Evaluation Of Yield And Water Productivity In Peanut Cultivars Under Full And Deficit Irrigation In Gilan Province

Document Type : Original Article

Authors

1 PhD Candidate of Irrigation and Drainage, Lahijan Branch, Islamic Azad University, Lahijan, Iran

2 Department of Water Engineering, Lahijan branch, Islamic Azad University, Lahijan, Iran.

3 Department of Agronomy and Plant Breeding, Lahijan Branch, Islamic Azad University, Lahijan, Iran.

4 Department of Agronomy and Plant Breeding, Lahijan Branch, Islamic Azad University, Lahijan, Iran

Abstract

Due to the shortage of water in the agricultural sector, it is very important to calculate the amount of irrigation water for crops in conditions of limited water resources. In order to investigate the effect of different irrigation treatments on yield and water use productivity in peanuts, a study was conducted as a split plot experiment in a randomized complete block design with 3 replications in 2017 and 2018 in Gilan province. The main treatment included full irrigation with 100% water requirement and adjusted low irrigation with 40, 60, 80% water supply and the sub-treatment consisted of four peanut cultivars (Guil, Gorgani, Jonobi and Mesri). The results showed that the interaction effect of irrigation and cultivars on seed yield and seed water use productivity was significant at 1% level and 100% water requirement treatment and southern cultivar with an average of 1732 kg / ha had the highest grain yield. Due to irrigation and cultivars, the highest water use productivity based on seed yield was in the treatment of 40% of water requirement and Mesri cultivar with an average of 0.40 kg / m3. In peanut cultivars, Jonobi cultivar with an average of 1273 kg/ha had the highest seed yield compared to other cultivars. Based on water supply, the Jonobi cultivar had the highest seed yield during two years, which is suggested as a suitable cultivar for the study area.

