Functions and strategies for enhancing zinc availability in plants for sustainable agriculture

Frontiers in Plant Science, Journal Year: 2022, Volume and Issue: 13

Published: Oct. 7, 2022

Zinc (Zn), which is regarded as a crucial micronutrient for plants, and considered to be vital plants. Zn has significant role in the biochemistry metabolism of plants owing its significance toxicity biological systems at specific concentrations, i.e., insufficient or harmful above optimal range. It contributes several cellular physiological activities promotes plant growth, development, yield. an important structural, enzymatic, regulatory component many proteins enzymes. Consequently, it essential understand interplay chemistry soil, absorption, transport, response deficiency, well develop sustainable strategies deficiency appears widespread prevalent issue crops across world, resulting severe production losses that compromise nutritional quality. Considering this, enhancing usage efficiency most effective strategy, entails improving architecture root system, absorption complexes by organic acids, uptake translocation mechanisms Here, we provide overview various biotechnological techniques improve utilization ensure quality crop. In light current status, effort been made further dissect assimilation, function, symptoms caused As result, have described potential information on diverse solutions, such structure alteration, use biostimulators, nanomaterials, may used efficiently uptake, thereby assuring agriculture.

Language: Английский

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Nanofertilizers: Types, Delivery and Advantages in Agricultural Sustainability

Agrochemicals, Journal Year: 2023, Volume and Issue: 2(2), P. 296 - 336

Published: June 9, 2023

In an alarming tale of agricultural excess, the relentless overuse chemical fertilizers in modern farming methods have wreaked havoc on once-fertile soil, mercilessly depleting its vital nutrients while inflicting irreparable harm delicate balance surrounding ecosystem. The excessive use such leaves residue products, pollutes environment, upsets agrarian ecosystems, and lowers soil quality. Furthermore, a significant proportion nutrient content, including nitrogen, phosphorus, potassium, is lost from (50–70%) before being utilized. Nanofertilizers, other hand, nanoparticles to control release nutrients, making them more efficient cost-effective than traditional fertilizers. Nanofertilizers comprise one or plant within where at least 50% particles are smaller 100 nanometers. Carbon nanotubes, graphene, quantum dots some examples types nanomaterials used production nanofertilizers. new generation that utilize advanced nanotechnology provide sustainable method fertilizing crops. They designed deliver controlled manner, ensuring gradually released over extended period, thus providing steady supply essential elements plants. controlled-release system fertilizers, as it reduces need for frequent application amount fertilizer. These high surface area-to-volume ratio, ideal holding releasing nutrients. Naturally occurring found various sources, volcanic ash, ocean, biological matter viruses dust. However, regarding large-scale production, relying solely naturally may not be sufficient practical. agriculture, has been primarily increase crop minimizing losses activating defense mechanisms against pests, insects, environmental challenges. nanofertilizers can reduce runoff leaching into improving sustainability. also improve fertilizer efficiency, leading higher yields reducing overall cost application. especially beneficial areas inefficient ineffective. way fertilize crops impact product promising technology help meet increasing demand food Currently, face limitations, costs potential safety concerns due nanomaterials, further research needed fully understand their long-term effects health, growth, environment.

Language: Английский

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Biological Synthesis of Silver Nanoparticles and Prospects in Plant Disease Management

Molecules, Journal Year: 2022, Volume and Issue: 27(15), P. 4754 - 4754

Published: July 25, 2022

Exploration of nanoparticles (NPs) for various biological and environmental applications has become one the most important attributes nanotechnology. Due to remarkable physicochemical properties, silver (AgNPs) are explored used NPs in wide-ranging applications. Also, they have proven be high commercial use since possess great chemical stability, conductivity, catalytic activity, antimicrobial potential. Though several methods including physical been devised, approaches using organisms such as bacteria, fungi, plants emerged economical, safe, effective alternatives biosynthesis AgNPs. Recent studies highlight potential AgNPs modern agricultural practices control growth spread infectious pathogenic microorganisms introduction effectively reduces plant diseases caused by a spectrum bacteria fungi. In this review, we discuss their disease management with recent examples. It is proposed that prospective successful inhibition pathogen management. This review gives better understanding new AgNP synthesis modes optimized could contribute sustainable agriculture.

Language: Английский

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Nanotechnology-based controlled release of sustainable fertilizers. A review

Environmental Chemistry Letters, Journal Year: 2022, Volume and Issue: 20(4), P. 2709 - 2726

Published: April 14, 2022

Abstract The rising population is increasing food demand, yet actual crop production limited by the poor efficiency of classical fertilizers. In particular, only about 40–60% fertilizer nitrogen, 15–20% phosphorus and 50–60% potassium are used plants, rest ending polluting environment. Nanofertilizers promising alternatives. Here, we review plant nutrients, synthesis zinc oxide nanoparticles, encapsulation nanoparticles in fertilizers, effect on plants.

