- Aloni, B., & Rosenshtein, G. (1982). Effect of flooding on tomato cultivars: The relationship between proline accumulation and other morphological and physiological changes. Physiologia Plantarum, 56(4), 513-517.
- Arnon, D. I. (1949). Copper enzymes in isolated chloroplasts. Polyphenoloxidase in Beta vulgaris. Plant Physiology, 24(1), 1.
- Bahadur, I., Maurya, B. R., Kumar, A., Meena, V. S., & Raghuwanshi, R. (2016). Towards the soil sustainability and potassium-solubilizing microorganisms. In Potassium solubilizing microorganisms for sustainable agriculture (pp. 255-266). Springer, New Delhi.
- Bartholomeus, R. P., Witte, J. P. M., van Bodegom, P. M., van Dam, J. C., & Aerts, R. (2008). Critical soil conditions for oxygen stress to plant roots: substituting the Feddes-function by a process-based model. Journal of Hydrology, 360(1-4), 147-165.
- Bates, L. S., Waldern, R. P. & Tear, I. D. (1973). Rapid determination of free proline for water stress studies. Plant Soil, 39, 205-207.
- Bhatt, R. M., Upreti, K. K., Divya, M. H., Bhat, S., Pavithra, C. B., & Sadashiva, A. T. (2015). Interspecific grafting to enhance physiological resilience to flooding stress in tomato (Solanum lycopersicum). Scientia Horticulturae, 182, 8-17.
- Boru, G., Vantoai, T., Alves, J., Hua, D., & Knee, M. (2003). Responses of soybean to oxygen deficiency and elevated root‐zone carbon dioxide concentration. Annals of Botany, 91(4), 447-453.
- Cakmak, I. (2000). Possible roles of zinc in protecting plant cells from damage by reactive oxygen species. The New Phytologist, 146(2), 185-205.
- Caudle, K. L., & Maricle, B. R. (2012). Effects of flooding on photosynthesis, chlorophyll fluorescence, and oxygen stress in plants of varying flooding tolerance. Transactions of the Kansas Academy of Science, 115(1/2), 5-18.
- Chapman, H. D. & Prah, D. F. (1961). Methods analysis for soil, plant and water. University of California Division, Agriculture Science: 60-62.
- Chanu, W. S., & Sarangthem, K. (2015). Changes in proline accumulation, amino acid, sugar and chlorophyll content in leaf and culm of Phourel-amubi, a rice cultivar of Manipur in response to flash flood. Indian Journal of Plant Physiology, 20(1), 10-13.
- Chen, T. H., & Murata, N. (2002). Enhancement of tolerance of abiotic stress by metabolic engineering of betaines and other compatible solutes. Current Opinion in Plant Biology, 5(3), 250-257.
- Dresboll, D.B. & Thorup-Kristensen, K. (2012) Spatial variation in root system activity of tomato (Solanum lycopersicum) in response to short and long-term waterlogging as determined by N-15 uptake. Plant Soil, 357, 161–172.
- Ebadi, M., Soltani, F., & Mostofi, Y. (2013). Effect of temperature and accession type on lycopene stability and total phenolic compound of fresh-cut watermelon. In VII International Postharvest Symposium 1012 (pp. 947-953), 15 November, Kuala Lumpur, Malaysia.
- Edelstein, M. (2004(. Grafting vegetable-crop plants: pros and cons. In VII International Symposium on Protected Cultivation in Mild Winter Climates: Production, Pest Management and Global Competition 659 (pp. 235-238), November, Leuven, Belgium.
- Ferreira, M. A., O'Donovan, M. C., Meng, Y. A., Jones, I. R., Ruderfer, D. M., Jones, L., & Smoller, J. W. (2008). Collaborative genome-wide association analysis supports a role for ANK3 and CACNA1C in bipolar disorder. Nature Genetics, 40(9), 1056.
