Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones

Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones

Field trials with labeled fertilizers can be used to provide information on fertilizer efficiency, residual value, and nutrient fate. We assessed the uptake from elemental S (ES) and sulfate S (SO<sub>4</sub>-S) in S-fortified monoammonium phosphate fertilizers by various crops at three...

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Main Authors: Fien Degryse, Roslyn Baird, Rodrigo C. da Silva, Christopher B. Holzapfel, Claudinei Kappes, Monica Tysko, Michael J. McLaughlin
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Agronomy
Subjects:
fertilizer efficiency
sulfur
stable isotope
Online Access:https://www.mdpi.com/2073-4395/10/7/1035
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spelling doaj-6df39229903d4d76abada9503739c4f82021-04-02T12:45:50ZengMDPI AGAgronomy2073-43952020-07-01101035103510.3390/agronomy10071035Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic ZonesFien Degryse0Roslyn Baird1Rodrigo C. da Silva2Christopher B. Holzapfel3Claudinei Kappes4Monica Tysko5Michael J. McLaughlin6Fertilizer Technology Research Centre, School of Agriculture, Food and Wine, Waite Campus, The University of Adelaide, PMB 1, Glen Osmond, SA 5064, AustraliaFertilizer Technology Research Centre, School of Agriculture, Food and Wine, Waite Campus, The University of Adelaide, PMB 1, Glen Osmond, SA 5064, AustraliaFertilizer Technology Research Centre, School of Agriculture, Food and Wine, Waite Campus, The University of Adelaide, PMB 1, Glen Osmond, SA 5064, AustraliaIndian Head Agricultural Research Foundation, Indian Head, SK S0G 2K0, CanadaFundação MT, University Park, 754 Antônio Teixeira dos Santos Avenue, Rondonópolis, MT 78750-000, BrazilDepartamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, Buenos Aires B6700, ArgentinaFertilizer Technology Research Centre, School of Agriculture, Food and Wine, Waite Campus, The University of Adelaide, PMB 1, Glen Osmond, SA 5064, AustraliaField trials with labeled fertilizers can be used to provide information on fertilizer efficiency, residual value, and nutrient fate. We assessed the uptake from elemental S (ES) and sulfate S (SO<sub>4</sub>-S) in S-fortified monoammonium phosphate fertilizers by various crops at three sites in Argentina, Brazil, and Canada. The S sources were labeled with <sup>34</sup>S, and the <sup>34</sup>S abundance in the plant tissue was analyzed at an early stage and at maturity over two consecutive years. At the sites in Argentina and Canada, the recovery of ES in the crop was smaller than that of SO<sub>4</sub>-S in the first year, while the opposite was true in the second year. At the Brazilian site, the recovery of ES was similar to that of SO<sub>4</sub>-S in the first year, but higher in the second year. In the Argentina and Canada sites, the cumulative recovery of SO<sub>4</sub>-S was >65% and that of ES was 20-25%. In the Brazilian site, the cumulative recovery of SO<sub>4</sub>-S was 9% and that of ES 16%. The higher recovery of ES than of SO<sub>4</sub>-S in the Brazilian site was attributed to leaching of added SO<sub>4</sub>-S and relatively fast oxidation of ES due to the warm climate. These results suggest that ES may be more suitable than SO<sub>4</sub>-S as a fertilizer S source in warm humid climates, while inclusion of SO<sub>4</sub>-S in the fertilizer is recommended in colder climates as slow oxidation limits the initial availability of ES.https://www.mdpi.com/2073-4395/10/7/1035fertilizer efficiencysulfurstable isotope
collection DOAJ
language English
format Article
sources DOAJ
author Fien Degryse
Roslyn Baird
Rodrigo C. da Silva
Christopher B. Holzapfel
Claudinei Kappes
Monica Tysko
Michael J. McLaughlin
spellingShingle Fien Degryse
Roslyn Baird
Rodrigo C. da Silva
Christopher B. Holzapfel
Claudinei Kappes
Monica Tysko
Michael J. McLaughlin
Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones
Agronomy
fertilizer efficiency
sulfur
stable isotope
author_facet Fien Degryse
Roslyn Baird
Rodrigo C. da Silva
Christopher B. Holzapfel
Claudinei Kappes
Monica Tysko
Michael J. McLaughlin
author_sort Fien Degryse
title Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones
title_short Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones
title_full Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones
title_fullStr Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones
title_full_unstemmed Sulfur Uptake from Fertilizer Fortified with Sulfate and Elemental S in Three Contrasting Climatic Zones
title_sort sulfur uptake from fertilizer fortified with sulfate and elemental s in three contrasting climatic zones
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2020-07-01
description Field trials with labeled fertilizers can be used to provide information on fertilizer efficiency, residual value, and nutrient fate. We assessed the uptake from elemental S (ES) and sulfate S (SO<sub>4</sub>-S) in S-fortified monoammonium phosphate fertilizers by various crops at three sites in Argentina, Brazil, and Canada. The S sources were labeled with <sup>34</sup>S, and the <sup>34</sup>S abundance in the plant tissue was analyzed at an early stage and at maturity over two consecutive years. At the sites in Argentina and Canada, the recovery of ES in the crop was smaller than that of SO<sub>4</sub>-S in the first year, while the opposite was true in the second year. At the Brazilian site, the recovery of ES was similar to that of SO<sub>4</sub>-S in the first year, but higher in the second year. In the Argentina and Canada sites, the cumulative recovery of SO<sub>4</sub>-S was >65% and that of ES was 20-25%. In the Brazilian site, the cumulative recovery of SO<sub>4</sub>-S was 9% and that of ES 16%. The higher recovery of ES than of SO<sub>4</sub>-S in the Brazilian site was attributed to leaching of added SO<sub>4</sub>-S and relatively fast oxidation of ES due to the warm climate. These results suggest that ES may be more suitable than SO<sub>4</sub>-S as a fertilizer S source in warm humid climates, while inclusion of SO<sub>4</sub>-S in the fertilizer is recommended in colder climates as slow oxidation limits the initial availability of ES.
topic fertilizer efficiency
sulfur
stable isotope
url https://www.mdpi.com/2073-4395/10/7/1035
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