Unlocking the potential of nanoscale sulfur in sustainable agriculture

Yi Sun; Yaqi Jiang; Yuanbo Li; Qibin Wang; Guikai Zhu; Tianjing Yi; Quanlong Wang; Yi Wang; Om Parkash Dhankher; Zhiqiang Tan; Iseult Lynch; Jason C. White; Yukui Rui; Peng Zhang

doi:10.1039/d3sc06122a

Unlocking the potential of nanoscale sulfur in sustainable agriculture

Yi Sun, Yaqi Jiang, Yuanbo Li, Qibin Wang, Guikai Zhu, Tianjing Yi, Quanlong Wang, Yi Wang, Om Parkash Dhankher, Zhiqiang Tan, Iseult Lynch, Jason C. White^*, Yukui Rui^*, Peng Zhang^*

^*Corresponding author for this work

Earth and Environmental Sciences

Research output: Contribution to journal › Review article › peer-review

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Abstract

The global population is growing rapidly, which poses a significant challenge to food security. Innovation in agricultural technologies is necessary to achieve sustainable development in agriculture and combat food insecurity. Nanotechnology has emerged as a promising tool in agriculture; compared to conventional agricultural chemicals, demonstrated benefits include increased efficiency of delivery and utilization of both nutrients and pesticides, as well as nanoscale-specific stimulation of stress tolerance pathways. Among the many studied nanomaterials, nano-sulfur has demonstrated superior effects at enhancing plant resilience to pathogens and abiotic stresses, as well as improving plant growth and nutritional quality of edible tissues. A number of published studies have investigated the physiological effects (growth promotion, disease resistance) of single or several sulfur and sulfide compounds on crop species. However, there is no systematic analysis of this literature, including the effects and specific mechanisms of various sulfur forms in agricultural applications. In this review, we will discuss the effects of sulfur (including nano-sulfur) on crop species, the underlying mechanisms of action for their transport and transformation in the soil-plant system, and evaluate their suitability in sustainable agricultural development. Additionally, we discuss the current challenges and knowledge gaps for nanoscale sulfur use in agriculture, and describe future research directions to advance our understanding of the sustainable use of this material at the scale of individual fields.

Original language	English
Number of pages	14
Journal	Chemical Science
Early online date	1 Mar 2024
DOIs	https://doi.org/10.1039/d3sc06122a
Publication status	E-pub ahead of print - 1 Mar 2024

Bibliographical note

Acknowledgements
Funding support from the National Key R&D Program of China (2017YFD0801103, 2017YFD0801300), and the 111 project of the Education Ministry of China (No. B18053), and the National Natural Science Foundation (32130081) ,and the National Key Research and Development Program of China (No. 2023YFC3711500) and the Fundamental Research Funds for the Central Universities are acknowledged. JCW and OPD acknowledge USDA NIFA AFRI Award 2020-67022-32416.

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title = "Unlocking the potential of nanoscale sulfur in sustainable agriculture",

abstract = "The global population is growing rapidly, which poses a significant challenge to food security. Innovation in agricultural technologies is necessary to achieve sustainable development in agriculture and combat food insecurity. Nanotechnology has emerged as a promising tool in agriculture; compared to conventional agricultural chemicals, demonstrated benefits include increased efficiency of delivery and utilization of both nutrients and pesticides, as well as nanoscale-specific stimulation of stress tolerance pathways. Among the many studied nanomaterials, nano-sulfur has demonstrated superior effects at enhancing plant resilience to pathogens and abiotic stresses, as well as improving plant growth and nutritional quality of edible tissues. A number of published studies have investigated the physiological effects (growth promotion, disease resistance) of single or several sulfur and sulfide compounds on crop species. However, there is no systematic analysis of this literature, including the effects and specific mechanisms of various sulfur forms in agricultural applications. In this review, we will discuss the effects of sulfur (including nano-sulfur) on crop species, the underlying mechanisms of action for their transport and transformation in the soil-plant system, and evaluate their suitability in sustainable agricultural development. Additionally, we discuss the current challenges and knowledge gaps for nanoscale sulfur use in agriculture, and describe future research directions to advance our understanding of the sustainable use of this material at the scale of individual fields.",

author = "Yi Sun and Yaqi Jiang and Yuanbo Li and Qibin Wang and Guikai Zhu and Tianjing Yi and Quanlong Wang and Yi Wang and Dhankher, {Om Parkash} and Zhiqiang Tan and Iseult Lynch and White, {Jason C.} and Yukui Rui and Peng Zhang",

note = "Acknowledgements Funding support from the National Key R&D Program of China (2017YFD0801103, 2017YFD0801300), and the 111 project of the Education Ministry of China (No. B18053), and the National Natural Science Foundation (32130081) ,and the National Key Research and Development Program of China (No. 2023YFC3711500) and the Fundamental Research Funds for the Central Universities are acknowledged. JCW and OPD acknowledge USDA NIFA AFRI Award 2020-67022-32416.",

