Both chemical and crystalline phase configuration influence the molecular features of humic acids in humic-calcium-phosphates fertilizers

Both chemical and crystalline phase configuration influence the molecular features of humic acids in humic-calcium-phosphates fertilizers

Phosphate-metal-humic complexes are very relevant in nature due to their crucial role in phosphate availability for plants and microorganisms. Synthetic phosphate-calcium-humic acid (HA) complexes have proven to be efficient sources of available phosphorus for crops. However, the current knowledge a...

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Veröffentlicht in:RSC advances 2019-08, Vol.9 (44), p.25790-25796
Hauptverfasser: Baigorri, Roberto, Erro, Javier, Urrutia, Óscar, Martinez, José Manuel, Mandado, Marcos, Martín-Pastor, Manuel, García-Mina, José M
Format: Artikel
Sprache:eng
Schlagworte:
Acids
Binding sites
Biological activity
Calcium phosphates
Chemistry
Configurations
Coordination compounds
Crystal structure
Crystallinity
Fertilizers
Fluorescence
Humic acids
Hydroxyapatite
Microorganisms
Molecular conformation
Molecular structure
NMR
Nuclear magnetic resonance
Organic chemistry
Size distribution
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container_end_page 25796
container_issue 44
container_start_page 25790
container_title RSC advances
container_volume 9
creator Baigorri, Roberto
Erro, Javier
Urrutia, Óscar
Martinez, José Manuel
Mandado, Marcos
Martín-Pastor, Manuel
García-Mina, José M
description Phosphate-metal-humic complexes are very relevant in nature due to their crucial role in phosphate availability for plants and microorganisms. Synthetic phosphate-calcium-humic acid (HA) complexes have proven to be efficient sources of available phosphorus for crops. However, the current knowledge about their structure and molecular features is very poor. The structural implications of phosphate interaction with humic binding sites through calcium bridges, in both monocalcium phosphate and dicalcium phosphate is investigated by using molecular modeling, P-NMR, H-NMR and X-ray diffractometry. The conformational changes in the molecular configuration of the humic acid involved in the interaction resulting from the synthetic process is also studied by using HPSEC and synchronous fluorescence. The results obtained allow us to identify the phosphate type in the crystalline phase that is involved in the interaction of humic acid binding sites and the different forms of calcium phosphate. Synchronous fluorescence also shows that whereas the conformational configuration of the HA binding site is only partially affected in the monocalcium phosphate interaction, it changes in the case of dicalcium phosphate showing simpler molecular arrangements. These changes in the molecular conformation of the binding site in HA in solution may influence the biological activity of the humic acid. On the other hand, HPSEC studies show that the humic-calcium-phosphate interaction is accompanied by increases in the humic acid apparent size distribution. This effect is more intense in the case of monocalcium phosphate system probably due the influence of pH.
doi_str_mv 10.1039/c9ra04383g
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Synthetic phosphate-calcium-humic acid (HA) complexes have proven to be efficient sources of available phosphorus for crops. However, the current knowledge about their structure and molecular features is very poor. The structural implications of phosphate interaction with humic binding sites through calcium bridges, in both monocalcium phosphate and dicalcium phosphate is investigated by using molecular modeling, P-NMR, H-NMR and X-ray diffractometry. The conformational changes in the molecular configuration of the humic acid involved in the interaction resulting from the synthetic process is also studied by using HPSEC and synchronous fluorescence. The results obtained allow us to identify the phosphate type in the crystalline phase that is involved in the interaction of humic acid binding sites and the different forms of calcium phosphate. Synchronous fluorescence also shows that whereas the conformational configuration of the HA binding site is only partially affected in the monocalcium phosphate interaction, it changes in the case of dicalcium phosphate showing simpler molecular arrangements. These changes in the molecular conformation of the binding site in HA in solution may influence the biological activity of the humic acid. On the other hand, HPSEC studies show that the humic-calcium-phosphate interaction is accompanied by increases in the humic acid apparent size distribution. 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Synthetic phosphate-calcium-humic acid (HA) complexes have proven to be efficient sources of available phosphorus for crops. However, the current knowledge about their structure and molecular features is very poor. The structural implications of phosphate interaction with humic binding sites through calcium bridges, in both monocalcium phosphate and dicalcium phosphate is investigated by using molecular modeling, P-NMR, H-NMR and X-ray diffractometry. The conformational changes in the molecular configuration of the humic acid involved in the interaction resulting from the synthetic process is also studied by using HPSEC and synchronous fluorescence. The results obtained allow us to identify the phosphate type in the crystalline phase that is involved in the interaction of humic acid binding sites and the different forms of calcium phosphate. Synchronous fluorescence also shows that whereas the conformational configuration of the HA binding site is only partially affected in the monocalcium phosphate interaction, it changes in the case of dicalcium phosphate showing simpler molecular arrangements. These changes in the molecular conformation of the binding site in HA in solution may influence the biological activity of the humic acid. On the other hand, HPSEC studies show that the humic-calcium-phosphate interaction is accompanied by increases in the humic acid apparent size distribution. 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Synchronous fluorescence also shows that whereas the conformational configuration of the HA binding site is only partially affected in the monocalcium phosphate interaction, it changes in the case of dicalcium phosphate showing simpler molecular arrangements. These changes in the molecular conformation of the binding site in HA in solution may influence the biological activity of the humic acid. On the other hand, HPSEC studies show that the humic-calcium-phosphate interaction is accompanied by increases in the humic acid apparent size distribution. 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subjects Acids
Binding sites
Biological activity
Calcium phosphates
Chemistry
Configurations
Coordination compounds
Crystal structure
Crystallinity
Fertilizers
Fluorescence
Humic acids
Hydroxyapatite
Microorganisms
Molecular conformation
Molecular structure
NMR
Nuclear magnetic resonance
Organic chemistry
Size distribution
title Both chemical and crystalline phase configuration influence the molecular features of humic acids in humic-calcium-phosphates fertilizers
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