Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs

Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs

This work quantifies Fe uptake in young citrus trees, its partitioning among plant compartments, and the contribution of the Fe absorbed from fertilizer to the development of new tissues. A soil pot experiment was conducted using 4-year-old clementine trees (<i>Citrus clementina</i> Hort...

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Main Authors: Mary-Rus Martínez-Cuenca, Belen Martínez-Alcántara, Jorge Millos, Francisco Legaz, Ana Quiñones
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Plants
Subjects:
iron
<sup>57</sup>Fe
<i>Citrus clementina</i>
enrichment
isotope
mineral transport
Online Access:https://www.mdpi.com/2223-7747/10/1/79
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spelling doaj-397b72e354fa47ea85775193b4de1ef52021-01-03T00:01:08ZengMDPI AGPlants2223-77472021-01-0110797910.3390/plants10010079Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New OrgansMary-Rus Martínez-Cuenca0Belen Martínez-Alcántara1Jorge Millos2Francisco Legaz3Ana Quiñones4Department of Citriculture and Vegetal Production, Valencian Institute for Agricultural Research–IVIA, Crta. CV-315, 46113 Moncada, Valencia, SpainDepartment of Citriculture and Vegetal Production, Valencian Institute for Agricultural Research–IVIA, Crta. CV-315, 46113 Moncada, Valencia, SpainService of Food Security and Sustainable Development-C.A.C.T.I., Vigo University, 36310 Vigo, Pontevedra, SpainDepartment of Citriculture and Vegetal Production, Valencian Institute for Agricultural Research–IVIA, Crta. CV-315, 46113 Moncada, Valencia, SpainCenter for the Development of Sustainable Agriculture-CDAS, Valencian Institute for Agricultural Research–IVIA, Crta. CV-315, 46113 Moncada, Valencia, SpainThis work quantifies Fe uptake in young citrus trees, its partitioning among plant compartments, and the contribution of the Fe absorbed from fertilizer to the development of new tissues. A soil pot experiment was conducted using 4-year-old clementine trees (<i>Citrus clementina</i> Hort ex Tan), and a dose of 240 mg Fe was applied by labeled fertilizer (92% atom <sup>57</sup>Fe excess). Plants were uprooted at five different phenologic states: end of flowering (May 15), end of fruit setting and fruit drop (July 1), two fruit growing moments (August 1 and October 15), and at complete fruit maturity (December 10). The Fe accumulated in the root system exceeded 90% of the total Fe content in the plant. All organs progressively enriched with <sup>57</sup>Fe (8.5–15.5% and 7.4–9.9% for young and old organs, respectively). Reproductive ones reached the highest increase (111% between May and October). <sup>57</sup>Fe enrichment from woody organs reflects an increasing gradient to sink organs. The root system accumulated 80% of the Fe absorbed from the fertilizer, but the young organs accumulated relatively more Fe uptake during flowering and fruit setting (15.6% and 13.8%, respectively) than old organs (around 9.8%). Although iron derived from fertilizer (Fedff) preferably supplied young organs (16.7–31.0%) against old ones (2.5–14.9%), it only represented between 13.8% and 21.4% of its content. The use efficiency of the applied Fe (FeUE) barely exceeded 15%. The lowest FeUE were found in young and old organs of the aerial part (1.1–1.8% and 0.7–1.2%, respectively). Since the pattern of the seasonal absorption of Fe is similar to the monthly distribution curve of the supplied Fe, it is recommended that the application of Fe chelates in calcareous soils should be performed in a similar way to that proposed in this curve.https://www.mdpi.com/2223-7747/10/1/79iron<sup>57</sup>Fe<i>Citrus clementina</i>enrichmentisotopemineral transport
collection DOAJ
language English
format Article
sources DOAJ
author Mary-Rus Martínez-Cuenca
Belen Martínez-Alcántara
Jorge Millos
Francisco Legaz
Ana Quiñones
spellingShingle Mary-Rus Martínez-Cuenca
Belen Martínez-Alcántara
Jorge Millos
Francisco Legaz
Ana Quiñones
Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs
Plants
iron
<sup>57</sup>Fe
<i>Citrus clementina</i>
enrichment
isotope
mineral transport
author_facet Mary-Rus Martínez-Cuenca
Belen Martínez-Alcántara
Jorge Millos
Francisco Legaz
Ana Quiñones
author_sort Mary-Rus Martínez-Cuenca
title Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs
title_short Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs
title_full Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs
title_fullStr Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs
title_full_unstemmed Seasonal Fe Uptake of Young Citrus Trees and Its Contribution to the Development of New Organs
title_sort seasonal fe uptake of young citrus trees and its contribution to the development of new organs
publisher MDPI AG
series Plants
issn 2223-7747
publishDate 2021-01-01
description This work quantifies Fe uptake in young citrus trees, its partitioning among plant compartments, and the contribution of the Fe absorbed from fertilizer to the development of new tissues. A soil pot experiment was conducted using 4-year-old clementine trees (<i>Citrus clementina</i> Hort ex Tan), and a dose of 240 mg Fe was applied by labeled fertilizer (92% atom <sup>57</sup>Fe excess). Plants were uprooted at five different phenologic states: end of flowering (May 15), end of fruit setting and fruit drop (July 1), two fruit growing moments (August 1 and October 15), and at complete fruit maturity (December 10). The Fe accumulated in the root system exceeded 90% of the total Fe content in the plant. All organs progressively enriched with <sup>57</sup>Fe (8.5–15.5% and 7.4–9.9% for young and old organs, respectively). Reproductive ones reached the highest increase (111% between May and October). <sup>57</sup>Fe enrichment from woody organs reflects an increasing gradient to sink organs. The root system accumulated 80% of the Fe absorbed from the fertilizer, but the young organs accumulated relatively more Fe uptake during flowering and fruit setting (15.6% and 13.8%, respectively) than old organs (around 9.8%). Although iron derived from fertilizer (Fedff) preferably supplied young organs (16.7–31.0%) against old ones (2.5–14.9%), it only represented between 13.8% and 21.4% of its content. The use efficiency of the applied Fe (FeUE) barely exceeded 15%. The lowest FeUE were found in young and old organs of the aerial part (1.1–1.8% and 0.7–1.2%, respectively). Since the pattern of the seasonal absorption of Fe is similar to the monthly distribution curve of the supplied Fe, it is recommended that the application of Fe chelates in calcareous soils should be performed in a similar way to that proposed in this curve.
topic iron
<sup>57</sup>Fe
<i>Citrus clementina</i>
enrichment
isotope
mineral transport
url https://www.mdpi.com/2223-7747/10/1/79
work_keys_str_mv AT maryrusmartinezcuenca seasonalfeuptakeofyoungcitrustreesanditscontributiontothedevelopmentofneworgans
AT belenmartinezalcantara seasonalfeuptakeofyoungcitrustreesanditscontributiontothedevelopmentofneworgans
AT jorgemillos seasonalfeuptakeofyoungcitrustreesanditscontributiontothedevelopmentofneworgans
AT franciscolegaz seasonalfeuptakeofyoungcitrustreesanditscontributiontothedevelopmentofneworgans
AT anaquinones seasonalfeuptakeofyoungcitrustreesanditscontributiontothedevelopmentofneworgans
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