santiago del Estero, Argentina. J. Arid Environ. 59, 115–132.
[11]Gonzalez, C.L. (1989). Potential of fertilization to improve nutritive value of prickly pear cactus (Opuntia lindheimerii Engelm.). J. Arid Environ. 16, 87–94.
[12]Guevara, J.C., Colomer, J.H.S., Jua´rez, M.C., and Estevez. O.R. (2003). Opuntia ellisiana: Cold hardiness, above-ground biomass production and nutritional quality in the Mendoza plain, Argentina [Online]. Available at: www.jpacd.org; verified 28 June 2006. Journal Prof. Assn. Cactus Devel. 5, 55–64.
[13]Gregory, R.A., and Felker. P. (1992). Crude protein and phosphorus contents of 8 contrasting Opuntia forage clones. Journal of Arid Environments 22:323-331.148 J. PACD – 2003.
[14]Han, H., and Felker. P., (1997). Field validation of water use efficiency of a CAM plant Opuntia ellisiana in south Texas. J. Arid Environ. 36, 133–148.
[15]Joubert, E. (1993). Processing of the fruit of five prickly pear cultivars grown in South Africa. International Journal of Food Science Technology 28, 377-387.
[16]Kheyrodin H. (2013). Effects of vegetation on soil erosion in desert areas. The 3th National Conference on Wind Erosion and Dust Storms, Yazd University, IRAN.
[17]Kuti, J.O., and Galloway, C.M. (1994). Sugar composition and invertase activity in prickly pear fruit. Journal Food Science 59(2), 387-393.
[18]Lopez, J.J., Rodriguez-G, A., Perez-R, L., and Fuentes-R. J.M. (1996). A survey of forage uses of cactus in northern Mexico [Online]. Available at: www.jpacd.org; verified 28 June 2006. J. Prof. Assn. Cactus Devel. 1, 10–19.
[19]Elbana, M., El-Gamal, E. H., Mohamed, A., Fernando, A. L., Pari, L., Outzourhit, A., Elwakeel, M., El-Sheikh, E.A., and Rashad, M. (2020). Effect of irrigation scheduling on canopy cover development and crop-water management related parameters of O.ficus-indica under prolonged drought conditions. Scientific Journal of Agricultural Sciences 2 (2): 113-122.
[20]Masjedi, A. R., and Fathi Moghadam. M. (2009). A laboratory study of vegetation effects on preventing soil erosion in water catchments. Journal of Watershed Engineering and Management.
[21]Merin, U., Gagel, S., Popel, G., Bernstein, S., and Rosenthal. I. (1987). Thermal degradation kinetics of prickly pear fruit red pigment. Food Science 52, 485-486.
[22]Mondragon-Jacobo, C., and Perez-Gonzalez. S. (2001). Cactus (Opuntia spp) as forage. FAO Plant Production and Protection Paper 169. FAO, Rome, Italy.
[23]Monjauze, A., and LeHouerou. H.N. (1965). Le role des Opuntia dans l’economie agricole Nord Africaine. Extrait de Bulletin de l’Ecole Nationale Superieure d’Agriculture de Tunis.
[24]Nefzaoui, A., and Salem, H.B. (2001). Opuntia spp. A strategic fodder and efficient tool to combat desertification in the WANA region. p. 73–90 In C. Mondragon-Jacobo and S. Perez-Gonzalez (ed.) Cactus (Opuntia spp.) as forage. FAO plant production and protection paper 169, FAO, Rome, Italy.
[25]Nobel, P.S. (1991). Tansley Review no 32. Achievable productivities of CAM plants: Basis for high values compared with C3 and C4 plants. New Phytol. 119, 183–205.
[26]Nobel, P.S. (1994). Remarkable agaves and cacti. Oxford Univ. Press, New York
[27]Pourjavad, H., Rashki, A., Hosseinalizadeh, M. (2017). Assessing the influence of plant species on wind erosion in arid regions: (a case study of the Sebri region of Sabzevar, Iran). Desert Ecosystem Engineering Journal, 6(14), 21-32.
[28]Rearte, D. (1996). La integracion de la ganaderia Argentina. INTA-SAGPyA. Balcarce (Argentina), 31 pp.
[29]Redhead, J. (1990). Utilization of tropical foods: fruits and leaves. FAO Food and Nutrition Paper No: 47/7. Food and Agriculture Organization of the United Nations, Rome.
[30]Retamal, N., Durán, J. M., and Fernández. J. (1987). Seasonal variations of chemical composition in prickly pear (Opuntia ficus‐indica (L.) miller). Journal of the Science of Food and Agriculture, 38(4): 303-311.
[31]Rodriguez-Felix, A., and Cantwell, M. (1988). Developmental changes in the composition and quality of prickly pear cactus cladodes (nopalitos). Plant Foods Hum. Nutr. 38, 83–93.
[32]Snyman, H.A. (2004). Effect of Various Water Application Strategies on Root Development of Opuntia ficus-indica and O. robusta Under Greenhouse Growth Conditions. anuary 2004 Journal of the Professional Association for Cactus Development (6):34-61.
[33]Suter-Burri, K., Gromke, C., Leonard, K. C., and Graf, F. (2013). Spatial patterns of aeolian sediment deposition in vegetation canopies: Observations from wind tunnel experiments using colored sand. Aeolian Research, 8, 65-73. 71- Szarek, S. R., & Ting, I. P. (1975). Physiological responses to rainfall in Opuntia basilaris (Cactaceae). American Journal of Botany, 62(6), 602-609.
[34]Turker, N., Coşkuner, Y., Ekiz, H. I., Aksay, S., and Karababa, E. (2001). The effects of fermentation on the thermostability of the yellow-orange pigments extracted from cactus pear (Opuntia ficus-indica). European Food Research and Technology, 212(2), 213-216.
[35]Varley, A., Fonseca, M., Dos Santos, R., Abel da, J., Silva, S., Rodrigues, L., Santos, D. C., Cleiton, R., and Barbosa Brito, F. (2019). Morpho-physiology, yield, and water-use efficiency of Opuntia ficus-indica irrigated with saline water. Acta Scientiarum. Agronomy 41.