Shahed University Horticultural Plants Nutrition 2645-4084 5 (Issue 1, spring & summer) 2022 05 22 Evaluation of leaf yield, physiological and biochemical characteristics of Green Tea (Camellia sinensis L.) in response to different irrigation regimes and foliar application of Cu and Zn nano-Chelate Evaluation of leaf yield, physiological and biochemical characteristics of Green Tea (Camellia sinensis L.) in response to different irrigation regimes and foliar application of Cu and Zn nano-Chelate 28 43 3941 10.22070/hpn.2022.14601.1140 FA Majid Ghanbari Department of Agronomy, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran. 0000-0003-2457-1177 Ali Mokhtassi-Bidgoli Department of Agronomy, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran. 0000-0002-3330-1198 Parniyan Talebi-Siah Saran Department of Horticulture, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran. Ramin Moradi-Lat Mahaleh Department of Livestock and poultry, Faculty of Agriculture, Guilan University, Rasht, Iran. Journal Article 2021 05 14 Introduction: Tea plant (<em>Camellia</em> <em>sinensis</em> L.) has great potential for growth in acidic soils and is adapted to soil and a climatic condition of Guilan province. Tea requires acidic conditions, high heat and high humidity, and its leaves are economically important (Taiefeh <em>et al</em>., 2013). Various studies have shown that the yield of green tea leaves and its physiological and biochemical properties depend on factors such as soil type, altitude, season, climatic conditions, and the amount of water available to the plant and the consumption of macro and micro elements (Owuor and Bowa, 2012). One of the prominent issues in the production of crops and orchards, including tea orchards, is strengthening their resistance to dry conditions, and among them, water deficit stress is the most common type of environmental stress that affects plant growth and production (Kirigwi <em>et al</em>., 2004). The element copper is very important in the growth and production of quality tea, so that by interfering with the oxidation of green tea leaves, it directly affects the taste and color of tea (Singh and Singh, 2004). Zinc as a major factor in the activity of many enzymes and play a major role in the structure of proteins that regulate transcription in leaves of tea plays, therefore, reducing the concentration of this element reduces the stomatal conductance, reduces transpiration and degrades the function of antioxidant enzymes (Upadhyaya <em>et al</em>., 2013). This study was conducted to investigate the effect of application of copper and zinc nano-fertilizers and irrigation water deficiency on different morpho-physiological and biochemical characteristics of tea plant in garden conditions.<br />Material and methods: This research was carried out as a factorial experiment in a randomized complete block design with three replications in selected tea research gardens of Rudsar city in 2018. Factorial combinations of three treatments of water deficit stress (15% (un-stressed control, IR₁), 30% (moderate stress, IR₂) and 45% (severe stress, IR₃) of FC depletion) and four foliar application (FA₁: use distil water, control, FA₂: Copper nano-chelate (0.5 mg per one liter of distilled water), FA₃: Zinc nano-chelate (2.5 mg per one liter of distilled water) and FA₄: Copper nano-chelate + Zinc nano-chelate) were considered. The applied drought stress levels were determined between the field capacity and the permanent wilting point of the soil in the tested area to determine the plant response to different soil water levels (Mokhtassi-Bidgoli <em>et al</em>., 2013). The amount of chemical fertilizers required was determined based on the results of soil test (Table 1) and the amount of nutrients harvested by tea plants (Table 2) (Sedaghathoor <em>et al</em>., 2003).<br />Results and discussion: The results of this study showed that the interaction of irrigation regimes and foliar application on green leaf yield, photosynthesis rate, proline concentration, catalase, peroxidase and superoxide dismutase activity were significant. Under moderate stress conditions, optimal green leaf yield and plant photosynthesis rate were obtained from the combined foliar application of copper and zinc nano-fertilizers. Also, under severe stress conditions, the highest amount of antioxidant activity and proline concentration was observed in the combined spraying of copper and zinc nano-fertilizers. Total chlorophyll decreased fewer than 62.5 and 75 % under moderate and severe stress conditions compared to the control treatment. Also, carotenoids under the influence of copper foliar application, zinc foliar application and combined copper and zinc foliar application increased by 38.47, 43.84 and 69.29% compared to the control treatment.