Biochemical characteristics of some varieties of peach and nectarine grown in Sochi

Biochemical characteristics and features of the most promising varieties of stone fruit crops (peach, nectarine) submitted for research have been shown. Biochemical analyzes of peach and nectarine fruits grown in the humid subtropics of Russia were carried out in 2019-2020 at the Subtropical Scientific Center of the Russian Academy of Sciences in the Laboratory of Plant physiology and Biochemistry. The following varieties were used for biochemical analyzes: Rannyaya zarya, Larisa (control one), Osenniy rymyanets, Anton Chekhov, Big Top, Nectarine Sklor. The content of biologically valuable substances in stone fruits, which determine not only their taste characteristics, but also their nutritional and therapeutic and prophylactic effects, is a criterion for high commercial quality of products. That is why we are faced with the task of assessing the chemical composition of peaches and nectarines, which directly depends on weather and climate conditions, varietal characteristics, place of growth, etc. It is known that the pulp of peaches and nectarines contains a large amount of sugars, organic acids (mainly malic), vitamins, enzymes, macro- and microelements. In assessing the taste qualities of peaches and nectarines, the content of sugars, acids and vitamin C (or ascorbic acid), which acts as an antioxidant, is of great importance. Biochemical analysis of peach and nectarine fruits revealed the maximum sugar content - 10.16% in the Larisa variety (control one) of mid-late ripening period, the minimum in the Rannyaya Zarya variety of early ripening period, which is significantly lower by 1.3 times compared to the control one. High vitamin C content in the Larisa variety fruits was noted - up to 16.56 mg%, which is significantly higher than other studied varieties by 2.60-5.19 mg%. Promising varieties Larisa and Anton Chekhov were distinguished by a balanced taste of fruits and resistance to abiotic factors of the environment of the Black Sea coast of Russia.

1. Smagin N.E., Abilfazova Yu.S. Characteristics of peach varieties for import substitution in the humid subtropics of Russia. Bulletin of Russian agricultural science. 2016; 5: 57-59. (In Russ.)

2. Shaitan I.M., Chuprina L.M., Anpilogova V.A. Biological features and cultivation of peach, apricot and cherry plum. Kyiv: Naukova Dumka; 1989: 6-154. (In Russ.)

3. Smagin N.E., Abilfazova Yu.S. Continuous conveyor of peach fruit ripening. Bulletin of Russian agricultural science. 2015; 6: 49-51. (In Russ.)

4. Abilfazova Yu.S. Biochemical composition of peach fruits in the subtropics of Russia. Horticulture and viticulture. 2021; 2: 19-23. (In Russ.)

5. Abilfazova Yu.S. Biochemical evaluation of peach fruits in the conditions of the Black Sea coast of Krasnodar Territory. New technologies. 2017; 3: 64-68. (In Russ.)

6. Program and methods of variety testing of fruit, berry and nut crops / edited by E.N. Orel: VNIISPK; 1999. (In Russ.)

7. Methods of biochemical analysis of plants. Kyiv: Naukova Dumka; 1976: 39-178. (In Russ.)

8. Voznesensky V.L., Gorbacheva G.I., Shtalko T.P. Determination of sugars by decolorization of Felling's liquid. Plant physiology. 1962; 9(2): 255-257. (In Russ.)

9. Methodology of State variety testing of agricultural crops / edited by M.A. Fedin. M.; 1985. (In Russ.)

10. Eremin G.A. Breeding improvement of peach and nectarine in the Krasnodar Territory. Scientific journal of KubSAU. 2010; 63(09). (In Russ.)

11. Pavel A.R. Content of ascorbic acid and features of its accumulation in fruits of scab-immune apple varieties bred by VNIISPK. Modern gardening. 2012; 1: 1-6. (In Russ.)

12. Abilfazova Yu.S. Dynamics of vitamin C accumulation in peach fruits in the subtropics of Russia. Breeding, seed production and technology of fruit and berry crops and potatoes: collection of scientific papers of the II International distance conference “Topical issues of horticulture and potato growing”. Vol. XXI. Chelyabinsk: YUNIISK; 2019: 15-21. (In Russ.)

13. Abilfazova Yu.S. Fruit quality assessment of different peach cultivars under Sochi conditions. Subtropical and ornamental gardening. 2018; 67: 137-141. (In Russ.)

14. Andreotti C., Ravaglia D., Ragaini A. et al. Phenolic compounds in peach (Prunus pérsica) cultivars at harvest and during fruit maturation. Ann. Appl. Biol. 2008; 153: 11-23. (In Eng.)

15. Barbosa W., Bettiol Neto J.E., Campo-Dall1orto F.A. et al. Dallorto Pessego e Nectarina. In: Donadio, L.C. (Org.). História da Fruticultura Paulista. Jaboticabal: Sociedade Brasileira de Fruticultura. 2010: 285302.

16. Bellini E, Giordani E, Perria R et al. Leaf curl in peach: new resistant genotypes and molecular markers. Acta Hortic. 2002; 592:649-653.

17. Belous O., Abilphazova Yu. Chapter 4. Peach Culture in the Humid Subtropics of Russia: A Biochemical Aspect. In book: Prunus persica: Production, Nutritional Properties and Health Effects (Agricultural Research Updates). Nova Science Publishers, Inc., USA. 2021: 234-240.

18. Cain D.W., Kidley J.D., Nevvall W.C. Fruit survival of peach and nectarines following late spring freezes during two years. Fruit Varieties Journal. 1984; 38(4): 136-139.