Effect of supplementary irrigation and foliar application of salicylic acid on growth, grain yield and some physiological characteristics of peanut (Arachis hypogaea L.)

Mehri Charvadeh, Mehrab; Zakerin, Hamid Reza; Mostafavi Rad, Marefat; Sayfzadeh, Saeed; Valadabadi, Alireza

doi:10.22059/jci.2022.346492.2736

Document Type : Research Paper

Authors

¹ Ph. D. Student, Department of Agronomy, Takestan Branch, Islamic Azad University, Takestan, Iran

² Assistant Professor, Department of Agronomy, Takestan Branch, Islamic Azad University, Takestan, Iran

³ Assistant Professor, Crop and Horticultural Science Research Department, Guilan Agricultural and Natural Resources Research and Education Center, Agricultural Research, Education and Extension Organization (AREEO), Rasht, Iran.

⁴ Associate Professor, Department of Agronomy, Takestan Branch, Islamic Azad University, Takestan, Iran

https://doi.org/10.22059/jci.2022.346492.2736

Abstract

In order to evaluate peanut (Arachis hypogaea L.) NC2 variety growth as affected by supplementary irrigation and Salicylic acid, this experiment was performed as split plat based on randomized complete block design with three replications in experimental field of Agicutural and Natural Resources Research and Education Center of Guilan Province (Kanroud research station of Astara), Iran, during 2018 and 2019 cropping seasons. Four level of irrigation regimes: no irrigation (rainfed condition), supplementary irrigation at initial flowering stage, supplementary irrigation at pod formation stage and supplementary irrigation at initial flowering + pod formation stages and three levels of salicylic acid (SA): 100, 200 and 300 µmol/l comprised experimental treatments, as main and sub plot, respectively. Drought stress dercreased all measured characteristics in peanut and foliar application of SA at the rate of 300 µmol/l improved all studied characteristics under bath supplementary irrigation and rainfed condition. The greatest pods number per plant (51.57), grain yield (3450 kg/ha) and pod yield (4958 kg/ha) of peanut were obtained under supplementary irrigation at initial flowering + pod formation stages with SA and these agronomic traits increased 38.79, 70.8 and 57.6 percent compared to rainfed comdition, respectively. Results of this reaserch indicated, supplementary irrigation and foliar application of SA at the rate of 300 µmol/l could be recommendable to enhance plant growth and grain yield of peanut under similar climatic condition.

Keywords

References

فرخینیا، مریم؛ رشدی، محسن؛ پاسبان اسلام، بهمن و ساساندوست، رضا (1390). بررسی برخی از ویژگیهای فیزیولوژیک و عملکرد گلرنگ بهاره تحت تنش کمبود آب. مجله علوم گیاهان زراعی ایران (علوم کشاورزی ایران). 42 (3)، 545-553.

فیاض، فیروزه؛ نادری درباغشاهی؛ محمدرضا و شیرانی راد، امیرحسین (1386). تأثیر تنش کم آبی بر عملکرد و اجزای عملکرد ارقام پیشرفته کلزا در منطقه اصفهان. فصلنامه یافتههای نوئین کشاورزی. 1 (3)، 177-189.

قربانی نصرآباد، قربان و هزارجریبی، ابوطالب (1389). واکنش پنبه به کم آبیاری در مراحل مختلف رشد. مجله پژوهشهای تولید گیاهی. 17 (4)، 129-141.

کشاورز، حامد، و مدرس ثانوی، سید علی محمد (1393). اثر سالیسیلیک‌اسید بر کلروفیل، برخی خصوصیات رشدی و عملکرد دو رقم کلزا. نشریه تولید گیاهان زراعی. 7 (4)، 161-176.

خلیلی، معروف؛ نقوی، محمدرضا و ابوقداره، علیرضا (1394). ارزیابی عملکرد دانه و برخی از صفات زراعی و مورفولوژیک در ژنوتیپهای گلرنگ بهاره در شرایط آبیاری و دیم. پژوهشنامه اصلاح گیاهان زراعی. 7 (16)، 139-148.

مهرابی، زهرا، و احسانزاده، پرویز. (1390). بررسی خصوصیات فیزیولوژیک و عملکرد چهار رقم کنجد تحت رژیمهای رطوبتی خاک. مجله بهزراعی کشاورزی. 13، 88-75.

