Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.

Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.

Abstract: The yerba mate leaf metabolic composition depends mainly on genetics, sex, plant and leaf age, light intensity, harvest time, climate, and fertilization. In yerba mate, the secondary sexual dimorphism (SSD), the leaf metabolic SSD association with the frequency of leaf harvests, and the stability of the metabolites in the two genders over the years is not known. It was hypothesized that (1) the SSD in the metabolite segregation would differ among the winter and summer growth pauses, (2) females would show lower metabolite concentrations, and (3) the metabolic concentrations would show stability over the years on the same plants, not obligatorily associated with the SSD stability expression. Variations in theobromine, caffeine, chlorogenic and caffeic acids were correlated to the increasing time since the previous harvest, especially in females. However, the frequency of the metabolic SSD were associated with the studied growth pauses, rejecting the first hypothesis. No regular gender superiority was expressed in the yerba mate leaf secondary metabolites, rejecting our second hypothesis, even though more cases of superior female metabolite accumulation were identified. The stability of the leaf protein was preserved over the four years, with no SSD cases observed. The leaf methylxanthines were time stable, while the decrease in the phenolic content occurred with tree aging, which was not associated with the SSD expression, partially proving our third hypothesis. The novelty was related to the time stability of the leaf metabolic SSD observed over the winter and summer growth pauses, and over the four consecutive years without a regular expression of the male- or female-biased concentrations in the studied metabolites. To demystify the random metabolic gender responses in yerba mate, gender-orientated experiments with a high number of tree repetitions must be conducted, including clonal plants grown in various environments, such as monoculture and agroforestry, or on plantations in different climates and altitudes.

