Nanoenabled Enhancement of Plant Tolerance to Heat and Drought Stress on Molecular Response

Zhao, Weichen; Wu, Zhangguo; Amde, Meseret; Zhu, Guikai; Wei, Yujing; Zhou, Pingfan; Zhang, Qinghua; Song, Maoyong; Tan, Zhiqiang; Zhang, Peng; Rui, Yukui; Lynch, Iseult

doi:10.1021/acs.jafc.3c04838

Cited by 10 publications

(2 citation statements)

References 177 publications

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“…Plants can be protected against heat stress by enhancing the antioxidant defense system and mitigating physio-biochemical and gene expression attributes [209][210][211]. Under heat stress, NMs offer many advantages for targeted slow release and transportation compared with organic molecules [212]. Applied NMs can support stressed plants to reduce the negative effects of heat stress and improve their tolerance to high temperatures [213].…”

Section: Nano-food Farming and Nanotoxicitymentioning

confidence: 99%

“…Applied NMs can support stressed plants to reduce the negative effects of heat stress and improve their tolerance to high temperatures [213]. These NMs can also regulate and activate specific stress-related genes, which in turn increase heat shock protein activity and aquaporin to enable plants' resistance to such stress [212]. The application of NMs also enhances the plant survival under such stress conditions by supporting the adaptations of the plant anatomy and regulating the opening of plant stomata under heat stress [214].…”

Section: Nano-food Farming and Nanotoxicitymentioning

confidence: 99%

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Nano-Food Farming Approaches to Mitigate Heat Stress under Ongoing Climate Change: A Review

El-Ramady,

Prokisch,

El-Mahrouk

et al. 2024

Agriculture

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Increased heat stress is a common feature of global climate change and can cause adverse impacts on crops from germination through maturation and harvest. This review focuses on the impacts of extreme heat (>35 °C) on plants and their physiology and how they affect food and water security. The emphasis is on what can be done to minimize the negative effects of heat stress, which includes the application of various materials and approaches. Nano-farming is highlighted as one promising approach. Heat is often combined with drought, salinity, and other stresses, which together affect the whole agroecosystem, including soil, plants, water, and farm animals, leading to serious implications for food and water resources. Indeed, there is no single remedy or approach that can overcome such grand issues. However, nano-farming can be part of an adaptation strategy. More studies are needed to verify the potential benefits of nanomaterials but also to investigate any negative side-effects, particularly under the intensive application of nanomaterials, and what problems this might create, including potential nanotoxicity.

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Section: Nano-food Farming and Nanotoxicitymentioning

confidence: 99%

Section: Nano-food Farming and Nanotoxicitymentioning

confidence: 99%

Nano-Food Farming Approaches to Mitigate Heat Stress under Ongoing Climate Change: A Review

El-Ramady,

Prokisch,

El-Mahrouk

et al. 2024

Agriculture

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Two birds with one stone: Multifunctional controlled‐release formulations of pesticides

Xu,

Chen,

Shangguan

et al. 2024

New Plant Protection

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Controlled release and nanotechnology techniques hold promising potential for propelling the pesticide industry toward the goals of green revolution. This study introduces the concept of atom economy into the multifunctionality of controlled‐release formulations (CRFs) of pesticides from both economic and sustainable perspectives. In addition to their core function of controlling the release of active ingredient, carriers also provide additional benefits, including enhanced foliar adhesion and pesticide translocation, nutritional function, synergistic bioactivity, safety for nontarget organisms, crop stress alleviation, reduced soil leaching, soil remediation, and fluorescence visualization. These additional functions are highlighted and taken seriously. Through ingenious excogitation, the multifunctional CRFs of pesticides can achieve multiple objectives, enhancing input efficiency while minimizing environmental impacts. We tentatively blazed a trail by reviewing the recent advances in multifunctional CRFs of pesticides from the perspective of green chemistry. Additionally, potential development and implementation barriers of CRFs were discussed, emphasizing the necessity for robust field trials and comprehensive systems‐level efficacy/biosafety evaluations to substantially boost the technical readiness and performance of multifunctional CRFs of pesticides. Our goal is to expand the multifunctional concept for pesticide formulations, thereby accelerating the development of global sustainable agrochemical products.

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Biomass-derived carbon dots enhanced maize (Zea mays L.) drought tolerance by regulating phyllosphere microorganisms and ion fluxes

Ji,

Cheng,

Le Yue

et al. 2024

Environmental and Experimental Botany

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Nanoenabled Enhancement of Plant Tolerance to Heat and Drought Stress on Molecular Response

Cited by 10 publications

References 177 publications

Nano-Food Farming Approaches to Mitigate Heat Stress under Ongoing Climate Change: A Review

Nano-Food Farming Approaches to Mitigate Heat Stress under Ongoing Climate Change: A Review

Two birds with one stone: Multifunctional controlled‐release formulations of pesticides

Biomass-derived carbon dots enhanced maize (Zea mays L.) drought tolerance by regulating phyllosphere microorganisms and ion fluxes

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