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AU - Sun, Yi

AU - Jiang, Yaqi

AU - Li, Yuanbo

AU - Wang, Qibin

AU - Zhu, Guikai

AU - Yi, Tianjing

AU - Wang, Quanlong

AU - Wang, Yi

AU - Dhankher, Om Parkash

AU - Tan, Zhiqiang

AU - Lynch, Iseult

AU - White, Jason C.

AU - Rui, Yukui

AU - Zhang, Peng

N1 - Acknowledgements Funding support from the National Key R&D Program of China (2017YFD0801103, 2017YFD0801300), and the 111 project of the Education Ministry of China (No. B18053), and the National Natural Science Foundation (32130081) ,and the National Key Research and Development Program of China (No. 2023YFC3711500) and the Fundamental Research Funds for the Central Universities are acknowledged. JCW and OPD acknowledge USDA NIFA AFRI Award 2020-67022-32416.

PY - 2024/3/1

Y1 - 2024/3/1

N2 - The global population is growing rapidly, which poses a significant challenge to food security. Innovation in agricultural technologies is necessary to achieve sustainable development in agriculture and combat food insecurity. Nanotechnology has emerged as a promising tool in agriculture; compared to conventional agricultural chemicals, demonstrated benefits include increased efficiency of delivery and utilization of both nutrients and pesticides, as well as nanoscale-specific stimulation of stress tolerance pathways. Among the many studied nanomaterials, nano-sulfur has demonstrated superior effects at enhancing plant resilience to pathogens and abiotic stresses, as well as improving plant growth and nutritional quality of edible tissues. A number of published studies have investigated the physiological effects (growth promotion, disease resistance) of single or several sulfur and sulfide compounds on crop species. However, there is no systematic analysis of this literature, including the effects and specific mechanisms of various sulfur forms in agricultural applications. In this review, we will discuss the effects of sulfur (including nano-sulfur) on crop species, the underlying mechanisms of action for their transport and transformation in the soil-plant system, and evaluate their suitability in sustainable agricultural development. Additionally, we discuss the current challenges and knowledge gaps for nanoscale sulfur use in agriculture, and describe future research directions to advance our understanding of the sustainable use of this material at the scale of individual fields.

AB - The global population is growing rapidly, which poses a significant challenge to food security. Innovation in agricultural technologies is necessary to achieve sustainable development in agriculture and combat food insecurity. Nanotechnology has emerged as a promising tool in agriculture; compared to conventional agricultural chemicals, demonstrated benefits include increased efficiency of delivery and utilization of both nutrients and pesticides, as well as nanoscale-specific stimulation of stress tolerance pathways. Among the many studied nanomaterials, nano-sulfur has demonstrated superior effects at enhancing plant resilience to pathogens and abiotic stresses, as well as improving plant growth and nutritional quality of edible tissues. A number of published studies have investigated the physiological effects (growth promotion, disease resistance) of single or several sulfur and sulfide compounds on crop species. However, there is no systematic analysis of this literature, including the effects and specific mechanisms of various sulfur forms in agricultural applications. In this review, we will discuss the effects of sulfur (including nano-sulfur) on crop species, the underlying mechanisms of action for their transport and transformation in the soil-plant system, and evaluate their suitability in sustainable agricultural development. Additionally, we discuss the current challenges and knowledge gaps for nanoscale sulfur use in agriculture, and describe future research directions to advance our understanding of the sustainable use of this material at the scale of individual fields.

U2 - 10.1039/d3sc06122a

DO - 10.1039/d3sc06122a

M3 - Review article

SN - 2041-6520

JO - Chemical Science

JF - Chemical Science

ER -

Unlocking the potential of nanoscale sulfur in sustainable agriculture

Abstract

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