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Main Authors: RAKOCEVIC, M., MAIA, A. de H. N., LIZ, M. V. de, IMOSKI, R., HELM, C. V., CARDOZO JUNIOR, E. L., WENDLING, I.
Other Authors: MIROSLAVA RAKOCEVIC
Format: Artigo de periódico biblioteca
Language:Ingles
English
Published: 2023-07-17
Subjects:Mate, Cafeína, Fenol, Teobromina, Yerba mate, Caffeic acid, Caffeine, Chlorogenic acid, Plant proteins, Theobromine,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1154965
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spelling dig-alice-doc-11549652023-07-17T14:27:55Z Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism. RAKOCEVIC, M. MAIA, A. de H. N. LIZ, M. V. de IMOSKI, R. HELM, C. V. CARDOZO JUNIOR, E. L. WENDLING, I. MIROSLAVA RAKOCEVIC ALINE DE HOLANDA NUNES MAIA, CNPMA MARCUS VINICIUS DE LIZ, UNIVERSIDADE TECNOLÓGICA FEDERAL DO PARANÁ RAFAELA IMOSKI, UNIVERSIDADE TECNOLÓGICA FEDERAL DO PARANÁ CRISTIANE VIEIRA HELM, CNPF EUCLIDES LARA CARDOZO JUNIOR, UNIVERSIDADE PARANAENSE. Mate Cafeína Fenol Teobromina Yerba mate Caffeic acid Caffeine Chlorogenic acid Plant proteins Theobromine Abstract: The yerba mate leaf metabolic composition depends mainly on genetics, sex, plant and leaf age, light intensity, harvest time, climate, and fertilization. In yerba mate, the secondary sexual dimorphism (SSD), the leaf metabolic SSD association with the frequency of leaf harvests, and the stability of the metabolites in the two genders over the years is not known. It was hypothesized that (1) the SSD in the metabolite segregation would differ among the winter and summer growth pauses, (2) females would show lower metabolite concentrations, and (3) the metabolic concentrations would show stability over the years on the same plants, not obligatorily associated with the SSD stability expression. Variations in theobromine, caffeine, chlorogenic and caffeic acids were correlated to the increasing time since the previous harvest, especially in females. However, the frequency of the metabolic SSD were associated with the studied growth pauses, rejecting the first hypothesis. No regular gender superiority was expressed in the yerba mate leaf secondary metabolites, rejecting our second hypothesis, even though more cases of superior female metabolite accumulation were identified. The stability of the leaf protein was preserved over the four years, with no SSD cases observed. The leaf methylxanthines were time stable, while the decrease in the phenolic content occurred with tree aging, which was not associated with the SSD expression, partially proving our third hypothesis. The novelty was related to the time stability of the leaf metabolic SSD observed over the winter and summer growth pauses, and over the four consecutive years without a regular expression of the male- or female-biased concentrations in the studied metabolites. To demystify the random metabolic gender responses in yerba mate, gender-orientated experiments with a high number of tree repetitions must be conducted, including clonal plants grown in various environments, such as monoculture and agroforestry, or on plantations in different climates and altitudes. 2023-07-17T14:27:55Z 2023-07-17T14:27:55Z 2023-07-17 2023 Artigo de periódico Plants, v. 12, n. 11, article 2199, 2023. 2223-7747 http://www.alice.cnptia.embrapa.br/alice/handle/doc/1154965 10.3390/plants12112199 Ingles en openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language Ingles
English
topic Mate
Cafeína
Fenol
Teobromina
Yerba mate
Caffeic acid
Caffeine
Chlorogenic acid
Plant proteins
Theobromine
Mate
Cafeína
Fenol
Teobromina
Yerba mate
Caffeic acid
Caffeine
Chlorogenic acid
Plant proteins
Theobromine
spellingShingle Mate
Cafeína
Fenol
Teobromina
Yerba mate
Caffeic acid
Caffeine
Chlorogenic acid
Plant proteins
Theobromine
Mate
Cafeína
Fenol
Teobromina
Yerba mate
Caffeic acid
Caffeine
Chlorogenic acid
Plant proteins
Theobromine
RAKOCEVIC, M.
MAIA, A. de H. N.
LIZ, M. V. de
IMOSKI, R.
HELM, C. V.
CARDOZO JUNIOR, E. L.
WENDLING, I.
Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.
description Abstract: The yerba mate leaf metabolic composition depends mainly on genetics, sex, plant and leaf age, light intensity, harvest time, climate, and fertilization. In yerba mate, the secondary sexual dimorphism (SSD), the leaf metabolic SSD association with the frequency of leaf harvests, and the stability of the metabolites in the two genders over the years is not known. It was hypothesized that (1) the SSD in the metabolite segregation would differ among the winter and summer growth pauses, (2) females would show lower metabolite concentrations, and (3) the metabolic concentrations would show stability over the years on the same plants, not obligatorily associated with the SSD stability expression. Variations in theobromine, caffeine, chlorogenic and caffeic acids were correlated to the increasing time since the previous harvest, especially in females. However, the frequency of the metabolic SSD were associated with the studied growth pauses, rejecting the first hypothesis. No regular gender superiority was expressed in the yerba mate leaf secondary metabolites, rejecting our second hypothesis, even though more cases of superior female metabolite accumulation were identified. The stability of the leaf protein was preserved over the four years, with no SSD cases observed. The leaf methylxanthines were time stable, while the decrease in the phenolic content occurred with tree aging, which was not associated with the SSD expression, partially proving our third hypothesis. The novelty was related to the time stability of the leaf metabolic SSD observed over the winter and summer growth pauses, and over the four consecutive years without a regular expression of the male- or female-biased concentrations in the studied metabolites. To demystify the random metabolic gender responses in yerba mate, gender-orientated experiments with a high number of tree repetitions must be conducted, including clonal plants grown in various environments, such as monoculture and agroforestry, or on plantations in different climates and altitudes.
author2 MIROSLAVA RAKOCEVIC
author_facet MIROSLAVA RAKOCEVIC
RAKOCEVIC, M.
MAIA, A. de H. N.
LIZ, M. V. de
IMOSKI, R.
HELM, C. V.
CARDOZO JUNIOR, E. L.
WENDLING, I.
format Artigo de periódico
topic_facet Mate
Cafeína
Fenol
Teobromina
Yerba mate
Caffeic acid
Caffeine
Chlorogenic acid
Plant proteins
Theobromine
author RAKOCEVIC, M.
MAIA, A. de H. N.
LIZ, M. V. de
IMOSKI, R.
HELM, C. V.
CARDOZO JUNIOR, E. L.
WENDLING, I.
author_sort RAKOCEVIC, M.
title Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.
title_short Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.
title_full Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.
title_fullStr Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.
title_full_unstemmed Stability of leaf yerba mate (Ilex paraguariensis) metabolite concentrations over the time from the prism of secondary Sexual dimorphism.
title_sort stability of leaf yerba mate (ilex paraguariensis) metabolite concentrations over the time from the prism of secondary sexual dimorphism.
publishDate 2023-07-17
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1154965
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