Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.

Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.

Glucose can act as a bioregulator in plants, due to influencing physiological and metabolic processes. This investigation aimed to analyses how the application of glucose impacts the photosynthetic rate, growth, and concentration of bioactive compounds with antioxidant potential in beet. The curren...

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Main Authors: João Vitor Melquiades da Silveira, Erich Cristian Pereira dos Santos, Lucas Pereira dos Santos, Carla Francisco de Freitas, Rodolfo Fioruci de Arruda, Robson Henrique Pedroso Garcia, Pedro Henrique Gorni
Format: Article
Language:English
Published: Firenze University Press 2025-05-01
Series:Advances in Horticultural Science
Subjects:
Antioxidant activity
elicitation
glucose
leaf pigments
phenolic compounds
secondary metabolism
Online Access:https://oaj.fupress.net/index.php/ahs/article/view/16755
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author João Vitor Melquiades da Silveira
Erich Cristian Pereira dos Santos
Lucas Pereira dos Santos
Carla Francisco de Freitas
Rodolfo Fioruci de Arruda
Robson Henrique Pedroso Garcia
Pedro Henrique Gorni
author_facet João Vitor Melquiades da Silveira
Erich Cristian Pereira dos Santos
Lucas Pereira dos Santos
Carla Francisco de Freitas
Rodolfo Fioruci de Arruda
Robson Henrique Pedroso Garcia
Pedro Henrique Gorni
author_sort João Vitor Melquiades da Silveira
collection DOAJ
description Glucose can act as a bioregulator in plants, due to influencing physiological and metabolic processes. This investigation aimed to analyses how the application of glucose impacts the photosynthetic rate, growth, and concentration of bioactive compounds with antioxidant potential in beet. The current investigation evaluated the effect of glucose (0, 5, 10, 20, and 30 mmol L-1) on beet plants 10 days after transplantation. Glucose elicitation in beet plants increases levels of bioactive compounds, resulting in higher antioxidant potential. In addition to antioxidant benefits, glucose also plays a hormonal role, leading to increases in biomass. These effects are correlated with enhanced photosynthetic efficiency, elevated carbohydrate concentrations, and positive modulation of the plant antioxidant system.
format Article
id doaj-art-e46ef71ad7c04cf687d8b6a00bf9c7e4
institution OA Journals
issn 0394-6169
1592-1573
language English
publishDate 2025-05-01
publisher Firenze University Press
record_format Article
series Advances in Horticultural Science
spelling doaj-art-e46ef71ad7c04cf687d8b6a00bf9c7e42025-08-20T02:03:04ZengFirenze University PressAdvances in Horticultural Science0394-61691592-15732025-05-0139110.36253/ahsc-16755Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.João Vitor Melquiades da Silveira0Erich Cristian Pereira dos Santos1Lucas Pereira dos Santos2Carla Francisco de Freitas3Rodolfo Fioruci de Arruda4Robson Henrique Pedroso Garcia5Pedro Henrique Gorni6Department of Agronomy, Escola Superior de Agronomia de Paraguaçu Paulista (ESAPP), 19700-000 Paraguaçu Paulista, SP, Brazil.Department of Agronomy, Escola Superior de Agronomia de Paraguaçu Paulista (ESAPP), 19700-000 Paraguaçu Paulista, SP, Brazil.Department of Agronomy, Escola Superior de Agronomia de Paraguaçu Paulista (ESAPP), 19700-000 Paraguaçu Paulista, SP, Brazil.Department of Agronomy, Escola Superior de Agronomia de Paraguaçu Paulista (ESAPP), 19700-000 Paraguaçu Paulista, SP, Brazil.Department of Agronomy, Escola Superior de Agronomia de Paraguaçu Paulista (ESAPP), 19700-000 Paraguaçu Paulista, SP, Brazil.Department of Agronomy, Escola Superior de Agronomia de Paraguaçu Paulista (ESAPP), 19700-000 Paraguaçu Paulista, SP, Brazil.Department of Agronomy, Escola Superior de Agronomia de Paraguaçu Paulista (ESAPP), 19700-000 Paraguaçu Paulista, SP, Brazil. Glucose can act as a bioregulator in plants, due to influencing physiological and metabolic processes. This investigation aimed to analyses how the application of glucose impacts the photosynthetic rate, growth, and concentration of bioactive compounds with antioxidant potential in beet. The current investigation evaluated the effect of glucose (0, 5, 10, 20, and 30 mmol L-1) on beet plants 10 days after transplantation. Glucose elicitation in beet plants increases levels of bioactive compounds, resulting in higher antioxidant potential. In addition to antioxidant benefits, glucose also plays a hormonal role, leading to increases in biomass. These effects are correlated with enhanced photosynthetic efficiency, elevated carbohydrate concentrations, and positive modulation of the plant antioxidant system. https://oaj.fupress.net/index.php/ahs/article/view/16755Antioxidant activityelicitationglucoseleaf pigmentsphenolic compoundssecondary metabolism
spellingShingle João Vitor Melquiades da Silveira
Erich Cristian Pereira dos Santos
Lucas Pereira dos Santos
Carla Francisco de Freitas
Rodolfo Fioruci de Arruda
Robson Henrique Pedroso Garcia
Pedro Henrique Gorni
Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.
Advances in Horticultural Science
Antioxidant activity
elicitation
glucose
leaf pigments
phenolic compounds
secondary metabolism
title Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.
title_full Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.
title_fullStr Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.
title_full_unstemmed Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.
title_short Glucose exogenous increases biochemical and physiological responses in Beta vulgaris L.
title_sort glucose exogenous increases biochemical and physiological responses in beta vulgaris l
topic Antioxidant activity
elicitation
glucose
leaf pigments
phenolic compounds
secondary metabolism
url https://oaj.fupress.net/index.php/ahs/article/view/16755
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AT erichcristianpereiradossantos glucoseexogenousincreasesbiochemicalandphysiologicalresponsesinbetavulgarisl
AT lucaspereiradossantos glucoseexogenousincreasesbiochemicalandphysiologicalresponsesinbetavulgarisl
AT carlafranciscodefreitas glucoseexogenousincreasesbiochemicalandphysiologicalresponsesinbetavulgarisl
AT rodolfofiorucidearruda glucoseexogenousincreasesbiochemicalandphysiologicalresponsesinbetavulgarisl
AT robsonhenriquepedrosogarcia glucoseexogenousincreasesbiochemicalandphysiologicalresponsesinbetavulgarisl
AT pedrohenriquegorni glucoseexogenousincreasesbiochemicalandphysiologicalresponsesinbetavulgarisl

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