مقدم خمسه، علیرضا؛ دانشیان، جهانفر؛ جباری، حمید؛ امینی دهقی، مجید و مدرس ثانوی، سید علی محمد (1390). اثر تراکم بوته و تنش کم آبی بر خصوصیات رشدی، عملکرد و اجزای عملکرد سویا (Glycine max (L.) Merrill). دانش زراعت. 4 (6)، 27-40.

سبکدست، منیژه، دشتکی، محمد، ساسانی، یوسف و رضاییزاده، احمد (1396). ارزیابی تأثیر تنش خشکی بر عملکرد دانه، اجزای عملکرد و برخی ویژگیهای زراعی در نژادگانهای لوبیا. علوم گیاهان زراعی ایران. 48 (4)، 1201-1209.

یوسفزاده نجفآبادی، مریم و احسانزاده، پرویز (1398). بررسی اثر سالیسیلیک‌اسید بر رنگدانههای فتوسنتزی، فعالیت آنزیمهای آنتیاکسیدان و اجزای عملکرد سه ژنوتیپ کنجد تحت شرایط مختلف رطوبتی. فرایند و کارکرد گیاهی. 9(33)، 137-151.

Askari, E., & Ehsanzadeh, P. (2015). Drought stress mitigation by foliar application of salicylic acid and their interactive effects on physiological characteristics of fennel (Foeniculum vulgare Mill.) genotypes. Acta Physiologiae Plantarum, 37, 4-14.

Aydinsakir, K., Nazmi, D., Dursun, B., Ruhi, B., & Ramazan, T. (2016). Assessment of Different Irrigation Levels on Peanut Crop Yield and Quality Components under Mediterranean Conditions. Journal of Irrigation and Drainage Engineering, 142(9), https://doi.org/10.1061/(ASCE)IR.1943-4774.0001062

Bakry Ahmed Bakry, M. A., Mervat Shamoon, S., Amany, A., & El-Monem, A. (2020). Physiological aspects of tyrosine and salicylic acid on morphological, yield and biochemical constituents of peanut plants. Pakistan Journal of Biological Sciences, 23(3), 375-384.

Chen, Y. E., Cui, J. M., Li, G. X., Yuan, M., Zhang, Z. W., Yuan, S., & Zhang, H. Y. (2016). Effect of salicylic acid on the antioxidant system and photosystem II in wheat seedlings. Biologia Plantarum, 60, 139-147.

Dimkpa, C. O., Bindraban, P. S., Fugice, J., Agyin-Birikorang, S., Singh, U., & Hellums, D. (2017) Composite micronutrient nanoparticles and salts decrease drought stress in soybean. Agronomy for Sustainable Development, 37(1), 5.

Elizabeth Abreu, M., & Munne-Bosch, S. (2008). Salicylic acid may be involved in the regulation of droughtinduced leaf senescence in perennials: A case study in field-grown Salvia officinalis L. plants. Environmental and Experimental Botany, 64, 105-112.

El-Khallal, S., Hathout, M., Ashour, T., & Kerrit, A. (2009). Brassinolideand salicylic acid induced growth, biochemical activities and productivity of maize plants grown under salt stress. Research Journal of Agriculture and Biological Sciences, 5, 380-390.

Eskandari, H., & Alizadeh Amraei, A. (2015). Effect of complementary irrigarion during reproductive growth period on grain yield, oil and energy efficiency of rapeseed under dry land farming system. Journal of Crop Improvement, 18(4), 907-919.

Farokhnia, M., Roshdi, M., Pasban Eslam, B., & Sasandoust, R. (2011). Study of some physiological characteristics and spring safflower yield under water deficit stress. Iranian Journal of Crop Science, 42(3), 545-553. (In Persian)

Fayaz, F., Naderi Darbaghshahi, M., & Shirani Rad, A. H. (2007). Evaluation of drought stress effects on yield and yield components of advanced Rapeseed varieties at Esfahan region. New Finding in Agriculture, 1, 177-189. (In Persian)

Geerts, S., & Raes, D. (2009). Deficit irrigation as an on-farm strategy to maximize crop water productivity in dry areas. Agr. Water Management, 96(9), 1275-1284.

