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Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings

Nitrate and ammonium are the main forms of inorganic nitrogen available to plants. The present study aimed to investigate the metabolic changes caused by ammonium and nitrate nutrition in maritime pine (Pinus pinaster Ait.). Seedlings were grown with five solutions containing different proportions o...

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Autores principales: Ortigosa, Francisco, Valderrama-Martín, José Miguel, Urbano-Gámez, José Alberto, García-Martín, María Luisa, Ávila, Concepción, Cánovas, Francisco M., Cañas, Rafael A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7238028/
https://www.ncbi.nlm.nih.gov/pubmed/32283755
http://dx.doi.org/10.3390/plants9040481
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author Ortigosa, Francisco
Valderrama-Martín, José Miguel
Urbano-Gámez, José Alberto
García-Martín, María Luisa
Ávila, Concepción
Cánovas, Francisco M.
Cañas, Rafael A.
author_facet Ortigosa, Francisco
Valderrama-Martín, José Miguel
Urbano-Gámez, José Alberto
García-Martín, María Luisa
Ávila, Concepción
Cánovas, Francisco M.
Cañas, Rafael A.
author_sort Ortigosa, Francisco
collection PubMed
description Nitrate and ammonium are the main forms of inorganic nitrogen available to plants. The present study aimed to investigate the metabolic changes caused by ammonium and nitrate nutrition in maritime pine (Pinus pinaster Ait.). Seedlings were grown with five solutions containing different proportions of nitrate and ammonium. Their nitrogen status was characterized through analyses of their biomass, different biochemical and molecular markers as well as a metabolite profile using (1)H-NMR. Ammonium-fed seedlings exhibited higher biomass than nitrate-fed-seedlings. Nitrate mainly accumulated in the stem and ammonium in the roots. Needles of ammonium-fed seedlings had higher nitrogen and amino acid contents but lower levels of enzyme activities related to nitrogen metabolism. Higher amounts of soluble sugars and L-arginine were found in the roots of ammonium-fed seedlings. In contrast, L-asparagine accumulated in the roots of nitrate-fed seedlings. The differences in the allocation of nitrate and ammonium may function as metabolic buffers to prevent interference with the metabolism of photosynthetic organs. The metabolite profiles observed in the roots suggest problems with carbon and nitrogen assimilation in nitrate-supplied seedlings. Taken together, this new knowledge contributes not only to a better understanding of nitrogen metabolism but also to improving aspects of applied mineral nutrition for conifers.
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spelling pubmed-72380282020-05-28 Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings Ortigosa, Francisco Valderrama-Martín, José Miguel Urbano-Gámez, José Alberto García-Martín, María Luisa Ávila, Concepción Cánovas, Francisco M. Cañas, Rafael A. Plants (Basel) Article Nitrate and ammonium are the main forms of inorganic nitrogen available to plants. The present study aimed to investigate the metabolic changes caused by ammonium and nitrate nutrition in maritime pine (Pinus pinaster Ait.). Seedlings were grown with five solutions containing different proportions of nitrate and ammonium. Their nitrogen status was characterized through analyses of their biomass, different biochemical and molecular markers as well as a metabolite profile using (1)H-NMR. Ammonium-fed seedlings exhibited higher biomass than nitrate-fed-seedlings. Nitrate mainly accumulated in the stem and ammonium in the roots. Needles of ammonium-fed seedlings had higher nitrogen and amino acid contents but lower levels of enzyme activities related to nitrogen metabolism. Higher amounts of soluble sugars and L-arginine were found in the roots of ammonium-fed seedlings. In contrast, L-asparagine accumulated in the roots of nitrate-fed seedlings. The differences in the allocation of nitrate and ammonium may function as metabolic buffers to prevent interference with the metabolism of photosynthetic organs. The metabolite profiles observed in the roots suggest problems with carbon and nitrogen assimilation in nitrate-supplied seedlings. Taken together, this new knowledge contributes not only to a better understanding of nitrogen metabolism but also to improving aspects of applied mineral nutrition for conifers. MDPI 2020-04-09 /pmc/articles/PMC7238028/ /pubmed/32283755 http://dx.doi.org/10.3390/plants9040481 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ortigosa, Francisco
Valderrama-Martín, José Miguel
Urbano-Gámez, José Alberto
García-Martín, María Luisa
Ávila, Concepción
Cánovas, Francisco M.
Cañas, Rafael A.
Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings
title Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings
title_full Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings
title_fullStr Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings
title_full_unstemmed Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings
title_short Inorganic Nitrogen Form Determines Nutrient Allocation and Metabolic Responses in Maritime Pine Seedlings
title_sort inorganic nitrogen form determines nutrient allocation and metabolic responses in maritime pine seedlings
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7238028/
https://www.ncbi.nlm.nih.gov/pubmed/32283755
http://dx.doi.org/10.3390/plants9040481
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