- Hammond, A. (1995). Environmental indicators: a systematic approach to measuring and reporting on environmental policy performance in the context of sustainable development (No. 333.7/H225). Washington, DC: World Resources Institute.
- Herrera, A. (2013). Responses to flooding of plant water relations and leaf gas exchange in tropical tolerant trees of a black-water wetland. Frontiers in Plant Science, 4(106), 1-12.
- Hopkins, W. G. (1999). Introduction to plant physiology (No. Ed. 2). John Wiley and Sons.
- Horchani, F., Aschi-Smiti, S., & Brouquisse, R. (2010). Involvement of nitrate reduction in the tolerance of tomato (Solanum lycopersicum) plants to prolonged root hypoxia. Acta physiologiae Plantarum, 32(6), 1113-1123.
- Huang, Y., Zhao, L., Kong, Q., Cheng, F., Niu, M., Xie, J., & Bie, Z. (2016). Comprehensive mineral nutrition analysis of watermelon grafted onto two different rootstocks. Horticultural Plant Journal, 2(2), 105-113.
- Irfan, M., Hayat, S., Hayat, Q., Afroz, S., & Ahmad, A. (2010). Physiological and biochemical changes in plants under waterlogging. Protoplasma, 241(1-4), 3-17.
- Irigoyen, J. J., Einerich, D. W., & Sánchez‐Díaz, M. (1992). Water stress induced changes in concentrations of proline and total soluble sugars in nodulated alfalfa (Medicago sativa) plants. Physiologia Plantarum, 84(1), 55-60.
- Kalra, Y. (Ed.). (1997). Handbook of reference methods for plant analysis. CRC Press Boca Raton (USA), 1-291.
- Klute, A. (1986). Water retention: laboratory methods. Methods of soil analysis: part 1-physical and mineralogical methods, ASA and SSSA, Madison, 635-662.
- Kozlowski, T. T. (1985). Soil aeration, flooding, and tree growth. Journal of Arboriculture, 11(3), 85-96.
- Kozlowski, T. T. (1997). Responses of woody plants to flooding and salinity. Tree Physiology, 17, 13-21.
- Krishnamurthy, A., & Rathinasabapathi, B. (2013). Oxidative stress tolerance in plants: novel interplay between auxin and reactive oxygen species signaling. Plant signaling & Behavior, 8(10), e25761.
- Zhu, L., & Gong, F. (2013). Effects of flooding stress on several antioxidant enzyme activities and osmoregulatory substance of grafted sweet pepper seedlings. Acta Agriculturae Jiangxi, 25(10), 30-32.
- Maggio, A., Miyazaki, S., Veronese, P., Fujita, T., Ibeas, J. I., Damsz, B., & Bressan, R. A. (2002). Does proline accumulation play an active role in stress‐induced growth reduction? The Plant Journal, 31(6), 699-712.
- Mahmood, U., Hussain, S., Hussain, S., Ali, B., Ashraf, U., Zamir, S., Al-Robai, S.A., Alzahrani, F.O., Hano, C. & El-Esawi, M.A. (2021). Morpho-physio-biochemical and molecular responses of maize hybrids to salinity and waterlogging during stress and recovery phase. Plants, 10(7), 1345.
- Malek, A. F., Manochehri, K. M., & Torkzadeh, M. (2005). The effect of flooding stress on induction of oxidative stress and concentration of mineral element in pepper (Capsicum annum) plants. Iranian Journal of Biology, 18(2), 110-119. (In Farsi).
- Marschner, H. & Marschner, P. (2012). Marschner’s mineral nutrition of higher plants. 3rd San Diego, CA: Elsevier Academic Press, 1-651.
- Mauro, R. P., Agnello, M., Distefano, M., Sabatino, L., San Bautista Primo, A., Leonardi, C., & Giuffrida, F. (2020). Chlorophyll fluorescence, photosynthesis and growth of tomato plants as affected by long-term oxygen root zone deprivation and grafting. Agronomy, 10(1), 137.
