Chemical composition of bird cherry fruits in the Northwestern region of Russia

Chemical composition of bird cherry fruits in the Northwestern region of Russia

Background. Among stone fruit plants, a special place belongs to bird cherry (Padus Mill.). As a food plant, it has found use in areas with harsh climate conditions. Since the breeding of bird cherry cultivars for food purposes continues to develop, there is a need to know the chemical composition o...

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Main Authors: S. Yu. Orlova, A. A. Yushev, T. V. Shelenga
Format: Article
Language:English
Published: N.I. Vavilov All-Russian Institute of Plant Genetic Resources 2020-06-01
Series:Труды по прикладной ботанике, генетике и селекции
Subjects:
accession
soluble solid content (ssc)
sugars
sugar/acid ratio (sar)
organic acids
ascorbic acid
Online Access:https://elpub.vir.nw.ru/jour/article/view/628
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spelling doaj-288fcc6ef3464e03be47ef21e07bc5132021-07-05T03:33:09ZengN.I. Vavilov All-Russian Institute of Plant Genetic ResourcesТруды по прикладной ботанике, генетике и селекции2227-88342619-09822020-06-011812657210.30901/2227-8834-2020-2-65-72433Chemical composition of bird cherry fruits in the Northwestern region of RussiaS. Yu. Orlova0A. A. Yushev1T. V. Shelenga2N.I. Vavilov All-Russian Institute of Plant Genetic ResourcesN.I. Vavilov All-Russian Institute of Plant Genetic ResourcesN.I. Vavilov All-Russian Institute of Plant Genetic ResourcesBackground. Among stone fruit plants, a special place belongs to bird cherry (Padus Mill.). As a food plant, it has found use in areas with harsh climate conditions. Since the breeding of bird cherry cultivars for food purposes continues to develop, there is a need to know the chemical composition of its fruits. The aim of this research was to study bird cherry in the environments of the Russian Northwest and isolate genotypes with an optimal biochemical composition for subsequent use.Materials and methods. Fruit composition in 21 accessions from the bird cherry collection was analyzed in 2009 and 2011–2013 at the Biochemistry and Molecular Biology Laboratory of the N.I. Vavilov All-Russian Institute of Plant Genetic Resources (VIR). Biochemical studies were performed using the methods adopted at VIR. Statistical processing of the data obtained was made using the Microsoft Excel software package.Results. The best genotypes were selected for each chemical component: for increased soluble solid content (SSC), accessions of Group I ‘Nevesta’ (29.63%), 1-1-8 (30.35), ‘Carpaty 5’ (30.87), ‘Chaika’ (33.9); for accumulation of sugars, ‘Granatovaya grozd’ (Group III; 12.13%), 1-1-8 (Gr. I; 12.5), ‘Pamyati Salamatova’ (Gr. IV; 12.8); for low acid content, ‘Sibirskaya krasavitsa’ (Gr. II; 1.03%), 1-1-8 (Gr. I; 1.14) ‘Granatovaya grozd’ (Gr. III; 1.17), ‘Zelenoplodnaya’ (Gr. I; 1.21), ‘Pozdnyaya radost’ (Gr. III; 1.25); for high content of ascorbic acid, 1-1-8 (Gr. I; 19.1 mg/100 g), ‘Sakhalinskaya chernaya’ (Gr. I; 19.35) ‘Rannyaya kruglaya’ (Gr. IV; 20.65), ‘Krasny shater’ (Gr. II; 21.23); for triterpene (ursolic, oleanolic) acids, ‘Cherny blesk’ (Gr. IV; 0.045%) and ‘Atica’ (Gr. I; 0.056).Conclusion. Significant differences were found in SSC between accessions of Groups I (P. avium) and II (P. avium × P. virginiana); and in the sugar/acid ratio (SAR), between I (P. avium) and IV (seedlings of cv. ‘Pamyati Salamatova’); II (P. avium × P. virginiana) and III (P. virginiana × P. avium); III (P. virginiana × P. avium) and IV (seedlings of cv. ‘Pamyati Sala matova’).https://elpub.vir.nw.ru/jour/article/view/628accessionsoluble solid content (ssc)sugarssugar/acid ratio (sar)organic acidsascorbic acid
