• Reference :1

    Bhardwaj, J., Yadav, S.K., 2012. Comparative study on biochemical parameters and antioxidant enzymes in a drought tolerant and a sensitive variety of horse gram under drought stress. American Journal of Plant Physiology 7(1), 17−29.

    Bhat, E.A., Sajjad, N., Manzoor, I., Rasool, A., 2019. Bioactive Compounds in Peanuts and Banana. Journal of Biochemistry and Analytical Biochemistry 8(2), 382.

    Carvalho, M.J., Vorasoot, N., Puppala, N., Muitia, A., Jogloy, S., 2017. Effects of terminal drought on growth, yield and yield components in Valencia peanut genotypes. Journal of Breeding and Genetics 49(3), 270−279.

    Chris,O., Ojiewo, Pasupuleti, J., Bhatnagar, P.M., 2020. Advances in crop improvement and delivery research for nutritional quality and health benefits of groundnut. Frontiers in Plant Science 22(1), 21−27.

    Fonte, H., Marta, F., Citelli Georgia, C., Atella Helena, F.R., Zago,L., Thamiris de, S., Simone Vargas da, S., Christina, B.F., 2019. Oil supplementation changes body composition and activates insulin signaling cascade in skeletal muscle tissue of obese animals. Nutrition 58(1), 167–174.

    Juliet, H., Musalima Patrick, O., Diriisa, M., 2019. Fatty acid composition of oil from groundnuts and oyster nuts grown in uganda. Journal of Food Research 8(6) 201−206.

    Kalariya, K.A., Deepti, M., Nisha, G., Singh, A.L., 2017. Stomatal clustering pattern in Arachis hypogaea L. under water deficit stress. Indian Journal of Experimental Biology 55(1), 880−883.

    Kumar, R.R., Karajol, K., Naik, G.R., 2011. Effect of polyethylene glycol induced water stress on physiological and biochemical response in pigeonpea. Plant Physiology 3, 1487−152.

    Happy, D., Hussein, S., Mark, L., Patrick, O., Omari, M., 2018. Groundnut production constraints, farming systems, and farmer-preferred traits in Tanzania. Journal of Crop Improvement 32(6), 812−828.

    Madhusudhana, B., 2013. A survey on area, production and productivity of groundnut crop in india. Journal of Economics and Finance 1(3), 1−7.

    Meena, S., Malarkodi, M., Senthilvalavan, P., 2007. Secondary and micronutrients for groundnut. 2007. Agricultural Reviews 28(4), 295−300.

    Mensah, J.K., Okpere, V.E., 2000. Screening of four groundnut cultivars from nigeria for drought resistant. Legume Research 23(1), 37−41.

    Nageswara Rao, R.C., Williams, J.H., Singh, M., 1989. Genotypic sensitivity to drought and yield potential of peanut. Agronomy Journal 81, 887−883.

    Nandania, V.A., Modhawadia, M.M., Patel, J.C., Sadaria, S.G., Patel, B.S., 1992. Response of rainy season bunch groundnut to row spacing and seed rate. Indian Journal of Agronomy 37(3), 597−599.

    Nautiyal, P.C., Zala, P.V., Tomar,  R.K., Sodayadiya, P., Tavethia, B., 2011. Evaluation of water use efficiency newly developed varieties of groundnut in on-farm trials in two different rainfall areas in Gujarat, India. SAT eJournal / eJournal.icrisat.org 9, 1−6.

    Ondulla, T.T., 2020. A comprehensive review of the value-added uses of peanut skins and by-products. Critical Reviews in Food Science and Nutrition 60(2), 341−350.

    Pasupuleti, J., Pandey, K.M., Yaduru, S., Murali, T.V., Manda, S., Khera, P., Surendra. S.M., Nagesh, P., Vishwakarma, K.M., Mishra, G.P., Radhakrishnan, T., Manivannan, N., Dobariya, K.L., Vasanthi, R.P., Rajeev, K.V., 2016.Molecular breeding for introgression of fatty acid denatures mutant alleles (ahFAD2A and ahFAD2B) enhances oil quality in high and low oil containing peanut genotypes. Plant Science 242, 203−213.

    Kumari, C., Reddy, B.S., 2019. Evaluation of groundnut varieties for drought tolerance under imposed moisture stress conditions. Journal of Oilseeds Research 36(1), 24−29.

    Samtiya, M., Aluko, R.E., Dhewa, T., 2020. Plant food anti-nutritional factors and their reduction strategies. Food Production Processing and Nutrition 6(2), 202−206.

    Singh, P., Thakur, D., Vaish, C.P., Katiyar, R.P., Gupta, P.K., 1998. Studies on packing materials for storage of soybean seeds under ambient conditions. Journal of Indian Society of Seed Technology 28(4),75.

    Sunitha, V.M., Vanaja, P., Sowmya, S.K., Abdul Razak, G., Vijay Kumar, Y., Anitha, N., Lakshmi, J., 2015. Variability in response of groundnut (Arachis hypogaea L.) genotypes to moisture stress and stress release. International Journal of Bio-resource and Stress Management 6(2), 240−249. DOI: 10.5958/0976-4038.2015.00042.1.

    Virmani, S.M., Singh, P., 1986. Agroclimatological Characteristics of the groundnut-growing regions in the semi-arid tropics. International Symposium-Agrometeorology of Groundnut, 21−26.

    Vincent, V., Pasal, R., 2016. High transpiration efficiency increases pod yield under intermittent drought in dry and hot atmospheric conditions but less so under wetter and cooler conditions in groundnut (Arachis hypogaea (L.)). Field Crops Research 193, 16–23.

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