Recognition and challenges of water use management in peanut plant (review study)
Subject Areas : Farm water management with the aim of improving irrigation management indicators
1 - On-Farm Water Management Department, Soil and Water Research Institute, Agricultural Research Education and Extension Organization (AREEO), Karaj, Iran.
Keywords: Water management, Productivity, Harvest Index, Oil Seed,
Abstract :
Agriculture is the main and most important source of food supply in the world; therefore, it is an important role in creating a balance in the food, social and even political security of the countries of the world. One of the most effective solutions to deal with the water crisis and increase the quantity and quality of production in the agricultural sector is to pay serious attention to the productivity of agricultural water and improve it by applying wise and efficient methods and policies. Improving water productivity requires a smart management that identifies the tools and methods well and selects the best ones according to the conditions and provides the necessary efforts in their use. Irrigation management with the approach of appropriate use of water resources can help to increase the area under cultivation and optimal consumption as a type of water management in the field. In Iran, pulses are a significant role in providing energy to the people of the society, and it has been tried to increase the water use productivity in proportion to the production and self-sufficiency of the country. Determining and analyzing the indicators and capacities of water productivity can be a suitable solution for making the right policies for the production of peanut in order to achieve maximum profit, sustainable development, production and employment security and export and currency earning considering its high potential. But in the meantime, it is not possible to be satisfied only with the water use productivity in order to determine the consumption. The current research is about the relationship between the amount of water consumed and the yield of the crop, the effect of deficit irrigation on the yield and the effect of different irrigation methods and the water use productivity in peanut, the harvest index in the conditions of full irrigation and water stress as well as the importance of different irrigation managements in the time of water shortage in peanut is presented in a complete manner.
References:
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Abdzad Gohari, A. (2021b). Investigation of the effect of deficit irrigation and two irrigation methods on yield and yield components of two Peanut cultivars. Journal of Water Research in Agriculture (Soil and Water Science), 35(1), 61-73. [in Persian]
Abdzad Gohari, A. Babazadeh, H. Amiri, E. & Sedghi, H. (2017). Estimate of Peanut Production Function under Irrigated Conditions and Salinity. Polish Journal of Environmental Studies. 27 (4), 1503-1512. [in Persian]
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Abdzad Gohari, A. (2015). Reaction of peanut plant in different irrigation methods. International research conference in engineering, science and technology, Istanbul, 4 p.
Abdzad Gohari, A. (2021a). Investigations of yield, production function and water productivity of two Peanut cultivars under conditions deficit irrigation in different irrigation methods. Iranian Journal of Irrigation and Drainage, 3(16), 467-482. [in Persian]
Abdzad Gohari, A. (2021b). Investigation of the effect of deficit irrigation and two irrigation methods on yield and yield components of two Peanut cultivars. Journal of Water Research in Agriculture (Soil and Water Science), 35(1), 61-73. [in Persian]
Abdzad Gohari, A. Babazadeh, H. Amiri, E. & Sedghi, H. (2017). Estimate of Peanut Production Function under Irrigated Conditions and Salinity. Polish Journal of Environmental Studies. 27 (4), 1503-1512. [in Persian]
Abdzad Gohari, A. Babazadeh, H., Amiri, E. & Sedghi, H. (2018). Effect of salinity and irrigation on yield and water use efficiency of peanut varieties. Iranian Journal of Soil and Water Research, 49 (2), 329-340. [in Persian]
Abdzad gohari, A., & Amiri, A. (2010). Effect of nitrogen fertilizer and intermittent irrigation on peanut plant. The 11th Congress of Agricultural Sciences and Plant Breeding of Iran. 2391-2394. [in Persian]
Abdzad Gohari, A., & Amiri. E. (2011). ICID 21st International Congress on Irrigation and Drainage, 15-23 October 2011. Tehran, Iran.