- Men, S., Chen, H., Chen, S., Zheng, S., Shen, X., Wang, C., Yang, Z., & Liu, D. (2020). Effects of supplemental nitrogen application on physiological characteristics, dry matter and nitrogen accumulation of winter rapeseed (Brassica napus) under waterlogging stress. Scientific Reports, 10(1), 1-10.
- Mohsenian, Y., & Roosta, H. R. (2015). Effects of grafting on alkali stress in tomato plants: datura rootstock improve alkalinity tolerance of tomato plants. Journal of Plant Nutrition, 38(1), 51-72.
- Morard, P., Lacoste, L., & Silvestre, J. (2000). Effect of oxygen deficiency on uptake of water and mineral nutrients by tomato plants in soilless culture. Journal of Plant Nutrition, 23(8), 1063-1078.
- Morard, P., Lacoste, L. & Silvestre, J. (2004). Effect of oxygen deficiency on mineral nutrition of excised tomato roots. Journal of Plant Nutrition, 27(4), 613-626.
- Murkute, A. A., Sharma, S., & Singh, S. K. (2006). Studies on salt stress tolerance of citrus rootstock genotypes with arbuscular mycorrhizal fungi. Horticultural Science, 33, 70-76.
- Nawaz, M., Miran, W., Jang, J., & Lee, D. S. (2017). One-step hydrothermal synthesis of porous 3D reduced graphene oxide/TiO2 aerogel for carbamazepine photodegradation in aqueous solution. Applied Catalysis B: Environmental, 203, 85-95.
- Orcutt, D. M., & Nilsen, E. T. (2000). Influence of plant phytopathogens on host physiology. The physiology of plants under stress. Soil and biotic factors. Wiley, USA, 236-239.
- Paul, M. & Hasegava, A. (1996). Plant cellular and molecular responses to high salinity. Annual Review of Plant Physiology and Plant Molecular Biology, 51, 463-499.
- Pasternak, T., Potters, G., Caubergs, R., & Jansen, M. A. (2005). Complementary interactions between oxidative stress and auxins control plant growth responses at plant, organ, and cellular level. Journal of Experimental Botany, 56(418), 1991-2001.
- Pedersen, O., Sauter, M., Colmer, T. D., & Nakazono, M. (2021). Regulation of root adaptive anatomical and morphological traits during low soil oxygen. New Phytologist, 229(1), 42-49.
- Peng, Y. Q., Zhu, J., Li, W. J., Gao, W., Shen, R. Y., & Meng, L. J. (2020). Effects of grafting on root growth, anaerobic respiration enzyme activity and aerenchyma of bitter melon under waterlogging stress. Scientia Horticulturae, 261, 108977.
- Pirzad, A., Shakiba, M., Zehtab, S.S., & Mohammadi, S. (2015). Effects of water stress on some nutrients uptake in Matricaria chamomilla Agronomy Journal (Pajouhesh & Sazandegi), 104: 1-7. (In Farsi).
- Pugalendhi, L., Tamilselvi, N. A., & Thangamani, C. (2019).Vegetable grafting – A Boon for soil-borne pest and disease management- A Review. Madras Agricultural Journal, 106(10), 561-570.
- Ramazanian, D., Moradipour, F., Zahedi, B., & Zarabi, M. M. (2018). Evaluation some aspects of growth, physiological, yield and quality of watermelon Charleston Gray cultivar grafted and un-grafted under salt stress conditions. Iranian Journal of Horticultural Science 49(3), 729-741. (in Farsi).
- Reddy, M. P., & Vora, A. B. (2005). Salinity induced changes in pigment composition and chlorophyllase activity of wheat. Indian Journal Plant Physiology, 29(4), 331-334.
- Ryan, J., G. Estefan & Rashid, A. (2001). Soil and plant analysis laboratory manual. International Center for Agricultural Research in the Dry Areas (ICARDA), Islamabad, Pakistan. 172p.
