Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants

Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants

ABSTRACT Deficiencies of boron and zinc occur in coffee plantations despite the many fertilizer sources offered by the industry for the agriculture. Sparingly soluble fertilizers (SSF) have been used in several countries for many years. However, their effectiveness when applied to leaves is highly contested, and information about their use efficiency is still lacking. Experiments were set up to characterize the SSF of B and Zn according to particle size of fertilizers, and the spreading and retention of the particles in the leaf, comparing SSF (calcium borate, Zn oxide, and Zn borate) with soluble sources (boric acid and Zn sulfate) in four doses (mg.L-1): Experiment I (B 0, 130, 260, and 520), Experiment II (Zn 0, 200, 600, and 1,800), and experiment III (B 0, 43, 129, and 387, and Zn 0, 200, 600, and 1,800), to supply B and Zn for coffee plants. Microparticles of the SSF were found adhered to coffee leaves, and the Zn oxide was the one with the smallest particle size. SSFs were effective at increasing the Zn and B leaf concentrations in coffee. Dry matter of coffee increased 15% with applications of 270 mg.L-1 of B as calcium borate and 384 mg.L-1 of B as boric acid. Foliar application of Zn oxide at the dose of 1,800 mg.L-1 of Zn increased the leaf areas of the plants. High doses of Zn sulfate caused toxicity to coffee plants due to high saline concentrations. The microparticles found retained on the surface of the coffee leaves increased leaf concentration of B and Zn, which explained variations in the dry matter measurements and show the potential of the SSF for the development of fertilizers to improve the availability of micronutrients to coffee.

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Main Authors: Macedo,Luiza Oliveira, Mattos Jr,Dirceu, Jacobassi,Rodrigo Candido, Petená,Guilherme, Quaggio,José Antonio, Boaretto,Rodrigo Marcelli
Format: Digital revista
Language:English
Published: Instituto Agronômico de Campinas 2021
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0006-87052021000100232
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spelling oai:scielo:S0006-870520210001002322021-06-01Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plantsMacedo,Luiza OliveiraMattos Jr,DirceuJacobassi,Rodrigo CandidoPetená,GuilhermeQuaggio,José AntonioBoaretto,Rodrigo Marcelli micronutrients microparticles nutrient sources leaf spraying ABSTRACT Deficiencies of boron and zinc occur in coffee plantations despite the many fertilizer sources offered by the industry for the agriculture. Sparingly soluble fertilizers (SSF) have been used in several countries for many years. However, their effectiveness when applied to leaves is highly contested, and information about their use efficiency is still lacking. Experiments were set up to characterize the SSF of B and Zn according to particle size of fertilizers, and the spreading and retention of the particles in the leaf, comparing SSF (calcium borate, Zn oxide, and Zn borate) with soluble sources (boric acid and Zn sulfate) in four doses (mg.L-1): Experiment I (B 0, 130, 260, and 520), Experiment II (Zn 0, 200, 600, and 1,800), and experiment III (B 0, 43, 129, and 387, and Zn 0, 200, 600, and 1,800), to supply B and Zn for coffee plants. Microparticles of the SSF were found adhered to coffee leaves, and the Zn oxide was the one with the smallest particle size. SSFs were effective at increasing the Zn and B leaf concentrations in coffee. Dry matter of coffee increased 15% with applications of 270 mg.L-1 of B as calcium borate and 384 mg.L-1 of B as boric acid. Foliar application of Zn oxide at the dose of 1,800 mg.L-1 of Zn increased the leaf areas of the plants. High doses of Zn sulfate caused toxicity to coffee plants due to high saline concentrations. The microparticles found retained on the surface of the coffee leaves increased leaf concentration of B and Zn, which explained variations in the dry matter measurements and show the potential of the SSF for the development of fertilizers to improve the availability of micronutrients to coffee.info:eu-repo/semantics/openAccessInstituto Agronômico de CampinasBragantia v.80 20212021-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0006-87052021000100232en10.1590/1678-4499.20200329
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
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region America del Sur
libraryname SciELO
language English
format Digital
author Macedo,Luiza Oliveira
Mattos Jr,Dirceu
Jacobassi,Rodrigo Candido
Petená,Guilherme
Quaggio,José Antonio
Boaretto,Rodrigo Marcelli
spellingShingle Macedo,Luiza Oliveira
Mattos Jr,Dirceu
Jacobassi,Rodrigo Candido
Petená,Guilherme
Quaggio,José Antonio
Boaretto,Rodrigo Marcelli
Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants
author_facet Macedo,Luiza Oliveira
Mattos Jr,Dirceu
Jacobassi,Rodrigo Candido
Petená,Guilherme
Quaggio,José Antonio
Boaretto,Rodrigo Marcelli
author_sort Macedo,Luiza Oliveira
title Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants
title_short Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants
title_full Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants
title_fullStr Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants
title_full_unstemmed Characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants
title_sort characterization and use efficiency of sparingly soluble fertilizer of boron and zinc for foliar application in coffee plants
description ABSTRACT Deficiencies of boron and zinc occur in coffee plantations despite the many fertilizer sources offered by the industry for the agriculture. Sparingly soluble fertilizers (SSF) have been used in several countries for many years. However, their effectiveness when applied to leaves is highly contested, and information about their use efficiency is still lacking. Experiments were set up to characterize the SSF of B and Zn according to particle size of fertilizers, and the spreading and retention of the particles in the leaf, comparing SSF (calcium borate, Zn oxide, and Zn borate) with soluble sources (boric acid and Zn sulfate) in four doses (mg.L-1): Experiment I (B 0, 130, 260, and 520), Experiment II (Zn 0, 200, 600, and 1,800), and experiment III (B 0, 43, 129, and 387, and Zn 0, 200, 600, and 1,800), to supply B and Zn for coffee plants. Microparticles of the SSF were found adhered to coffee leaves, and the Zn oxide was the one with the smallest particle size. SSFs were effective at increasing the Zn and B leaf concentrations in coffee. Dry matter of coffee increased 15% with applications of 270 mg.L-1 of B as calcium borate and 384 mg.L-1 of B as boric acid. Foliar application of Zn oxide at the dose of 1,800 mg.L-1 of Zn increased the leaf areas of the plants. High doses of Zn sulfate caused toxicity to coffee plants due to high saline concentrations. The microparticles found retained on the surface of the coffee leaves increased leaf concentration of B and Zn, which explained variations in the dry matter measurements and show the potential of the SSF for the development of fertilizers to improve the availability of micronutrients to coffee.
publisher Instituto Agronômico de Campinas
publishDate 2021
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0006-87052021000100232
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