Cellulose nanocarriers via miniemulsion allow Pathogen-Specific agrochemical delivery

Thiago Ouriques Machado; Sebastian J. Beckers; Jochen Fischer; Claudia Sayer; Pedro H.H. de Araújo; Katharina Landfester; Frederik R. Wurm

doi:10.1016/j.jcis.2021.05.030

Cellulose nanocarriers via miniemulsion allow Pathogen-Specific agrochemical delivery

Thiago Ouriques Machado, Sebastian J. Beckers, Jochen Fischer, Claudia Sayer, Pedro H.H. de Araújo, Katharina Landfester, Frederik R. Wurm^*

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

The current spraying of agrochemicals is unselective and ineffective, consuming a high amount of fungicides, which endangers the environment and human health. Cellulose-based nanocarriers (NCs) are a promising tool in sustainable agriculture and suitable vehicles for stimuli-responsive release of agrochemicals to target cellulase-segregating fungi, which cause severe plant diseases such as Apple Canker. Herein, cellulose was modified with undec-10-enoic acid to a hydrophobic and cross-linkable derivative, from which NCs were prepared via thiol-ene addition in miniemulsion. During the crosslinking reaction, the NCs were loaded in situ with hydrophobic fungicides, Captan and Pyraclostrobin. NCs with average sizes ranging from 200 to 300 nm and an agrochemical-load of 20 wt% were obtained. Cellulose-degrading fungi, e.g. Neonectria. ditissima which is responsible for Apple Canker, lead to the release of fungicides from the aqueous NC dispersions suppressing fungal growth. In contrast, the non-cellulase segregating fungi, e.g. Cylindrocladium buxicola, do not degrade the agrochemical-loaded NCs. This selective action against Apple Canker fungi, N. ditissima, proves the efficacy of NC-mediated drug delivery triggered by degradation in the exclusive presence of cellulolytic fungi. Cellulose NCs represent a sustainable alternative to the current unselective spraying of agrochemicals that treats many crop diseases ineffectively.

Original language	English
Pages (from-to)	678-688
Number of pages	11
Journal	Journal of Colloid and Interface Science
Volume	601
Early online date	14 May 2021
DOIs	https://doi.org/10.1016/j.jcis.2021.05.030
Publication status	Published - Nov 2021

Bibliographical note

Acknowledgments:
Parts of this research were supported by the Bio-Based Industries Joint Undertaking under the European Union’s Horizon 2020 research and innovation program “BioRescue” (grant agreement no. 720708). We are also grateful to the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, CAPES, especially to the CAPES-PRINT Program (Project number 88887.310560/2018-00), and to the Conselho Nacional de Desenvolvimento Científico e Tecnológico, CNPq.

Keywords

Cellulose nanocarriers
Drug delivery in plants
Thiol-ene addition
Miniemulsion
Sustainable agriculture
Crop protection

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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MachadoT2021CelluloseFinal published version, 1.96 MBLicence: Creative Commons: Attribution (CC BY)

Cite this

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title = "Cellulose nanocarriers via miniemulsion allow Pathogen-Specific agrochemical delivery",

abstract = "The current spraying of agrochemicals is unselective and ineffective, consuming a high amount of fungicides, which endangers the environment and human health. Cellulose-based nanocarriers (NCs) are a promising tool in sustainable agriculture and suitable vehicles for stimuli-responsive release of agrochemicals to target cellulase-segregating fungi, which cause severe plant diseases such as Apple Canker. Herein, cellulose was modified with undec-10-enoic acid to a hydrophobic and cross-linkable derivative, from which NCs were prepared via thiol-ene addition in miniemulsion. During the crosslinking reaction, the NCs were loaded in situ with hydrophobic fungicides, Captan and Pyraclostrobin. NCs with average sizes ranging from 200 to 300 nm and an agrochemical-load of 20 wt% were obtained. Cellulose-degrading fungi, e.g. Neonectria. ditissima which is responsible for Apple Canker, lead to the release of fungicides from the aqueous NC dispersions suppressing fungal growth. In contrast, the non-cellulase segregating fungi, e.g. Cylindrocladium buxicola, do not degrade the agrochemical-loaded NCs. This selective action against Apple Canker fungi, N. ditissima, proves the efficacy of NC-mediated drug delivery triggered by degradation in the exclusive presence of cellulolytic fungi. Cellulose NCs represent a sustainable alternative to the current unselective spraying of agrochemicals that treats many crop diseases ineffectively.",

keywords = "Cellulose nanocarriers, Drug delivery in plants, Thiol-ene addition, Miniemulsion, Sustainable agriculture, Crop protection",

author = "{Ouriques Machado}, Thiago and Beckers, {Sebastian J.} and Jochen Fischer and Claudia Sayer and {de Ara{\'u}jo}, {Pedro H.H.} and Katharina Landfester and Wurm, {Frederik R.}",

note = "Acknowledgments: Parts of this research were supported by the Bio-Based Industries Joint Undertaking under the European Union{\textquoteright}s Horizon 2020 research and innovation program “BioRescue” (grant agreement no. 720708). We are also grateful to the Coordena{\c c}{\~a}o de Aperfei{\c c}oamento de Pessoal de N{\'i}vel Superior, CAPES, especially to the CAPES-PRINT Program (Project number 88887.310560/2018-00), and to the Conselho Nacional de Desenvolvimento Cient{\'i}fico e Tecnol{\'o}gico, CNPq.",

