Ecological Aspects of the Comparative Study of Cornus mas L. Genotypes According to Morphological Characteristics of the Fruits, the Content of Functional Groups of Biochemical Substances and Suitability for Healthy Food Production

Moskalets, Tetiana; Bordiug, Natalia; Pеlеkhаtyi, Vadym; Ishchuk, Oksana; Svitelskyi, Mykola

doi:10.12912/27197050/183635

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Artykuł - szczegóły

Czasopismo

Ecological Engineering & Environmental Technology

2024 | Vol. 25, iss. 4 | 158--171

Tytuł artykułu

Ecological Aspects of the Comparative Study of Cornus mas L. Genotypes According to Morphological Characteristics of the Fruits, the Content of Functional Groups of Biochemical Substances and Suitability for Healthy Food Production

Autorzy

Moskalets, Tetiana , Bordiug, Natalia , Pеlеkhаtyi, Vadym , Ishchuk, Oksana , Svitelskyi, Mykola

Treść / Zawartość

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Warianty tytułu

Języki publikacji

Abstrakty

The relevance of the research lies in constant desire to increase the possibilities of using dogwood, in the system of fruit horticulture. The methodological basis for conducting research include the method of carrying out an examination of suitability of fruit and berry group varieties for spreading in Ukraine, the method of assessing the quality of fruit and berry products as well as the state standards of Ukraine for determining the quality of fruits. The original data on the morphology plants and biochemical properties of the fruits of different dogwood varieties selected by Ukrainian scientists have been presented. Attention was focused on the content of dry soluble substances, sugars, pectin substances, organic acids, and polyphenolic substances as a source of antioxidants. It was found that the content of dry soluble substances in the fruits of the Stoyan form is at the level of the Olena and Radist varieties, about 18.5%. The Hrafskyi dogwood fruits are characterized by a low content of titrated acids, which results in a balanced taste considering the sugar-acid index (SAI, 5.5). The Hrafskyi form is distinguished by the increased content of pectin substances in the fruits. It has been studied that the form of Stoyan (F-32-5-18) contains the highest amount of polyphenolic substances (944 mg/100 g), while Vydubytskyi contains 274, Vyshgorodskyi – 327, Radist – 375 mg/100 g. The content of polyphenolic substances in the fruits of the Hrafskyi form is 483 mg/100 g, which is almost on a par with the Volodymyrskyi and Lukyanivskyi varieties. The Stoyan and Hrafskyi forms have the highest content of flavonoids - 107.5±4.4 and 102.5±2.0 mg/100 g. It was found that the fruits of the Hrafskyi form have an above average content of anthocyanins (52.83±1.92 mg/100 g), compared to other varieties. The originality of the study lies in the fact that the knowledge about the morphological characteristics of plants and the biochemical characteristics of the common dogwood fruits, developed by Ukrainian scientists, was expanded. On the basis of the research results, the best varieties were selected, the fruits of which are suitable for developing technologies for the production of blended syrups for a healthy diet.

Słowa kluczowe

Cornelian Cherry ecological characteristics biochemistry of fruits ready-made health products

Wydawca

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2024

Tom

Vol. 25, iss. 4

Strony

158--171

Opis fizyczny

Bibliogr. 34 poz., rys., tab.

Twórcy

autor

Moskalets, Tetiana

Institute of Horticulture of the National Academy of Agrarian Sciences of Ukraine, 03027, 23 Sadova Str., Novosilky, Ukraine, moskalets7819@ukr.net

autor

Bordiug, Natalia

Municipal Extracurricular Education Institution, Regional Ecological and Naturalistic Center of the Zhytomyr Regional Council, 10024, 10 Academician Tutkovskyi Passage, Zhytomyr, Ukraine, natali-21@ukr.net

