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8. Silicon mitigates the negative impacts of salt stress in soybean plants

Author

Peña‐Calzada, Kolima, primary, Olivera‐Viciedo, Dilier, additional, Calero‐Hurtado, Alexander, additional, de Mello Prado, Renato, additional, Habermann, Eduardo, additional, Lata Tenesaca, Luis Felipe, additional, Ajila, Gabriela, additional, de Oliveira, Reginaldo, additional, Rodríguez, Juan Carlos, additional, and Lupino Gratão, Priscila, additional

Published
2023
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9. Exogenous Application of Amino Acids Mitigates the Deleterious Effects of Salt Stress on Soybean Plants

Author

Peña Calzada, Kolima, primary, Olivera Viciedo, Dilier, additional, Habermann, Eduardo, additional, Calero Hurtado, Alexander, additional, Lupino Gratão, Priscila, additional, De Mello Prado, Renato, additional, Lata-Tenesaca, Luis Felipe, additional, Martinez, Carlos Alberto, additional, Ajila Celi, Gabriela Eugenia, additional, and Rodríguez, Juan Carlos, additional

Published
2022
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10. The adequate dose of Mo required for soybean seed treatment is low when associated with Cu, Mn, and Zn compared to its association with Co and Ni, although increasing the risk of toxicity.

Author

Teixeira, Gelza Carliane Marques, Prado, Renato de Mello, Rocha, Antonio Márcio Souza, Silva, José Lucas Farias da, Lata-Tenesaca, Luis Felipe, and Dias, Marcos Altomani Neves

Subjects
COPPER, SEED treatment, NITROGEN fixation, SOYBEAN, PHENOLS
Abstract

The seed treatment with Mo associated with other elements, such as Ni and Co, and with micronutrients, such as Cu, Mn, and Zn, has been highlighted. The use of these associations can affect the adequate dose of Mo and the risk of toxicity. This study aimed to determine whether the optimal and the toxic dose of Mo can be affected by the accompanying elements of the group Co and Ni in relation to Cu, Mn, and Zn for the treatment of soybean seeds. Two experiments were carried out. The treatments in experiment I consisted of five doses of a product containing Mo, Co, and Ni at the concentrations of 0, 30-, 60-, 90-, and 120-mL ha−1. In experiment II, the treatments consisted of five doses of a product containing Mo, Cu, Mn, and Zn at the concentrations of 0, 50-, 100-, 200-, and 400-mL ha−1. The optimal dose of Mo was low (6.7 g ha−1) when applied along with Cu, Mn, and Zn as accompanying elements in relation to Co and Ni (17.5 g ha−1 of Mo). Application of the optimal dose provided an increase in N accumulation and in the chlorophylls, carotenoids, and phenolic compounds, decreasing the extravasation of electrolytes and increasing photosynthetic efficiency, dry matter, and yield. Mo toxicity was more severe with Cu, Mn, and Zn as accompanying elements, already occurring at the low dose of 18.9 g ha−1 Mo, which is much lower when Mo is associated with Co and Ni (32 g ha−1 Mo). [ABSTRACT FROM AUTHOR]

Published
2023
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15. Silicon in modification stoichiometry C:N:P, nutritional efficiency, productivity and biofortification of quinoa

Author

Lata Tenesaca, Luis Felipe, Universidade Estadual Paulista (Unesp), and Prado, Renato de Mello [UNESP]

Subjects
Qualidade dos produtos, Chenopodium quinoa willd, Eficiência nutricional, Formas de aplicação, Relações estequiométricas, Ácido ascórbico
Abstract

