Biodegradation and viability of chitosan-based microencapsulated fertilizers

[Display omitted] •Encapsulation of KNO3 nutrient by chitosan and clay using spray drying technique.•Inorganic materials, clay and fertilizer, influence biodegradation.•EEF formulations based on chitosan and clay can be considered biodegradable.•Relationship of material biodegradation and soil-water...

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Published in	Carbohydrate polymers Vol. 257; p. 117635
Main Authors	Angelo, Luciana Moretti, França, Débora, Faez, Roselena
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.04.2021
Subjects	Bartha’s respirometric biodegradability biodegradation chitosan Clay KNO3 microencapsulation montmorillonite soil storage time Sustainable agriculture viability Clay Bartha’s respirometric Sustainable agriculture KNO3 KNO
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Abstract	[Display omitted] •Encapsulation of KNO3 nutrient by chitosan and clay using spray drying technique.•Inorganic materials, clay and fertilizer, influence biodegradation.•EEF formulations based on chitosan and clay can be considered biodegradable.•Relationship of material biodegradation and soil-water release properties.•Effect of chitosan degradation during storage time on biodegradation. Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the soil to have synergy to ensure material harmlessness. Chitosan, montmorillonite, and KNO3 were considered to develop the EEF because of the high biodegradation potential of the final product. We correlated the material biodegradability and release in water and soil to their formulation. We assume the materials are biodegradable since the biodegradation efficiency achieved over 30 %. As the nutrient diffusion and matrix degradation happen concomitantly, we also observed that the clay delays degradation and the KNO3 improved it. Likewise, the storage period can change the biodegradability properties once the material started to degrade. Hereupon, the amount of nutrient delivered will match the amount consumed by the plant, the matrix will degrade and no residue will be left in the soil.
AbstractList	[Display omitted] •Encapsulation of KNO3 nutrient by chitosan and clay using spray drying technique.•Inorganic materials, clay and fertilizer, influence biodegradation.•EEF formulations based on chitosan and clay can be considered biodegradable.•Relationship of material biodegradation and soil-water release properties.•Effect of chitosan degradation during storage time on biodegradation. Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the soil to have synergy to ensure material harmlessness. Chitosan, montmorillonite, and KNO3 were considered to develop the EEF because of the high biodegradation potential of the final product. We correlated the material biodegradability and release in water and soil to their formulation. We assume the materials are biodegradable since the biodegradation efficiency achieved over 30 %. As the nutrient diffusion and matrix degradation happen concomitantly, we also observed that the clay delays degradation and the KNO3 improved it. Likewise, the storage period can change the biodegradability properties once the material started to degrade. Hereupon, the amount of nutrient delivered will match the amount consumed by the plant, the matrix will degrade and no residue will be left in the soil. Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the soil to have synergy to ensure material harmlessness. Chitosan, montmorillonite, and KNO were considered to develop the EEF because of the high biodegradation potential of the final product. We correlated the material biodegradability and release in water and soil to their formulation. We assume the materials are biodegradable since the biodegradation efficiency achieved over 30 %. As the nutrient diffusion and matrix degradation happen concomitantly, we also observed that the clay delays degradation and the KNO improved it. Likewise, the storage period can change the biodegradability properties once the material started to degrade. Hereupon, the amount of nutrient delivered will match the amount consumed by the plant, the matrix will degrade and no residue will be left in the soil. Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the soil to have synergy to ensure material harmlessness. Chitosan, montmorillonite, and KNO3 were considered to develop the EEF because of the high biodegradation potential of the final product. We correlated the material biodegradability and release in water and soil to their formulation. We assume the materials are biodegradable since the biodegradation efficiency achieved over 30 %. As the nutrient diffusion and matrix degradation happen concomitantly, we also observed that the clay delays degradation and the KNO3 improved it. Likewise, the storage period can change the biodegradability properties once the material started to degrade. Hereupon, the amount of nutrient delivered will match the amount consumed by the plant, the matrix will degrade and no residue will be left in the soil.Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the soil to have synergy to ensure material harmlessness. Chitosan, montmorillonite, and KNO3 were considered to develop the EEF because of the high biodegradation potential of the final product. We correlated the material biodegradability and release in water and soil to their formulation. We assume the materials are biodegradable since the biodegradation efficiency achieved over 30 %. As the nutrient diffusion and matrix degradation happen concomitantly, we also observed that the clay delays degradation and the KNO3 improved it. Likewise, the storage period can change the biodegradability properties once the material started to degrade. Hereupon, the amount of nutrient delivered will match the amount consumed by the plant, the matrix will degrade and no residue will be left in the soil. Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the soil to have synergy to ensure material harmlessness. Chitosan, montmorillonite, and KNO₃ were considered to develop the EEF because of the high biodegradation potential of the final product. We correlated the material biodegradability and release in water and soil to their formulation. We assume the materials are biodegradable since the biodegradation efficiency achieved over 30 %. As the nutrient diffusion and matrix degradation happen concomitantly, we also observed that the clay delays degradation and the KNO₃ improved it. Likewise, the storage period can change the biodegradability properties once the material started to degrade. Hereupon, the amount of nutrient delivered will match the amount consumed by the plant, the matrix will degrade and no residue will be left in the soil.
ArticleNumber	117635
Author	Faez, Roselena Angelo, Luciana Moretti França, Débora
Author_xml	– sequence: 1 givenname: Luciana Moretti orcidid: 0000-0002-0361-8987 surname: Angelo fullname: Angelo, Luciana Moretti organization: Laboratory of Polymeric Materials and Biosorbents, Federal University of São Carlos, UFSCar, 13600970, Araras, SP, Brazil – sequence: 2 givenname: Débora orcidid: 0000-0002-4366-9738 surname: França fullname: França, Débora organization: Laboratory of Polymeric Materials and Biosorbents, Federal University of São Carlos, UFSCar, 13600970, Araras, SP, Brazil – sequence: 3 givenname: Roselena orcidid: 0000-0003-1263-7837 surname: Faez fullname: Faez, Roselena email: faez@ufscar.br organization: Laboratory of Polymeric Materials and Biosorbents, Federal University of São Carlos, UFSCar, 13600970, Araras, SP, Brazil
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Cites_doi	10.1016/j.ijbiomac.2020.06.074 10.1016/j.polymdegradstab.2005.03.001 10.1016/j.scitotenv.2017.09.186 10.1016/j.carbpol.2018.05.014 10.1016/j.carbpol.2007.09.007 10.1016/j.eurpolymj.2012.12.009 10.1080/00380768.2017.1360128 10.1007/BF00750215 10.1016/j.carbpol.2015.03.064 10.3390/plants8100435 10.1590/S0100-40422007000500042 10.2478/v10026-007-0096-6 10.1016/j.marpolbul.2005.02.037 10.1080/15583724.2015.1118123 10.1590/S0100-204X2002000500010
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Keywords	Clay Bartha’s respirometric Sustainable agriculture KNO3 KNO
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Snippet	[Display omitted] •Encapsulation of KNO3 nutrient by chitosan and clay using spray drying technique.•Inorganic materials, clay and fertilizer, influence... Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the...
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StartPage	117635
SubjectTerms	Bartha’s respirometric biodegradability biodegradation chitosan Clay KNO3 microencapsulation montmorillonite soil storage time Sustainable agriculture viability
Title	Biodegradation and viability of chitosan-based microencapsulated fertilizers
URI	https://dx.doi.org/10.1016/j.carbpol.2021.117635 https://www.ncbi.nlm.nih.gov/pubmed/33541660 https://www.proquest.com/docview/2487160462 https://www.proquest.com/docview/2636407650
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