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The article characterizes a kiwifruit cultivated in the subtropical zone of the Black Sea coast in Krasnodar Krai. Scientists are currently interested in kiwifruits that contain a considerable amount of vitamins, specifically vitamin C. The present study aims to examine the biochemical composition of a kiwifruit having a high nutritional value, as well as vitamins and useful elements necessary for the human body. These studies on the plantings of Actinidia deliciosa have been conducted at the Adler Experiment Station of the Federal Research Center N. I. Vavilov AllRussian Institute of Plant Genetic Resources (Krasnodar Krai) since 2017. The growing area is 5×4 m, amounting to ha. The crop is grown in alluvial grassland low-humus soil. The biochemical composition of fruit was analyzed at the Department of Plant Physiology and Biochemistry of the Subtropical Scientific Centre of the Russian Academy of Sciences. The results of biochemical studies (2017–2018) evaluating the fruit of Actinidia delicata are presented. The study included five kiwifruit varieties: ‘Hayward’ (late ripening period), ‘Allison’, ‘Abbott’ (early ripening period), ‘Bruno’, and ‘Monty’ (average ripening period). The maximum sugar amount of 9.67–10.92 % was observed in the fruit of ‘Monty’, ‘Bruno’, ‘Abbott’, and ‘Allison’ varieties, while the minimum amount was found in ‘Hayward’ (7.79 %). In the experiment, the titratable acidity amounted to 0.75–0.82 %. The sugar-acid ratio was found to be within the range of 9.50–14.99 RU. The best varieties in terms of the content of extractive substances in fruits were ‘Abbott’ and ‘Bruno’. A high ascorbic acid content of 148–171 mg/100 g was observed in ‘Hayward’, ‘Abbott’, and ‘Bruno’ varieties, while a low content of 119.50–125.50 mg/100 g was noted in ‘Monty’ and ‘Allison’ as compared to other varieties. The quantitative content of dry matter was found to be within 15.04–16.00 %, which indicates good transportability, storability, and shelf life of kiwifruit as long as the necessary rules are followed.
The article characterizes a kiwifruit cultivated in the subtropical zone of the Black Sea coast in Krasnodar Krai. Scientists are currently interested in kiwifruits that contain a considerable amount of vitamins, specifically vitamin C. The present study aims to examine the biochemical composition of a kiwifruit having a high nutritional value, as well as vitamins and useful elements necessary for the human body. These studies on the plantings of Actinidia deliciosa have been conducted at the Adler Experiment Station of the Federal Research Center N. I. Vavilov AllRussian Institute of Plant Genetic Resources (Krasnodar Krai) since 2017. The growing area is 5×4 m, amounting to ha. The crop is grown in alluvial grassland low-humus soil. The biochemical composition of fruit was analyzed at the Department of Plant Physiology and Biochemistry of the Subtropical Scientific Centre of the Russian Academy of Sciences. The results of biochemical studies (2017–2018) evaluating the fruit of Actinidia delicata are presented. The study included five kiwifruit varieties: ‘Hayward’ (late ripening period), ‘Allison’, ‘Abbott’ (early ripening period), ‘Bruno’, and ‘Monty’ (average ripening period). The maximum sugar amount of 9.67–10.92 % was observed in the fruit of ‘Monty’, ‘Bruno’, ‘Abbott’, and ‘Allison’ varieties, while the minimum amount was found in ‘Hayward’ (7.79 %). In the experiment, the titratable acidity amounted to 0.75–0.82 %. The sugar-acid ratio was found to be within the range of 9.50–14.99 RU. The best varieties in terms of the content of extractive substances in fruits were ‘Abbott’ and ‘Bruno’. A high ascorbic acid content of 148–171 mg/100 g was observed in ‘Hayward’, ‘Abbott’, and ‘Bruno’ varieties, while a low content of 119.50–125.50 mg/100 g was noted in ‘Monty’ and ‘Allison’ as compared to other varieties. The quantitative content of dry matter was found to be within 15.04–16.00 %, which indicates good transportability, storability, and shelf life of kiwifruit as long as the necessary rules are followed.
Climate change, a pressing global concern, poses significant challenges to agricultural systems worldwide. Among the myriad impacts of climate change, the cultivation of kiwifruit trees (Actinidia spp.) faces multifaceted challenges. In this review, we delve into the intricate effects of climate change on kiwifruit production, which span phenological shifts, distributional changes, physiological responses, and ecological interactions. Understanding these complexities is crucial for devising effective adaptation and mitigation strategies to safeguard kiwifruit production amidst climate variability. This review scrutinizes the influence of rising global temperatures, altered precipitation patterns, and a heightened frequency of extreme weather events on the regions where kiwifruits are cultivated. Additionally, it delves into the ramifications of changing climatic conditions on kiwifruit tree physiology, phenology, and susceptibility to pests and diseases. The economic and social repercussions of climate change on kiwifruit production, including yield losses, livelihood impacts, and market dynamics, are thoroughly examined. In response to these challenges, this review proposes tailored adaptation and mitigation strategies for kiwifruit cultivation. This includes breeding climate-resilient kiwifruit cultivars of the Actinidia species that could withstand drought and high temperatures. Additional measures would involve implementing sustainable farming practices like irrigation, mulching, rain shelters, and shade management, as well as conserving soil and water resources. Through an examination of the literature, this review showcases the existing innovative approaches for climate change adaptation in kiwifruit farming. It concludes with recommendations for future research directions aimed at promoting the sustainability and resilience of fruit production, particularly in the context of kiwifruit cultivation, amid a changing climate.
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