Submitted by Luis Felipe Lata Tenesaca (luis.lata@unesp.br) on 2021-03-13T21:09:26Z No. of bitstreams: 1 Dissertação Mestrado. Luis F Lata.pdf: 2552457 bytes, checksum: c47e1c8d0f6e9f013dacc98e33e6d437 (MD5) Rejected by Adriana Cristina Damato (adriana.damato@unesp.br), reason: Solicitamos que realize correções na submissão seguindo as orientações abaixo: 1-Segundo a CAPES (Portaria nº 206, de 4 de setembro de 2018), o agradecimento deve conter exatamente a seguinte redação: -O presente trabalho foi realizado com apoio da Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Brasil (CAPES) - Código de Financiamento 001. Agradecemos a compreensão. on 2021-03-16T19:58:48Z (GMT) Submitted by Luis Felipe Lata Tenesaca (luis.lata@unesp.br) on 2021-03-17T22:37:39Z No. of bitstreams: 1 Dissertação Mestrado. Luis F Lata.pdf: 2551785 bytes, checksum: e6eff8ea76525f5405f5c77e90438375 (MD5) Approved for entry into archive by Adriana Cristina Damato (adriana.damato@unesp.br) on 2021-03-19T19:49:45Z (GMT) No. of bitstreams: 1 latatenesaca_lf_me_jabo.pdf: 2551785 bytes, checksum: e6eff8ea76525f5405f5c77e90438375 (MD5) Made available in DSpace on 2021-03-19T19:49:46Z (GMT). No. of bitstreams: 1 latatenesaca_lf_me_jabo.pdf: 2551785 bytes, checksum: e6eff8ea76525f5405f5c77e90438375 (MD5) Previous issue date: 2021-03-19 Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) O silício (Si) é reconhecido por desempenhar papéis importantes no crescimento e na produtividade das plantas. Para compreender melhor o efeito do Si nas plantas, é importante considerar o estudo das relações estequiométricas C:N:P, a eficiência de uso de nutrientes e a biofortificação de grãos, mas essas informações não são conhecidas em plantas de quinoa. Para isso, realizou-se esta pesquisa, objetivando-se : (a) avaliar o efeito de diferentes concentrações de Si aplicadas via solução nutritiva na modificação das relações estequiométricas C:N:P e na eficiência de uso de nutrientes refletindo no crescimento e na produtividade da quinoa; (b) avaliar se o modo de aplicação de Si poderia incrementar sua absorção e a eficiência nutricional de N e P, os teores de compostos fenólicos na parte aérea das plantas de quinoa e incrementar a produtividade e a biofortificação dos grãos com Si e ácido ascórbico. Foram desenvolvidos dois experimentos em plantas de quinoa cultivadas em sistema hidropônico. No primeiro experimento, os tratamentos corresponderam a quatro concentrações de Si (0; 1; 2 e 3 mmol L-1) aplicadas via solução nutritiva, na forma de silicato de sódio e potássio estabilizado com sorbitol. No segundo experimento, foi testada a concentração de 3 mmol L-1 de Si nas formas de aplicação: foliar, radicular em solução nutritiva, combinada radicular mais foliar e o controle, sem Si. Ficou evidenciado que o fornecimento do Si promoveu declínio na concentração de C associado à maior absorção de N e P, diminuindo principalmente as relações C:N e C:P, favorecendo a eficiência do metabolismo do C e modulando a eficiência de uso de N e P para o acúmulo de biomassa. O fornecimento de Si radicular mais foliar promoveu a maior eficiência de uso de N e P, incrementando a produtividade e a biofortificação de grãos com Si e ácido ascórbico. Silicon (Si) is recognized for playing important roles in plant growth and productivity. To better understand the effect of Si on plants, it is important to consider the study of stoichiometric C:N:P relationships, the efficiency of use of nutrients and the biofortification of grains, but this information is not known in quinoa plants. For this, this research was carried out aiming: (a) to evaluate the effect of different Si concentrations applied via nutritive solution in the modification of stoichiometric relationships C:N:P, efficiency of use of nutrients reflecting in the growth and productivity of quinoa ; (b) evaluate if the Si application method could increase its absorption and the nutritional efficiency of N and P, the levels of phenolic compounds in the aerial part of the quinoa plants and increase the productivity and the biofortification of the grains with Si and acid ascorbic. Two experiments were carried out on quinoa plants grown in a hydroponic system. In the first experiment, the treatments corresponded to four concentrations of Si (0, 1, 2 and 3 mmol L-1) applied via nutritive solution, in the form of sodium silicate and potassium stabilized with sorbitol. In the second experiment, the concentration of 3 mmol L-1 of Si in the application forms was tested: leaf, root in nutrient solution, combined root plus leaf and control, without Si. It was evidenced that the Si supply by promoting a decline in the C levels, associated with greater uptake of N and P, especially decreased the C:N and C:P ratios, favoring the C metabolism efficiency, and modulated the N and P use efficiency for biomass accumulation. The supply of more leafy Si root promoted the highest efficiency of use of N and P, increasing the productivity and the biofortification of grains with Si and ascorbic acid. 001

Published
2021

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