Keywords


بابا زاده، ح. عبدزادگوهری، ع. خنک، آ. 1396. اثر مقادیر مختلف آب و کود نیتروژن بر عملکرد و اجزای عملکرد بادام­زمینی. مجله پژوهش آب در کشاورزی. 31 (4): 571-584.
بینام. 1397. معاونت آمار و اطلاعات. جهاد کشاورزی استان گیلان. جلد اوّل صفحه 381. جلد چهارم. صفحه 163.
­عبدزادگوهری، ع. 1398. افزایش عملکرد و بهره­وری مصرف آب در بادام­زمینی با تکیه بر مدیریت آبیاری. نشریه مدیریت آب در کشاورزی. 6 (2): 59-66.
عبدزادگوهری، ع. امیری، 1، بابا زاده، ح و صدقی، ح. 1397. اثر شوری و مدیریت آبیاری بر عملکرد و کارایی مصرف آب در ارقام بادام­زمینی. مجله تحقیقات آب و خاک ایران. پردیس کشاورزی و منابع طبیعی دانشگاه تهران. 49 (2): 340-329.
عبدزادگوهری،ع. و امیری، 1. 1397. تابع تولید و بهره­وری مصرف آب گیاه بادام­زمینی (رقم گیل) در شرایط آبیاری و افزودن کود نیتروژن. مجله پژوهش آب در کشاورزی. 32 (1): 66-55.
Abdzad Gohari, A. Babazadeh, H. Amiri, E. and Sedghi, H. 2017. Estimate of Peanut Production Function under Irrigated Conditions and Salinity. Polish Journal of Environmental Studies. 27 (4). 1503-1512.
Anjum, N. A., Gill, S.S. and Gill. R. 2014. Plant Adaptation to Environmental Change: Significance of Amino Acids and their Derivatives, 1st Edn. Wallingford: CABI.317p.
Aparna, P., Shanthi, M.P., Reddy, D.M. and Latha, P. 2018. Estimation of genetic parameters in groundnut (Arachis hypogaea L.) for yield and it’s contributing characters under inorganic fertilizer managements. Internatinal Journal of Current Microbiology and Applied Sciences. 7 (4): 1559-1565.
Ashutosh, K. S. and Prashant, K. R., 2014. Evaluation of groundnut genotypes for yield and quality traits. Annals of plant and soil research. 16(1): 41-44.
Azamzadeh Shooraki, M., S, Khalilian. and Mortazavi, S.A. 2011. Selecting the production function and estimating the energy importance coefficient in the agricultural sector. Agricultural Economics and Development. 19 (76): 205-229.
Balaraju, M. and Kenchanagoudar, P. V. 2016. Genetic variability for yield and its component traits in interspecific derivatives of groundnut (Arachis hypogaea L.). Journal of Farm Sciences. 29(2).172-176.
Bhavya, M.R., Shanthala, J., Savithramma, D.L. and Syed, S. 2017. Variability, heritability and association studies in F4 and F5 generation for traits related to water use efficiency and yield traits in groundnut (Arachis hypogaea L.). Plant Archives. 17(2): 1353-1360.
Boontang, S., Girdthai, T., Jogloy, S., Akkasaeng, C., Vorasoot, N., Patanothai, A., and N., Tantisuwichwong. 2010. Responses of released cultivars of peanut to terminal drought for traits related to drought tolerance. Asian Journal of Plant Sciences. (9): 423-431.
Calvino, P.A., Andrade, F.H. and Sadras, V.O. 2003. Maize yield as affected by water availability, soil depth, and crop management. Agronomy Journal. 9(5): 275-281.
Canavar,O. and Kaynak. M. A. 2010. Growing degree day and sunshine radiation effects on peanut pod yield and growth. African Journal of Biotechnology. 9 (15): 2234-2241.
Ji-li, L. Chang-xing, z. Wu na, Wang yue-fu. and Wang m. 2011. Effects of Drought and Rewatering at Seedling Stage on Photosynthetic Characteristics and Water Use Efficiency of Peanut. Scientia Agricultura Sinica. 3. 25-38.
John, K. and Raghava Reddy, P. 2011. Variability, heritability and genetic advances for water use efficiency traits in groundnut (Arachis hypogaea L.). Journal of Social Sciences. 1(3): 1-5.
Junjittakarn, J. Girdthai T, Jogloy S, Vorasoot N, and Patanotha A 2014. Response of root characteristics and yield in peanut under terminal drought condition. Chilean Journal of Agricultural Research. 74(3): 249-256.
Kabadagi,C.B. and Setty, R.A. 2010. Growth characters and yield of groundnut genotypes as influenced by levels of NPK and growth regulators. Research on Crops. (11): 697-700.
Koolachart, R. Jogloy, S. Vorasoot, N. Wongkaew, S. Holbrook C.C. Jongrungklanga, N. Kesmalaa, T. and A. Patanothaia. 2013. Rooting traits of peanut genotypes with different yield responses to terminal drought Field Crops Research. 149. 366–378.
Lamb, M.C. Sorensen ; R.B. Butts C. L.2020.Agronomic and Economic Effects of Irrigation and Rotation in Peanut-based Cropping Systems. Peanut Science. 47 (3): 173–179.
Mahesh, R.H., Hasan, K., Temburne, B.V., Janila, P. and Amaregouda, A. 2018. Genetic variability, correlation and path analysis studies for yield and yield attributes in groundnut (Arachis hypogaea L.). Journal of Pharmacognosy and Phytochemistry. 7(1): 870-874.
Rao, V. T., Venkanna, V., Bhadru, D. and Bharathi, D. 2014. Studies on Variability, Character Association and Path Analysis on Groundnut (Arachis hypogaea L.). Indian Journal of Pure and Applied Biosciences. 2(2): 194-197.
Savita, S. K., Savithramma, D. L. and Mamata, K. 2016. Genetic variability of water use efficient ril (s) of the cross GKVK 4 X NRCG 12473 and identification of elite genotypes in groundnut (Arachis hypogaea L.). International Journal of Agricultural Science Research. 6 (5): 375-380.
Sezena,M, Yucelb, S. Tekinc, S. and Yıldızd. M. 2019. Determination of optimum irrigation and effect of deficit irrigation strategies on yield and disease rate of peanut irrigated with drip system in Eastern Mediterranean. Agricultural Water Management. 221 (2019): 211–219.
Shinde, B.M. and Laware, L. 2010. Effect of drought stress on agronomic Contributing characters in Groundnut (Arachis Hypogae L.). Asian Journal of Experimental Biological Sciences. 12(1): 968-971.
Sorensen. R.B. and C.L. Butts .2014. Peanut Response to Crop Rotation, Drip Tube Lateral Spacing, and Irrigation Rates with Deep Subsurface Drip Irrigation. Peanut Science. 41: 111–119.
Syed Sab, J. Shanthala, D. L. Savithramma. and M. R. Bhavya. 2018. Study of Genetic Variability and Character Association for Water Use Efficiency (WUE) and Yield Related Traits Advance Breeding Lines of Groundnut (Arachis hypogea L.). Int.J.Curr.Microbiol.App.Sci. 7(6): 3149-3157.
Thakur, S. B., Ghimire, S. K., Shrestha, M, P., Chaudhary, S. M. and Mishra, B. 2013. Variability in groundnut genotypes for tolerance to drought.Nepal. Journal of Science and Technology. 14 (1): 41-50.
Vadez, V., Kholova, J., Medina, S., Aparna, K. and Anderberg, H. 2014. Transpiration efficiency: new insights into an old story. Journal of Experimental Botany. 64: 6141–6153.