Nanotechnology, a frontier in agricultural science, a novel approach in abiotic stress management and convergence with new age medicine-A review

The Science of The Total Environment, Journal Year: 2023, Volume and Issue: 912, P. 169097 - 169097

Published: Dec. 5, 2023

Language: Английский

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Advancing environmental sustainability through microbial reprogramming in growth improvement, stress alleviation, and phytoremediation

Plant Stress, Journal Year: 2023, Volume and Issue: 10, P. 100283 - 100283

Published: Nov. 7, 2023

The substantial influence of microbes on crop growth, stress resilience, and ecological restoration has generated considerable interest due to the intricate interplay between these microorganisms plants. This study comprehensively examines diverse mechanisms through which contribute plant well-being, mitigate stress, facilitate phytoremediation processes. Microorganisms encompassing bacteria, fungi, archaea, viruses, have demonstrated their knack for stirring up growth-enabling hormones, activating pathways tuned ameliorating availability nutrients by means fixation solubilization Furthermore, such also display immense potential in field strategies aiding plants extraction, alteration, detoxification contaminants found both soil water. Complementing this, enable phytoextraction, rhizofiltration, phytostabilization, rhizodegradation, owing harmonious interaction with purification tainted environments. However, it is critical address legal issues, moral dilemmas, unintended consequences as are increasingly incorporated into sustainable agriculture methods. Optimizing microbial therapies ensuring appropriate use offers promising insights when leveraging cutting-edge technologies like omics genetic engineering. Coordination among academics, practitioners, policymakers still crucial quest a more robust peaceful coexistence microbes, plants, ecosystems. In nutshell, this work highlights pivotal role that poised assume, guiding trajectory agriculture, alleviating fostering environmental sustainability far-reaching implications.

Language: Английский

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Synergistic interactions of nanoparticles and plant growth promoting rhizobacteria enhancing soil-plant systems: a multigenerational perspective

Frontiers in Plant Science, Journal Year: 2024, Volume and Issue: 15

Published: April 29, 2024

Sustainable food security and safety are major concerns on a global scale, especially in developed nations. Adverse agroclimatic conditions affect the largest agricultural-producing areas, which reduces production of crops. Achieving sustainable is challenging because several factors, such as soil flooding/waterlogging, ultraviolet (UV) rays, acidic/sodic soil, hazardous ions, low high temperatures, nutritional imbalances. Plant growth-promoting rhizobacteria (PGPR) widely employed in-vitro they recognized more environmentally sustainably friendly approach to increasing crop yield contaminated fertile soil. Conversely, use nanoparticles (NPs) an amendment has recently been proposed economical way enhance texture improving agricultural yields. Nowadays, various research experiments have combined or individually applied with PGPR NPs for balancing elements response control adverse situations, expectation that both additives might perform well together. According findings, interactive applications significantly increase yields than alone. The present review summarized functional mechanistic basis role NPs. However, this article focused potential direction realize possible interaction at large scale upcoming years.

Language: Английский

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Small particles, big effects: How nanoparticles can enhance plant growth in favorable and harsh conditions

Journal of Integrative Plant Biology, Journal Year: 2024, Volume and Issue: 66(7), P. 1274 - 1294

Published: April 5, 2024

ABSTRACT By 2050, the global population is projected to reach 9 billion, underscoring imperative for innovative solutions increase grain yield and enhance food security. Nanotechnology has emerged as a powerful tool, providing unique this challenge. Nanoparticles (NPs) can improve plant growth nutrition under normal conditions through their high surface‐to‐volume ratio physical chemical properties. Moreover, they be used monitor crop health status augment resilience against abiotic stresses (such salinity, drought, heavy metals, extreme temperatures) that endanger agriculture. Application of NPs stress tolerance mechanisms in plants, minimizing potential losses raise quality. This review highlights need comprehensive exploration environmental implications safety nanomaterials provides valuable guidelines researchers, policymakers, agricultural practitioners. With thoughtful stewardship, nanotechnology holds immense promise shaping environmentally sustainable agriculture amid escalating challenges.