Abdzad Gohari, A., Amiri, E., & Majd Salimi, K. (2011). Yield Evaluation and Water Use Efficiency in Peanut (Arachis hypogaea L.) Under Different Levels of Irrigation and Nitrogen Fertilizer. Journal of Water and Soil, 25 (5), 994-1004. [in Persian]
Abdzad Gohari, A., Tafteh, A., & Ebrahimipak, N.A. (2022). Investigation of Water Requirement System in Determining the Actual Amount of Irrigation Water of Peanut Plant Based on Inverse Solution of Yield Function under Water Stress Conditions. Iranian Journal of Irrigation and Drainage, 3 (16), 460-471. [in Persian]
Abdzad Gohari, A., Tafteh, A., Ebrahimipak, N.A. & Babazadeh, H. (2022). Estimation of Stress Coefficients, Plant Coefficients and Yield Response to Water in Peanut under Different Levels Irrigation. Iranian Journal of Soil and Water Research, 52 (11), 2763-2774. [in Persian]
Abou Kheira, A. (2009). Macromanagement of deficit-irrigated peanut with sprinkler irrigation. Agriculture Water Management, 96, 1409-1420.
Akhwan, K. Shiri, M. & Kazemi Azar, F. (2014). Effect of Trickle Irrigation Amount and Planting Arrangement on Corn. Journal of Water Research in Agriculture, 28(1), 97-105. [in Persian]
Ali, S., Xu, Y., Ahmad, I., Jia, Q., Ma, X., Ullah, H., & Jia, Z. (2018). Tillage and deficit irrigation strategies to improve winter wheat production through regulating root development under simulated rainfall conditions. Agriculture Water Management, 209, 44-54.
Amiri, E., Abdzad Gohari A. & Mianabadi, A. (2015). Evaluation of water schemes for peanut, using CSM-CROPGRO-Peanut model. Archives of Agronomy and Soil Science, 61(10). 1439-1453.
Aninbon, C., Jogloy, S., Vorasoot, N., Nuchadomrong, S., Holbrook, C.C., Kvien, C., & Patanothai, A., (2019). Effect of terminal drought on arginine content in peanut genotypes with difference in levels of drought resistance. International Journal Plant Production, 13 (2), 155–162.
Arunyanark, A., Jogloy, S., Akkasaeng, C., Vorasoot, N., Kesmala, T., Nageswara Rao, R.C., Wright, G.C. & Patanothai. A. (2008). Chlorophyll stability is an indicator of drought tolerance in peanut. Journal Agronomy Crop Science, 194, 113-125.
Arunyanark, A., Jogloy, S., Akkasaeng, C., Vorasoot, N., Nageswara Rao, R.C., Wright, G.C. & Patanothai, A. (2009). Association between aflatoxin contamination and drought tolerance traits in peanut. Field Crops Research, 114, 14-22.
Babazadeh, H., Abdzad Gohari, A., & Khonok, A. (2018). Effect of Different Amounts of Water and Nitrogen fertilizer on Peanut Yield and Its Components. Journal of Water Research in Agriculture, 31 (4), 571-584. [in Persian]
Bonari, E., annozzi, G.P.V.V Benvenuti, A. & Baldini, M. (1992). Modern aspects of sunflower cultivation technigues. Proc. 12th, Sunf, Pisa. Italy.
Boontang, S., Girdthai, T., Jogloy, S., Akkasaeng, C., Vorasoot, N., Patanothai, A. & Tantisuwichwong. N. (2010). Responses of released cultivars of peanut to terminal drought for traits related to drought tolerance. Asian Journal Plant Science, 9 (10), 423-431.
Boydak, E., Karaaslan, D., Hüseyin, H. & Türko. H. (2010).The effect of different nitrogen and irrigation levels on fatty acid composition of peanut oils. Turkish Journal of Field Crops. 15(1), 29-33.
Çakir, R., & Çebi, U. (2010). Yield, water use and yield response factor of flue-cured tobacco under different levels of water supply at various growth stages. Irrigation and Drainage. 59 (4), 453–464
Carvalhom, J., Vorasoot, N., Puppala, N., Muitia, A. & jogloy, S. (2017). Effects of terminal drought on growth, yield and yield components in Valencia peanut genotypes. SABRAO Journal of Breeding and Genetics. 49 (3), 270-279.
Chand, J.B., Hewa, G., Hassanli, A., & Myers, B. (2021). Deficit irrigation on tomato production in a greenhouse environment: a review. Journal Irrigation and Drainage. Engineer, 147 (2), 04020041.
