Alterações nas reservas de sementes de Melanoxylon brauna Schott.
(Fabaceae Caesalpinoideae) durante a germinação em diferentes temperaturas

Ataíde, Glauciana da Mata; Borges, Eduardo Euclydes de Lima e; Picoli, Edgard Augusto de Toledo; Filho, Argemiro Teixeira Leite; Flores, Andressa Vasconcelos

doi:10.5039/agraria.v12i3a5454

Cited by 7 publications

(14 citation statements)

References 12 publications

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“…Seed germination occurs only within a minimum and maximum temperature limits, with the ideal value being that at which the maximum germination is obtained the fastest (Bewley et al, 2013;Marcos-Filho, 2015;Correa et al, 2020). Ambient conditions between 20 and 30 °C are indicated for seed germination of several tropical and subtropical forest species (Silva et al, 2016;Ataíde et al, 2017;Benedito et al, 2019). In those circumstances, deterioration reactions due to high temperatures (45 °C) do not take place during germination, thus preventing metabolism changes, cell damages (membrane degradation), and alterations in essential biomolecules, remarkably nucleic acids (DNA deterioration), lipids (lipid peroxidation), and proteins (protein denaturation and enzyme inactivation) (Bewley et al, 2013;Önder et al, 2020).…”

Section: Resultsmentioning

confidence: 99%

“…M. brauna seeds also showed a significant depletion of carbohydrates and proteins in the cotyledons during germination at 25 and 30 °C (Ataíde et al, 2017), while higher temperatures triggered thermal stress and metabolic alterations (Santos et al, 2020). In the process, amylases and other enzymes break the starch within the granules in the cell plastids into smaller units, producing glucose and fructose.…”

Section: Resultsmentioning

confidence: 99%

“…This kind of investigation is particularly important in a scenario of global warming, which might lead to plant extinction due to metabolic changes (Santos et al, 2020). In order to better understand the propagation strategies and mechanisms of these species, research on the physiology and biochemistry of seeds is paramount to elucidate which the main reserve compounds are, and how they are mobilized during the processes of germination and establishment of the seedlings (Ataíde et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Molecular aspects during seed germination of Erythrina velutina Willd. under different temperatures (Part 1): reserve mobilization

et al. 2020

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Erythrina velutina Willd. (Fabaceae) is a tree species that bears social, ecological, and economic importance for northeastern Brazil, a region with frequent temperature variations. The objective of this work was to evaluate the mobilization of reserves during seed germination and seedling establishment of E. velutina at different temperatures, and how these mechanisms are affected in a thermal-stress situation. The seeds germinated at 5, 15, 25, 35, and 45 °C, and the physiological and biochemical aspects of reserve mobilization (starch, lipids, and total proteins) were assessed during seedling establishment. Germination, vigor, and the mobilization of reserves from the cotyledons to the embryonic axis are affected according to the incubation temperature. The temperature of 25 °C favors the mobilization of reserves during seed germination and seedling establishment in E. velutina. In a situation of thermal stress, high temperatures affect the establishment of the seedlings, whereas low temperatures compromise the mobilization of reserves.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Molecular aspects during seed germination of Erythrina velutina Willd. under different temperatures (Part 1): reserve mobilization

et al. 2020

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“…Germination involves the mechanisms of hormone regulation and protein hydration, besides the transportation of reserves, synthesis of macromolecules, heightened respiration and cell elongation (RAJJOU et al, 2012;BEWLEY et al, 2013). During the germination process, the reserve materials namely, carbohydrates, lipids and proteins require conversion into soluble compounds, which must later be transported to the growth regions to make the necessary nutrients available until the seedlings acquire autotrophic capacity (ATAÍDE et al, 2017). Germination involves wide-ranging phytochemical changes which result from the dynamic and complex flow of nutrients, in which remobilization, degradation and accumulation (NELSON et al, 2013) take place.…”