Language: Английский

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Advances in microbial based bio-inoculum for amelioration of soil health and sustainable crop production

Current Research in Microbial Sciences, Journal Year: 2024, Volume and Issue: 7, P. 100251 - 100251

Published: Jan. 1, 2024

The adoption of sustainable agricultural practices is increasingly imperative in addressing global food security and environmental concerns, with microbial based bio-inoculums emerging as a promising approach for nurturing soil health fostering crop production.This review article explores the potential bio-inoculumsor biofertilizers transformative toenhance plant disease resistance growth. It commercial prospects biofertilizers, highlighting their role concerns associated conventional fertilizers while meeting growing demand eco-friendly practices. Additionally, this discusses future emphasizing ongoing advancements biotechnology formulation techniques that are expected to enhance efficacy applicability. Furthermore, provides insights into strategies successful acceptance among farmers, including importance quality control, assurance, education initiatives raise awareness about benefits overcome barriers adoption. By synthesizing current research findings industrial developments, offers valuable guidance stakeholders seeking exploit or beneficial microbes promote health, ensure production, challenges modern agriculture.

Language: Английский

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Employing plant growth-promoting rhizobacteria for abiotic stress mitigation in plants: with a focus on drought stress

Deleted Journal, Journal Year: 2025, Volume and Issue: 7(1)

Published: Jan. 10, 2025

Abiotic stresses, particularly drought, pose a significant threat to global agriculture and affect crop yield quality. Plant Growth-Promoting Rhizobacteria (PGPR) have emerged as promising solution for mitigating these stresses enhancing plant resilience. This review explores the role of PGPR in alleviating abiotic stress with special focus on drought. contribute tolerance through various mechanisms, including production phytohormones, such indole-3-acetic acid, enhancement nutrient uptake, modulation responses. These bacteria can improve soil structure, increase water retention, promote synthesis osmoprotectants, which helps plants withstand drought conditions. examines recent advancements our understanding molecular physiological interactions between under stress. highlights how genetic modifications synthetic biology be leveraged enhance efficacy. Furthermore, integration other technologies, nanotechnology biostimulants, has been discussed means improving resistance crops. Challenges deploying PGPR, variability strain effectiveness field application strategies, were also addressed. By synthesizing current knowledge identifying future research directions, this aims provide comprehensive overview employed combat support sustainable agriculture. findings emphasize potential key component integrated management offering pathway resilience ensuring food security face climate change.

Language: Английский

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The Synthesis of Selenium Nanoparticles and Their Applications in Enhancing Plant Stress Resistance: A Review

Nanomaterials, Journal Year: 2025, Volume and Issue: 15(4), P. 301 - 301

Published: Feb. 16, 2025

Nanoparticle-based strategies have emerged as transformative tools for addressing critical challenges in sustainable agriculture, offering precise modulation of plant-environment interactions through enhanced biocompatibility and stimuli-responsive delivery mechanisms. Among these innovations, selenium nanoparticles (SeNPs) present unique advantages due to their dual functionality both essential micronutrient carriers redox homeostasis modulators. Compared conventional treatments, SeNPs offer a more efficient environmentally friendly solution improving plant resilience while minimizing toxicity, even at low doses. This review provides comprehensive analysis methods synthesizing SeNPs, including chemical reduction, green synthesis using extracts, biological techniques with microbial agents. Additionally, the discusses effects on biotic abiotic stress responses plants, focusing how activate stress-response pathways enhance immune function. The primary objective this study is theoretical insights into application modern such crop yield quality under conditions. Moreover, research highlights role advancing agricultural practices by reducing reliance fertilizers pesticides. findings underscore potential management, contributing eco-friendly future.

Language: Английский

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Integrative Mechanisms of Plant Salt Tolerance: Biological Pathways, Phytohormonal Regulation, and Technological Innovations

Plant Stress, Journal Year: 2024, Volume and Issue: unknown, P. 100652 - 100652

Published: Oct. 1, 2024

Language: Английский

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Harnessing microbe-based soil inoculums, strigolactones, and nanotechnology for sustainable agriculture: Mechanisms, innovations, and challenges

Pedosphere, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 1, 2025

Language: Английский

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Assessment of the phytotoxicity of HNTs on two plants, Cynodon dactylon and Brassica rapa L

Environmental Science Nano, Journal Year: 2024, Volume and Issue: 11(7), P. 3066 - 3079

Published: Jan. 1, 2024

High concentration of HNTs dispersion inhibited plant growth, and was more phytotoxic to Brassica rapa L than Cynodon dactylon .

Language: Английский

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