Ghorbani Nasrabad, G., & Hezarjaribi, A. (2010). Cotton Response To Deficit Irrigation During Different Growth Stages. Journal of plant production, 17(4), 129-141. (In Persian)

Hayata, Q., Hayata, Sh., Irfan, M. & Ahmad, A. (2010). Effect of exogenous salicylic acid under changing environment: A review. Environmental and Experimental Botany, 68, 14-25.

Hussain, H. A., Men, S., Hussain, S., Chen, Y., Ali, S., Zhang, S., Zhang, K., Li, Y., Xu, Q., Liao. C., & Wang, L. (2019). Interactive effects of drought and heat stresses on morpho-physiological attributes, yield, nutrient uptake and oxidative status in maize hybrids. Scientific reports, 9(1), https://doi.org/10.1038/s41598-018-37186-2 PMID: 30626917.

Jabereldar, A. A., El Naim, A. M., Abdalla, A. A., & Dagash, Y. M. (2017). Effect of Water Stress on Yield and Water Use Efficiency of Sorghum (Sorghum bicolor L. Moench) in Semi-Arid Environment. International Journal of Agriculture and Forestry, 7(1), 1-6.

Kaba, J. S., Ofori, K. & Kumaga, F. K. (2014). Inter-Relationships of Yield and Components of Yield at Different Stages of Maturity in Three Groundnuts (Arachis hypogea L.) Varieties. International Journal of Life Science Research, 2(1), 43-48.

Kambiranda, D. M., Vasanthaiah, H. K. N., Katam, R., Ananga, A., Basha, S. M., & Naik, N. (2012). Impact of drought stress on peanut (Arachis hypogaea L.) productivity and food safety. Plants and Environment, Rijeka, Croatia: InTech, pp. 249-272.

Kaydan, D., Yagmur, M., & Okut, N. (2007). Effects of salicylic acid on the growth and some physiological characters in salt stressed wheat (Triticum aestivum L.). Tarim Bilimleri Dergisi, 13, 114-119.

Keshavarz, H., & Modarres Sanavy, S. A. M. (2014). Effect of salicylic acid on chlorophyll, some growth characteristics and yield of two canola varieties. Electronic Journal of Crop Production, 7(4), 167-178. (In Persian)

Khalili, M., Naghavi, M. R., & Pour-Aboughadareh, A. (2015). Evaluation of grain yield and some of agro-morphological characters in spring Safflowers genotypes under irrigated and rainfed conditions. Journal of Crop Breeding , 7, 139-148. (In Persian)

Kim, K. S., Park, S. H., & Jenks, M. A. (2007) Changes in leaf cuticular waxes of sesame (Sesamum indicum L.) plants exposed to water deficit. Journal of Plant Physiology, 164, 1134-1143.

Krishna, S., Surinder, K., Thind, S.K., & Gurpreet, K. (2004). Interactive effects of phenolics and light intensity on vegetative parameters and yield in soybean (Glycine max L. Merrill). Environemental Ecology, 22, 390-394.

Mandhanis, S., Madan, S., & Whney, V. (2006). Antioxidant defence mechanism under salt stress in wheat seedling. Biologia plantarum, 52(6), 22-27.

Masoumi, H., Masoumi, M., Darvishi, F., Daneshian, J., Nourmohammadi, G., & Habibi, D. (2010). Change in several antioxidant enzymes activity and seed yield by water deficit stress in soybean (Glycine max L.) cultivars. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 38(3), 86-94.

Mehrabi, Z., & Ehsanzadeh, P. (2011). A study on physiological attributes and grain yield of sesame (Sesamum indicum L.) cultivars under different soil moisture regimes. Journal of Crops Improvement, 13(2), 75-88. (In Persian)

Moghaddam Khamseh, A., Daneshian, J., Amini Dehghi, M., Jabbari, H. & Modarres Sanavy, S. A. M. (2011). Effect of Plant Density and Water Deficit on the Growth, Yield and Yield Component of Soybean (Glycine max (L.) Merrill). Jouran of Agronomy Sciences, 4(6), 27-40. (In Persian)

Noreen, S., Fatima, K., Athar, H. U. R., Ahmad, S., & Hussain, K. (2017). Enhancement of physio-biochemical parameters of wheat through exogenous application of salicylic acid under drought stress. Journal of Animal and Plant Sciences, 27, 153-163.