Language: Английский

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Nano-Biofertilizer Formulations for Agriculture: A Systematic Review on Recent Advances and Prospective Applications

Bioengineering, Journal Year: 2023, Volume and Issue: 10(9), P. 1010 - 1010

Published: Aug. 25, 2023

In the twenty-first century, nanotechnology has emerged as a potentially game-changing innovation. Essential minerals are mostly unavailable in modern cropping systems without application of synthetic fertilizers, which have serious negative impact on ecosystem. This review focuses coupling nanoparticles with biofertilizers to function nano-biofertilizers (NBFs), may ensure world food security face rising population. The inoculation plants NBFs improves plant development and resistance stress. Metallic well organic components comprising polysaccharide chitosan be encapsulated, utilizing microbe-based green synthesis make NBFs, circumvents limitations conventional chemical fertilizers. is just getting started, shows more promise than other approaches for changing farming into high-tech “smart” farming. study used bibliographic analysis using Web Science find relevant papers “nano biofertilizers”, “plants”, “agriculture”. These subjects received lot attention literature, shown by co-citation patterns these publications. novel use agriculture explored this research work, makes unique characteristics nanoscale materials address urgent concerns including nutrient delivery, crop protection, sustainable methods. attempts fill some gaps our knowledge discussing formulation, fabrication, characterization elucidating mechanisms interact how benefits ability withstand biotic abiotic stress brought about climate change. also addresses recent developments future directions NBF formulations field.

Language: Английский

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Exploring Sustainable Agriculture with Nitrogen-Fixing Cyanobacteria and Nanotechnology

Molecules, Journal Year: 2024, Volume and Issue: 29(11), P. 2534 - 2534

Published: May 28, 2024

The symbiotic relationship between nitrogen-fixing cyanobacteria and plants offers a promising avenue for sustainable agricultural practices environmental remediation. This review paper explores the molecular interactions nanoparticles, shedding light on their potential synergies in nanotechnology. Delving into evolutionary history specialized adaptations of cyanobacteria, this highlights pivotal role fixing atmospheric nitrogen, which is crucial ecosystem productivity. discusses unique characteristics metal nanoparticles emerging applications agriculture, including improved nutrient delivery, stress tolerance, disease resistance. It delves complex mechanisms nanoparticle entry plant cells, intracellular transport, localization, uncovering impact root-shoot translocation systemic distribution. Furthermore, elucidates cellular responses to exposure, emphasizing oxidative stress, signaling pathways, enhanced uptake. as carriers essential nutrients implications nutrient-use efficiency crop yield are also explored. Insights modulation responses, resistance, phytoremediation strategies demonstrate multifaceted benefits agriculture. Current trends, prospects, challenges nanotechnology discussed, underscoring need responsible safe utilization. By harnessing power leveraging attributes paves way innovative, sustainable, efficient practices.

Language: Английский

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Next generation chemical priming: with a little help from our nanocarrier friends

Trends in Plant Science, Journal Year: 2024, Volume and Issue: 29(2), P. 150 - 166

Published: Jan. 16, 2024

Plants are exposed to multiple threats linked climate change which can cause critical yield losses. Therefore, designing novel crop management tools is crucial. Chemical priming has recently emerged as an effective technology for improving tolerance stress factors. Several compounds such phytohormones, reactive species, and synthetic chimeras have been identified promising agents. Following remarkable developments in nanotechnology, several unique nanocarriers (NCs) engineered that act smart delivery systems. These provide eco-friendly, next-generation method chemical priming, leading increased efficiency reduced overall usage. We review NCs (NENCs) vehicles agents advanced strategies, address challenges opportunities be met towards achieving sustainable agriculture.

Language: Английский

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Nano enabled agriculture for sustainable soil

Waste Management Bulletin, Journal Year: 2024, Volume and Issue: 2(1), P. 152 - 161

Published: Jan. 6, 2024

Conventional agriculture heavily relies on chemical compounds, adversely impacting health and ecosystems. Ensuring sustainable soil necessitates the intelligent delivery of components to crop plants without any losses. Nanomaterials hold significant potential for enhancing agrochemical efficiency (50%), production (10-20%), health. The nanomaterial improve different properties its mechanism in plant compartments, remains poorly understood. This review addresses critical questions regarding role NMs improving health, effects environment. Highlighting knowledge gaps, article outlines essential areas future research ensure applications nanotechnology agriculture.

Language: Английский

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The synergistic potential of biochar and nanoparticles in phytoremediation and enhancing cadmium tolerance in plants

Chemosphere, Journal Year: 2024, Volume and Issue: 354, P. 141672 - 141672

Published: March 11, 2024

Language: Английский

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Nano hybrid fertilizers: A review on the state of the art in sustainable agriculture

The Science of The Total Environment, Journal Year: 2024, Volume and Issue: 929, P. 172533 - 172533

Published: April 21, 2024

Language: Английский

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