- T. (2016). Investigation of compatibility of transplantation in a watermelon indigenous population on the rootstock of alkali pumpkin and its evaluation of salinity stress. M.Sc. Thesis .Faculty of Agriculture, Vali-e-Asr University. 125 p. (In Farsi).
- Shabala, S., & Pottosin, I. (2014). Regulation of potassium transport in plants under hostile conditions: implications for abiotic and biotic stress tolerance. Physiologia Plantarum, 151(3), 257-279.
- Snyder, C. S., & Slaton, N. (2002). Effects of soil flooding and drying on phosphorus reactions. News and Views Newsletter. Potash and Phosphate Institute. Atlanta, Georgia, 158.
- Steffens, D., Hutsch, B. W., Eschholz, T., Losak, T., & Schubert, S. (2005). Water logging may inhibit plant growth primarily by nutrient deficiency rather than nutrient toxicity. Plant Soil and Environment, 51(12), 545.
- Vakili Moghaddam, S., Soltani, F., & Salehi R. (2022). Effects of bitter apple and Shintosa rootstocks on phenotypic and physiological properties of Citrullus lunatusc cv. Crimson Sweet under water deficit irrigation in field condition. Iranian Journal of Horticultural Science 53(3), 567-577. (in Farsi).
- Visser, E. J. W., Voesenek, L. A. C. J., Vartapetian, B. B., & Jackson, M. B. (2003). Flooding and plant growth. Annals of Botany, 91(2), 107-109.
- Wahb-Allah, M., Abdel-Razzak, H., Alsadon, A., & Ibrahim, A. (2014). Growth, yield, fruit quality and water use efficiency of tomato under arbuscular mycorrhizal inoculation and irrigation level treatments. Life Science Journal, 11(2), 109-117.
- Wahb-Allah, M. A. (2014). Effectiveness of grafting for the improvement of salinity and drought tolerance in tomato (Solanum lycopersicon). Asian Journal of Crop Science, 6(2), 112.
- Waraich, E. A., Ahmad, R., & Ashraf, M. Y. (2011). Role of mineral nutrition in alleviation of drought stress in plants. Australian Journal of Crop Science, 5(6), 764.
- Wei, W., Li, D., Wang, L., Ding, X., Zhang, Y., Gao, Y., & Zhang, X. (2013). Morpho-anatomical and physiological responses to waterlogging of sesame (Sesamum indicum). Plant Science, 208, 102-111.
- Yamauchi, T., Colmer, T. D., Pedersen, O., & Nakazono, M. (2018). Regulation of root traits for internal aeration and tolerance to soil waterlogging-flooding stress. Plant Physiology, 176(2), 1118-1130.
- Yamauchi, T., Tanaka, A., Inahashi, H., Nishizawa, N. K., Tsutsumi, N., Inukai, Y., & Nakazono, M. (2019). Fine control of aerenchyma and lateral root development through AUX/IAA-and ARF-dependent auxin signaling. Proceedings of the National Academy of Sciences, 116(41), 20770-20775.
- Yetisir, H., Caliskan, M. E., Soylu, S., & Sakar, M. (2006). Some physiological and growth responses of watermelon [Citrullus lanatus (Thunb.) Matsum. and Nakai] grafted onto Lagenaria siceraria to flooding. Environmental and Experimental Botany, 58(1-3), 1-8.
- Yuan, L., Hu, S., Okray, Z., Ren, X., De Geest, N., Claeys, A., Yan, J., Bellefroid, E., Hassan, B.A. & Quan, X.J. (2016). The Drosophila neurogenin Tap functionally interacts with the Wnt-PCP pathway to regulate neuronal extension and guidance. Development, 143(15), 2760-2766.
- Zengin, F. K., & Munzuroglu, O. (2005). Effects of some heavy metals on content of chlorophyll, proline and some antioxidant chemicals in bean (Phaseolus vulgaris) seedlings. Acta Biologica Cracoviensia Series Botanica, 47(2), 157-164.
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