Ohashi, Y., Nakayama, N., Saneoka, H., & Fujita, K. (2006). Effects of drought stress on photosynthetic gas exchange, chlorophyll fluorescence and stem diameter of soybean plants. Biologia Plantarum, 50, 138-141.

Peleg, Z., & Blumwald, E. (2011). Hormone balance and abiotic stress tolerance in crop plants. Current Opinion in Plant Biology, 14(3), 290-295.

Prakash, M., Saravanan, K., Sunil-Kumar, B., & Jayaclesan Sand Ganesan, J. (2003). Effect of plant growth regulators and micronutrients on yield attributes of sesame. Food and Agric. Orوgan. Sesame and Safflower Newsletter, 18, 188.

Rajeshwari, V., & Bhuvaneshwari, V. (2017). Salicylic acid induced salt stress tolerance in plants. International Journal of Plant Biology and Research, 5(3), 1067.

Ratnakumar, P., & Vadez, V. (2011). Groundnut (Arachis hypogaea L.) genotypes tolerant to intermittent drought maintain a high harvest index and have small leaf canopy under stress. Functional Plant Biology, 38(12), 1016-1023.

Sabokdast, M., Dashtaki, M., Sasani, Y., & Rezaizadeh , A. (2017). Effect of drought stress on some agronomic characteristics, grain yield and its components in bean genotypes, Iranian Journal of Field Crop Science, 48(4), 1201-1209. (In Persian)

Sehga, A., Kumari, S., Kadambot, H., Siddique, M., Kumar, R., Bhogireddy, S., Varshney, R. K., Hanumantha Rao, Ramakrishnan, B., Nair, M., Prasad, P. V. V., & Nayyar, H. (2018). Drought or/and Heat-Stress Effects on Seed Filling in Food Crops: Impacts on Functional Biochemistry, Seed Yields, and Nutritional Quality. Frontiers in Plant Science, 27, https://doi.org/10.3389/fpls.2018.01705.

Singh, P. K., Chaturvedi, V. K., & Bose, B. (2010). Effect of salicylic acid on seeding growth and nitrogen metabolism in cucumber (Cucumber sativus L.). Journal of Stress Physiology and Biochemistry, 6(3), 102-113.

Tammam, A.A. (2003). Response of Vicia faba plants to the interactive effect of sodium chloride salinity and salicylic acid treatment. Acta Agronomica Hungarica, 51(3), 239-248.

Yasser, H., Amin, G., Azab, A., & Gahin, H. (2015) Induction of drought stress resistance in sesame (Sesamum indicum L.) plant by salicylic acid and kinetin. Journal of Plant Science, 10, 128-141.

Youssefi, A., Nshanian, A., & Azizi, M., (2011). Evaluation of influences of drought stress in terminal growth duration on yield and yield components of different spring Brassica oilseed species. American-Eurasian Journal of Agricultural and Environmental Sciences, 11, 406-410.

Yousefzadeh Najafabadi, M., & Ehsanzadeh, P. (2019). Effect of salicylic acid on photosynthetic pigments content, antioxidant enzyme activity and yield components of three sesame genotypes under different irrigation regimes. Journal of Plant Process and Function, 8(33), 137-152. (In Persian)

Zaghlool, S. A. M. (2002). Effect of salicylic and Jasmonic acids on the response of tomato plants to root knot nematode Meloidogene incognita, infection. Ain-shamsuni., cairo. Egypt. AGRIS, 47(3), 1107-1119.

Zaki‚ R. N., & Radwan, T. E. (2011). Improving wheat grain yield and its quality under salinity conditions at a newly reclaimed soil by using different organic sources as soil or foliar applications. Journal of Applied Sciences Research, 7, 42-55.

Effect of supplementary irrigation and foliar application of salicylic acid on growth, grain yield and some physiological characteristics of peanut (Arachis hypogaea L.)

References

References

Volume 25, Issue 4December 2023Pages 901-918

Volume 25, Issue 4
December 2023
Pages 901-918