<br />Conclusions: In general, it can be concluded that the application of combined foliar application of copper and zinc increased 58.40, 32.54 and 31.28% of green tea leaf yield compared to the control under moderate stress conditions, respectively. The results proved copper and zinc micronutrients increase green leaf yield, photosynthetic rate, photosynthetic pigments, soluble carbohydrate and protein concentrations, as well as increase the activity of antioxidants in stress conditions. Also, results showed that zinc and copper are very effective in tea resistance to water stress and reduction of dehydration damage. Introduction: Tea plant (<em>Camellia</em> <em>sinensis</em> L.) has great potential for growth in acidic soils and is adapted to soil and a climatic condition of Guilan province. Tea requires acidic conditions, high heat and high humidity, and its leaves are economically important (Taiefeh <em>et al</em>., 2013). Various studies have shown that the yield of green tea leaves and its physiological and biochemical properties depend on factors such as soil type, altitude, season, climatic conditions, and the amount of water available to the plant and the consumption of macro and micro elements (Owuor and Bowa, 2012). One of the prominent issues in the production of crops and orchards, including tea orchards, is strengthening their resistance to dry conditions, and among them, water deficit stress is the most common type of environmental stress that affects plant growth and production (Kirigwi <em>et al</em>., 2004). The element copper is very important in the growth and production of quality tea, so that by interfering with the oxidation of green tea leaves, it directly affects the taste and color of tea (Singh and Singh, 2004). Zinc as a major factor in the activity of many enzymes and play a major role in the structure of proteins that regulate transcription in leaves of tea plays, therefore, reducing the concentration of this element reduces the stomatal conductance, reduces transpiration and degrades the function of antioxidant enzymes (Upadhyaya <em>et al</em>., 2013). This study was conducted to investigate the effect of application of copper and zinc nano-fertilizers and irrigation water deficiency on different morpho-physiological and biochemical characteristics of tea plant in garden conditions.<br />Material and methods: This research was carried out as a factorial experiment in a randomized complete block design with three replications in selected tea research gardens of Rudsar city in 2018. Factorial combinations of three treatments of water deficit stress (15% (un-stressed control, IR₁), 30% (moderate stress, IR₂) and 45% (severe stress, IR₃) of FC depletion) and four foliar application (FA₁: use distil water, control, FA₂: Copper nano-chelate (0.5 mg per one liter of distilled water), FA₃: Zinc nano-chelate (2.5 mg per one liter of distilled water) and FA₄: Copper nano-chelate + Zinc nano-chelate) were considered. The applied drought stress levels were determined between the field capacity and the permanent wilting point of the soil in the tested area to determine the plant response to different soil water levels (Mokhtassi-Bidgoli <em>et al</em>., 2013). The amount of chemical fertilizers required was determined based on the results of soil test (Table 1) and the amount of nutrients harvested by tea plants (Table 2) (Sedaghathoor <em>et al</em>., 2003).<br />Results and discussion: The results of this study showed that the interaction of irrigation regimes and foliar application on green leaf yield, photosynthesis rate, proline concentration, catalase, peroxidase and superoxide dismutase activity were significant. Under moderate stress conditions, optimal green leaf yield and plant photosynthesis rate were obtained from the combined foliar application of copper and zinc nano-fertilizers. Also, under severe stress conditions, the highest amount of antioxidant activity and proline concentration was observed in the combined spraying of copper and zinc nano-fertilizers. Total chlorophyll decreased fewer than 62.5 and 75 % under moderate and severe stress conditions compared to the control treatment. Also, carotenoids under the influence of copper foliar application, zinc foliar application and combined copper and zinc foliar application increased by 38.47, 43.84 and 69.29% compared to the control treatment.<br />Conclusions: In general, it can be concluded that the application of combined foliar application of copper and zinc increased 58.40, 32.54 and 31.28% of green tea leaf yield compared to the control under moderate stress conditions, respectively. The results proved copper and zinc micronutrients increase green leaf yield, photosynthetic rate, photosynthetic pigments, soluble carbohydrate and protein concentrations, as well as increase the activity of antioxidants in stress conditions. Also, results showed that zinc and copper are very effective in tea resistance to water stress and reduction of dehydration damage. https://hpn.shahed.ac.ir/article_3941_29e1c59be16c852670e3be302e8c303b.pdf