autor

Pеlеkhаtyi, Vadym

Polissia National University, 10002, 7 Staryi Blvd., Zhytomyr, Ukraine

autor

Ishchuk, Oksana

Polissia National University, 10002, 7 Staryi Blvd., Zhytomyr, Ukraine

autor

Svitelskyi, Mykola

Polissia National University, 10002, 7 Staryi Blvd., Zhytomyr, Ukraine

Bibliografia

1. Adamenko K., Kawa-Rygielska J., Kucharska A., Piórecki N. 2019. Fruit Low Alcoholic Beverages with High Contents of Iridoids and Phenolics from Apple and Cornelian cherry (Cornus mas L.) Fermented with Saccharomyces bayanus. Polska Journal Food Nutrition Science, 69(3), 307–317.
2. Andersen J. 2023. Improvement of Caciotta-like cheese nutritional value by means of 587 enrichment with blackcurrant (Ribes nigrum) and Cornelian cherry (Cornus mas L.). 588 Frontiers in Nutrition, 9. doi: 10.3389/fnut.2022.1023490
3. Bayram H.M., Ozturkcan S.A. 2020. Bioactive components and biological properties of cornelian cherry (Cornus mas L.): A comprehensive review. Journal of Functional Foods, 75(3), 104252.
4. Brooks А. 2020. Superfoods and the Scientific Reasons to Eat Them. Diet & Nutrition. Medically Reviewed by Lynn Grieger, RDN, CDCES.
5. Diaconeasa Z., Știrbu I., Xiao J.,Nicolae L.,Ayvaz Z., Danciu C., Ayvaz H., Stǎnilǎ A., Nistor M., Socaciu C. 2020. Anthocyanins, vibrant color pigments, and the irroleinsk in cancer prevention. Biomedicines, 8(9), 336.
6. Dokoupil L., Řezníček V. 2023. Production and use of the Cornelian cherry-Cornusmas L. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 60(8), 49–58.
7. Dumitrașcu L., Stănciuc N., Aprodu I. 2021. Encapsulation of Anthocyanins from Cornelian Cherry fruits using heated or non-heated soy proteins. Foods, 10(6), 1342.
8. FAO. 2021. Fruit and vegetables–your dietary essentials. The International Year of Fruits and Vegetables, 2021, background paper. Food Agric Org Rome.
9. Haghani S., Hadidi M., Pouramin S., Adinepour F., Hasiri Z., Moreno A., Lorenzo J.M. 2021. Application of Cornelian Cherry (Cornus mas L.) peel in probiotic ice cream: functionality and viability during storage. Antioxidants, 10(11), 1777.
10. Harris J., Zonneveld M. van., Achigan-Dako E.G., Bajwa B., Brouwer I.D., Choudhury D., Jager I.de., Piters B.de S., Dulloo M.E., Guarino L., Kindt R., Mayes S., McMullin S., Quintero M., Schreinemachers P. 2022. Fruit and vegetable biodiversity for nutritionally diverse diets: Challenges, opportunities, and knowledge gaps. Global Food Security, 33, 100618.
11. Kalmpourtzidou A., Eilander A., Talsma E.F. 2020. Global vegetable intake and supply compared to recommendations: a systematic review. Nutrients, 12(6), 1558.
12. Kazimierski M., Regula J., Molska M. 2019. Cornelian cherry (Cornus mas L.) – characteristics, nutritional and pro-health properties. Acta Scientiarum Polonorum, Technologia Alimentaria, 18(1), 5–12.
13. Klymenko S., Kucharska A.Z., Sokół-Łętowska A., Piórecki N., Przybylska D., Grygorieva O. 2021. Iridoids, flavonoids, and antioxidant capacity of Cornus mas, C. officinalis, and C. mas × C. officinalis Fruits. Biomolecules, 11(6), 776.
14. Klymenko S., Ilyinska A. 2023. The new earliest cultivar of cornelian cherry (Cornus mas L.). Plant Introduction, (97/98), 46–60.
15. Kondratenko P.V., Shevchuk L.M., Levchuk L.M. 2008. Methods of evaluating the quality of fruit and berry products. K.: SPD „Zhitelev S.I”, 79 p.
16. Lewandowski Ł., Bednarz-Misa І., Kucharska A.Z., Kubiak A., Kasprzyk P., Sozański T., Przybylska D., Piórecki N., Krzystek-Korpacka M. 2022. Cornelian Cherry (Cornus mas L.) Extracts exert cytotoxicity in two selected melanoma cell lines – a factorial analysis of time-dependent alterations in values obtained with SRB and MTT assays. Molecules, 27(13), 4193.
17. Liu Z., Liu Y., Man S., Guo L., Li X., Gao W. 2023. Functional factors, nutritional value and development strategies of cornus: A review. Trends in Food Science & Technology, 139, 104121.
18. Lytovchenko O.M. et al. 2022. Scientific methodical and practical innovations of the Institute of Horticulture NAAS of Ukraine on making healthy nutritional products from the fruits of Viburnum, Dewberry, Cornelian cherry and wild plum tree. Horticulture, 77, 146–162.