collection DOAJ
language English
format Article
sources DOAJ
author S. Yu. Orlova
A. A. Yushev
T. V. Shelenga
spellingShingle S. Yu. Orlova
A. A. Yushev
T. V. Shelenga
Chemical composition of bird cherry fruits in the Northwestern region of Russia
Труды по прикладной ботанике, генетике и селекции
accession
soluble solid content (ssc)
sugars
sugar/acid ratio (sar)
organic acids
ascorbic acid
author_facet S. Yu. Orlova
A. A. Yushev
T. V. Shelenga
author_sort S. Yu. Orlova
title Chemical composition of bird cherry fruits in the Northwestern region of Russia
title_short Chemical composition of bird cherry fruits in the Northwestern region of Russia
title_full Chemical composition of bird cherry fruits in the Northwestern region of Russia
title_fullStr Chemical composition of bird cherry fruits in the Northwestern region of Russia
title_full_unstemmed Chemical composition of bird cherry fruits in the Northwestern region of Russia
title_sort chemical composition of bird cherry fruits in the northwestern region of russia
publisher N.I. Vavilov All-Russian Institute of Plant Genetic Resources
series Труды по прикладной ботанике, генетике и селекции
issn 2227-8834
2619-0982
publishDate 2020-06-01
description Background. Among stone fruit plants, a special place belongs to bird cherry (Padus Mill.). As a food plant, it has found use in areas with harsh climate conditions. Since the breeding of bird cherry cultivars for food purposes continues to develop, there is a need to know the chemical composition of its fruits. The aim of this research was to study bird cherry in the environments of the Russian Northwest and isolate genotypes with an optimal biochemical composition for subsequent use.Materials and methods. Fruit composition in 21 accessions from the bird cherry collection was analyzed in 2009 and 2011–2013 at the Biochemistry and Molecular Biology Laboratory of the N.I. Vavilov All-Russian Institute of Plant Genetic Resources (VIR). Biochemical studies were performed using the methods adopted at VIR. Statistical processing of the data obtained was made using the Microsoft Excel software package.Results. The best genotypes were selected for each chemical component: for increased soluble solid content (SSC), accessions of Group I ‘Nevesta’ (29.63%), 1-1-8 (30.35), ‘Carpaty 5’ (30.87), ‘Chaika’ (33.9); for accumulation of sugars, ‘Granatovaya grozd’ (Group III; 12.13%), 1-1-8 (Gr. I; 12.5), ‘Pamyati Salamatova’ (Gr. IV; 12.8); for low acid content, ‘Sibirskaya krasavitsa’ (Gr. II; 1.03%), 1-1-8 (Gr. I; 1.14) ‘Granatovaya grozd’ (Gr. III; 1.17), ‘Zelenoplodnaya’ (Gr. I; 1.21), ‘Pozdnyaya radost’ (Gr. III; 1.25); for high content of ascorbic acid, 1-1-8 (Gr. I; 19.1 mg/100 g), ‘Sakhalinskaya chernaya’ (Gr. I; 19.35) ‘Rannyaya kruglaya’ (Gr. IV; 20.65), ‘Krasny shater’ (Gr. II; 21.23); for triterpene (ursolic, oleanolic) acids, ‘Cherny blesk’ (Gr. IV; 0.045%) and ‘Atica’ (Gr. I; 0.056).Conclusion. Significant differences were found in SSC between accessions of Groups I (P. avium) and II (P. avium × P. virginiana); and in the sugar/acid ratio (SAR), between I (P. avium) and IV (seedlings of cv. ‘Pamyati Salamatova’); II (P. avium × P. virginiana) and III (P. virginiana × P. avium); III (P. virginiana × P. avium) and IV (seedlings of cv. ‘Pamyati Sala matova’).
topic accession
soluble solid content (ssc)
sugars
sugar/acid ratio (sar)
organic acids
ascorbic acid
url https://elpub.vir.nw.ru/jour/article/view/628
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AT aayushev chemicalcompositionofbirdcherryfruitsinthenorthwesternregionofrussia
AT tvshelenga chemicalcompositionofbirdcherryfruitsinthenorthwesternregionofrussia
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