Chi, B., Zhang, Y., Zhang, D., Zhang, X., Dai, J., & Dong, H. (2019). Wide-strip intercropping of cotton and peanut combined with strip rotation increases crop productivity and economic returns. Field Crops Research, 243, 107617
Ding, Z.L., Ali, E.F., Elmahdy, A.M., Ragab, K.E., & Ahmed, M.S. (2021). Modeling the combined impacts of deficit irrigation, rising temperature and compost application on wheat yield and water productivity. Agriculture Water Management, 244, 106626.
Ernest, G. Kamara, A., Nana, S., Olympio, A., James Y., Asibuo, J., Milton, Y., Kabbia, K., Keiwoma, Yila, M. & Conteh, A.R. (2017). Effect of Calcium and Phosphorus Fertilizer on Seed Yield and Nutritional Quality of Groundnut (Arachis hypogaea L.). International Journal of Agriculture and Forestry, 7(6): 129-133.
FAO .(2018). FAOSTAT. Available online: http://faostat.fao.org/site/567/default.aspx# ancor.
Geries, L.S.M., El-Shahawy, T.A. & Moursi, E.A. (2021). Cut-off irrigation as an effective tool to increase water-use efficiency, enhance productivity, quality and storability of some onion cultivars. Agriculture. Water Management, 244, 106589.
Girdthai, T., Jogloy, S., Vorasoot, N., Akkasaeng, C., Wongkaew, S., Holbrook, C.C., & Patanothai. A. (2010). Associations between physiological traits for drought tolerance and aflatoxin contamination in peanut genotypes under terminal drought. Plant Breed, 129, 693-699.
Haghighati, B. Broumandnasab, S. & Naseri, A.A. (2015). Effect of Different Deficit Irrigation Managements in Furrow and Tape Drip Methods on Potato Yield and Water Productivity. Journal of Water Research in Agriculture, 29(2), 181-193. [in Persian]
Hossain, M.M., Lam, H.M. & Zhang, J. (2015). Responses in gas exchange and water status between drought-tolerant and-susceptible soybean genotypes with ABA application. Crop Journal. 3 (6), 500–506.
Jamal Omid, M. Gholami, M. & Jamal Omedi, F. (2018). The use of seed storage protein markers in the separation of several peanut cultivars. Scientific Research Journal of Al-Zahra University. Applied Biology. 31(2), 42-51. [in Persian]
Jongrungklang, N., Toomsan, B. Vorasoot, N., Jogloy, Sو. Boote, K.J. Hoogenboom, G. & Patanothai, A. (2012). Classification of root distribution patterns and their contributions to yield in peanut genotypes under mid-season drought stress. Field Crops Research, 127, 181-190.
Junjittakarn, J., Girdthai, T., Jogloy, S., Vorasoot, N. & Patanotha, A. (2014). Response of root characteristics and yield in peanut under terminal drought condition. Chilean Journal of Agricultural Research. 74(3). 249-256.
Kar, G. & Verma, H.N. (2005). Phonology based irrigation scheduling and determination of crop coefficient of winter maize in rice fallow of eastern India. Agricultural Water Management.75:169-183.
Karimi, A., Homaei, M., Moez ardalan, M., Liaghat, A. & Raeisi, F. (2015). The effect of fertilizer-irrigation on the yield and efficiency of water use in corn by drip-linear irrigation method. Scientific Research Journal of Agricultural Sciences. .12 (23), 575-561. [in Persian]
Keshavarz, A. & Dehghani Sanij, H. (2012). Water productivity index and solutions for future agricultural activities in Iran. Economic strategy journal, 1(1), 199-233. [in Persian]
Liu, N., Staswick, P.E., & Avramova, Z. (2016). Memory responses of jasmonic acidassociated Arabidopsis genes to a repeated dehydration stress. Plant Cell Environ. 39(11), 2515–2529.
Mandal K.G, Thakur, A.K. & Mohanty, S. (2019). Paired-row planting and furrow irrigation increased light interception, pod yield and water use efficiency of groundnut in a hot sub-humid climate. Agricultural Water Management, 213, 968-977.
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