19. Mardani H.R., Abdizadeh R., Lori gooini Z., Khalili B. 2020. A study on the effect of hydroalcholic extracts of Cornus mas on Leishmania major in vitro condition and wounds in Balb/C mice. Journal of Medicinal Plants, 19(74), 239.
20. McMullin S., Njogu K., Wekesa B., Gachuiri А., Ngethe Е., Stadlmayr В., Jamnadass R., Kehlenbeck К. 2019. Show developing fruit tree portfolios that link agriculture more effectively with nutrition and health: a new approach for providing year-round micronutrients to smallholder farmers. Food Security, 11, 1355–1372.
21. Lytovchenko O.M., Hrynyk I.V., Moskalets T. Z. et al. 2021. Methodical recommendations for manufacturing products healthy nutrition from the fruits of viburnum, blackberry, cornel, thorn. Kyiv: LLC “Тsentr uchbovoyi literatury”, 160 p.
22. Migicovsky Z., Amyotte B., Ulrich J., Smith T.W., Turner N.J., Pico J., Ciotir C., Sharifi M., Meldrum G., Stormes B., Moreau T. 2022. Berries as a case study for crop wild relative conservation, use, and public engagement in Canada. Plants, People, Planet, 4(6), 558–578.
23. Moskalets T.Z., et al. 2019. Modern breeding and cultivation of unpopular fruits and berries in Ukraine. Ukrainian Journal of Ecology, 9(3), 180–188.
24. Odžaković B., Bodroža D., Kukrić Z., Topalić-Trivunović L., Savić A., Sailović P. 2022. Nutritive composition and functionality of wild cornelian cherry fruit. Journal of Food Processing and Preservation, 46(10), 15832.
25. Popović-Djordjević J.B., Fotiric Aksic M., Katanić Stanković J.S., Pantelić N., Mihailović V. 2022. Wild-growing species in the service of medicine: environmental challenges and sustainable production. Іn book: Environmental challenges and medicinal plants, sustainable production solutions under adverse conditions, 49–104.
26. Postolenko Ye. 2020. Cornelian Cherry - culture for organic gardening. Journal “Yaghidnyk”.
27. Radbeh Z., Asefi N., Hamishehkar H., Roufegarinejad L., Pezeshki A. 2020. Novel carriers ensuring enhanced anti-cancer activity of Cornus mas (cornelian cherry) bioactive compounds. Biomedicine Pharmacotherapie, 125, 109906.
28. Savaş E., Tavşanlı H., Çatalkaya G., Çapanoğlu E., Tamer C.E. 2020. The antimicrobial and antioxidant properties of garagurt: traditional Cornelian cherry (Cornus mas L.) marmalade. Quality Assurance and Safety of Crops and Foods, 12(2), 1–12.
29. Şengül M., Ünver H., Topdas E.F., Akbulut M., Coklar H., Yilmaz B. 2022. Evaluation of antioxidant properties, phenolic and aromatic profiles of Cornelian Cherry pestils prepared with sucrose and stevia addition. Journal of Food Processing and Preservation, 46(2), 6–8.
30. Sik B., Takács A.-M., Székelyhidi R., Lakatos E., Ajtony Z. 2023. Optimization of the extraction process of antioxidant compounds from Cornelian Cherry (Cornus mas L.) by using natural deep eutectic solvents. Available at SSRN.
31. Skender A., Hadžiabulić S., Ercisli S., Hasanbegović J., Dedić S., Almeer R., Sayed A.A., Ullah R., Assouguem A. 2022. Morphological and biochemical properties in fruits of naturally grown Cornelian Cherry (Cornus mas L.) Genotypes in Northwest Bosnia and Herzegovina. Sustainability, 14, 4579.
32. Süntar I., Cevik C.K., Çeribaşı A.O., Gökbulut A. 2020. Healing effects of Cornus mas L. in experimentally induced ulcerative colitis in rats: From ethnobotany to pharmacology. Journal of Ethnopharmacology, 248, 112322.
33. Szot I., Łysiak G.P. 2022. Effect of the Climatic Conditions in Central Europe on the Growth and Yield of Cornelian Cherry Cultivars. Agriculture, 12(9), 1295.
34. Tenuta M.C., Deguin B., Loizzo M.R., Cuyamendous C., Bonesi M., Sicari V., Trabalzini L., Mitaine-Offer A.-C., Xiao J., Tundis R. 2022. An overview of traditional uses, phytochemical compositions and biological activities of edible fruits of European and Asian cornus species. Foods, 11(9), 1240.

Typ dokumentu

Bibliografia

Identyfikatory

DOI

10.12912/27197050/183635

Identyfikator YADDA

bwmeta1.element.baztech-900e6b97-e4b8-404c-9747-84a0f790ae27