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doi = "10.1016/j.jcis.2021.05.030",

language = "English",

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journal = "Journal of Colloid and Interface Science",

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T1 - Cellulose nanocarriers via miniemulsion allow Pathogen-Specific agrochemical delivery

AU - Ouriques Machado, Thiago

AU - Beckers, Sebastian J.

AU - Fischer, Jochen

AU - Sayer, Claudia

AU - de Araújo, Pedro H.H.

AU - Landfester, Katharina

AU - Wurm, Frederik R.

N1 - Acknowledgments: Parts of this research were supported by the Bio-Based Industries Joint Undertaking under the European Union’s Horizon 2020 research and innovation program “BioRescue” (grant agreement no. 720708). We are also grateful to the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, CAPES, especially to the CAPES-PRINT Program (Project number 88887.310560/2018-00), and to the Conselho Nacional de Desenvolvimento Científico e Tecnológico, CNPq.

PY - 2021/11

Y1 - 2021/11

N2 - The current spraying of agrochemicals is unselective and ineffective, consuming a high amount of fungicides, which endangers the environment and human health. Cellulose-based nanocarriers (NCs) are a promising tool in sustainable agriculture and suitable vehicles for stimuli-responsive release of agrochemicals to target cellulase-segregating fungi, which cause severe plant diseases such as Apple Canker. Herein, cellulose was modified with undec-10-enoic acid to a hydrophobic and cross-linkable derivative, from which NCs were prepared via thiol-ene addition in miniemulsion. During the crosslinking reaction, the NCs were loaded in situ with hydrophobic fungicides, Captan and Pyraclostrobin. NCs with average sizes ranging from 200 to 300 nm and an agrochemical-load of 20 wt% were obtained. Cellulose-degrading fungi, e.g. Neonectria. ditissima which is responsible for Apple Canker, lead to the release of fungicides from the aqueous NC dispersions suppressing fungal growth. In contrast, the non-cellulase segregating fungi, e.g. Cylindrocladium buxicola, do not degrade the agrochemical-loaded NCs. This selective action against Apple Canker fungi, N. ditissima, proves the efficacy of NC-mediated drug delivery triggered by degradation in the exclusive presence of cellulolytic fungi. Cellulose NCs represent a sustainable alternative to the current unselective spraying of agrochemicals that treats many crop diseases ineffectively.

AB - The current spraying of agrochemicals is unselective and ineffective, consuming a high amount of fungicides, which endangers the environment and human health. Cellulose-based nanocarriers (NCs) are a promising tool in sustainable agriculture and suitable vehicles for stimuli-responsive release of agrochemicals to target cellulase-segregating fungi, which cause severe plant diseases such as Apple Canker. Herein, cellulose was modified with undec-10-enoic acid to a hydrophobic and cross-linkable derivative, from which NCs were prepared via thiol-ene addition in miniemulsion. During the crosslinking reaction, the NCs were loaded in situ with hydrophobic fungicides, Captan and Pyraclostrobin. NCs with average sizes ranging from 200 to 300 nm and an agrochemical-load of 20 wt% were obtained. Cellulose-degrading fungi, e.g. Neonectria. ditissima which is responsible for Apple Canker, lead to the release of fungicides from the aqueous NC dispersions suppressing fungal growth. In contrast, the non-cellulase segregating fungi, e.g. Cylindrocladium buxicola, do not degrade the agrochemical-loaded NCs. This selective action against Apple Canker fungi, N. ditissima, proves the efficacy of NC-mediated drug delivery triggered by degradation in the exclusive presence of cellulolytic fungi. Cellulose NCs represent a sustainable alternative to the current unselective spraying of agrochemicals that treats many crop diseases ineffectively.

KW - Cellulose nanocarriers

KW - Drug delivery in plants

KW - Thiol-ene addition

KW - Miniemulsion

KW - Sustainable agriculture

KW - Crop protection

U2 - 10.1016/j.jcis.2021.05.030

DO - 10.1016/j.jcis.2021.05.030

M3 - Article

SN - 0021-9797

VL - 601

SP - 678

EP - 688

JO - Journal of Colloid and Interface Science

JF - Journal of Colloid and Interface Science

ER -

Cellulose nanocarriers via miniemulsion allow Pathogen-Specific agrochemical delivery

Abstract

Bibliographical note

Keywords

UN SDGs

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