Section: Introductionmentioning

confidence: 99%

Germination on the nutritional properties of seeds of four melon varieties

2024

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Fruit seeds, in terms of nutrition, are as wholesome as the grains cultivated exclusively for human consumption. The fruit pulp-processing agroindustry, more often than not, discards these seeds as unprofitable waste. The inclusion of seeds as a consumer product, equal in value to the pulp itself, can be made possible by adopting processes that increase their worth, and ideally at minimal costs. The controlled germination process is suitable for such an endeavor. The strategy presented here, is low in cost and permits the modulation of the constituents of the seeds by breaking the continuity of the process at the precise time, thus enabling the formation of a new product, which possesses bioactive properties. This research was performed with the focus on exploring the ways that the germination time influences the constituents of the seeds in four melon varieties. The Cantaloupe, Gália, Pele-de-Sapo and Orange melon seeds were studied and the water content, ash, proteins, lipids, total and reducing sugars, total phenolic compounds, tannins, flavonoids and anthocyanins were determined in the samples. This was done in natura and post germination specifically at 24, 48, 72 and 96 hours. Germination altered all the parameters, except the ash content. In Pele-de-Sapo, the protein content dropped, while in the others it showed an increase. Germination caused a rise in the values of the total and reducing sugars, as well as the total phenolic compounds, tannins, flavonoids and anthocyanins, showing variations during the intermediate times, based on the variety. Mostly, higher values were achieved at 96 h of the germination process.

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“…Usualmente, a propagação de braúna é feita por meio de sementes (BORGES et al, 2015), e sua germinação já é bastante estudada (FLORES et al, 2013;FLORES et al, 2014;LIMA E BORGES et al, 2015; LIMA E BORGES; ATAÍDE; MATOS, 2015; ATAÍDE; LIMA E BORGES; LEITE FILHO, 2016;ATAÍDE et al, 2017;SANTOS et al, 2017). Entretanto, há poucas informações na literatura relacionadas a sua germinação em condições de estresse, como por contaminação por elementos traço.…”

Section: A Espécie: Melanoxylon Braunaunclassified

Ação do mercúrio na germinação de sementes de Melanoxylon brauna Schott. (Fabaceae-Caesalpinoidae)

Zeferino¹

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Técnicas empregadas nos meios urbano, rural e industrial são responsáveis pelo acúmulo de elementos traço no meio ambiente, comprometendo a qualidade do solo e possibilitando a entrada desses elementos na cadeia alimentar. O Mercúrio (Hg) é considerado potencialmente tóxico à biota como um todo; nas plantas pode causar estresse hídrico, alteração hormonal, diminuição da biomassa, inibição da fotossíntese e até morte. Nas sementes, esse elemento afeta a germinação inibindo a absorção de água, além de estimular o estresse oxidativo. As sementes são o principal método pelo qual as plantas se reproduzem na natureza e são utilizadas para propagar inúmeras espécies florestais. A germinação é um estágio essencial no ciclo de vida das espécies. O objetivo do presente estudo foi estabelecer a relação entre a presença do Hg e a germinação de sementes de Melanoxylon brauna. Avaliou-se a porcentagem de germinação, o Índice de Velocidade de Germinação, o comprimento do eixo embrionário, o consumo de reservas, a taxa de consumo de oxigênio, as atividades das enzimas α- e β-amilase e a produção de malonaldeído das sementes submetidas a diferentes concentrações de HgCl 2 (25, 50, 75, 100μM, 1, 2, 3, 4 e 5mM). De forma geral, os embriões de Melanoxylon brauna tratados com HgCl 2 apresentaram redução na porcentagem de germinação e no IVG, no comprimento do eixo embrionário, no consumo de reservas, na taxa de consumo de oxigênio, nas atividades das enzimas α- e β-amilase e na produção de MDA. A concentração de HgCl 2 de até 5mM não foi capaz de causar a morte das sementes, no entanto alterou a absorção de água dessas, levando ao atraso e inibição da germinação. Palavras-chave: Elementos traços. Embebição. Cloreto de mercúrio. Toxicidade.

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Alterações nas reservas de sementes de Melanoxylon brauna Schott. (Fabaceae Caesalpinoideae) durante a germinação em diferentes temperaturas

Cited by 7 publications

References 12 publications

Molecular aspects during seed germination of Erythrina velutina Willd. under different temperatures (Part 1): reserve mobilization

Molecular aspects during seed germination of Erythrina velutina Willd. under different temperatures (Part 1): reserve mobilization

Germination on the nutritional properties of seeds of four melon varieties

Ação do mercúrio na germinação de sementes de Melanoxylon brauna Schott. (Fabaceae-Caesalpinoidae)

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