ACS Applied Bio Materials, Journal Year: 2024, Volume and Issue: unknown
Published: Dec. 17, 2024
The synthesis of nanomaterials from renewable resources has emerged as an environmentally friendly alternative. This approach helps to reduce the use chemical fertilizers in agricultural production, further reducing potential harm ecosystem and effectively burden on environment. In this work, we synthesized
Language: Английский
Critical Reviews in Environmental Science and Technology, Journal Year: 2025, Volume and Issue: unknown, P. 1 - 25
Published: Jan. 3, 2025
Managing farmlands' heavy metal (HM) pollution is crucial for improving plant growth and ensuring agricultural product safety. While low to medium doses of HM exposure may not directly result in crop reduction, they can lead accumulation plants potential food-chain risks, as well trigger the reactive oxygen species (ROS). Excessive ROS cause oxidative stress irreversible damage cells. Nanozymes, cost-effective stable artificial nanoparticles with enzyme-like activity, have been widely used multiple fields. Over past decade, research has confirmed certain nanozymes' effectiveness systemic immunity during remediation. The activities nanozymes hinge on their physicochemical properties, while biological effects also depend application methods, size, charge, coating, varieties, stages. Therefore, it understand nanozyme-plant interactions resistance mechanisms HMs. This paper comprehensively reviews nanozyme-mediated scavenging across enzymology, metabolomics, proteomics, transcriptomics. It introduces pathways effects, influencing factors, possible prospects. review provide a theoretical framework mitigation along other abiotic stresses agriculture sustainable "precision fertilization" nanozymes.
Language: Английский
Citations
2
Chemical Engineering Journal, Journal Year: 2025, Volume and Issue: unknown, P. 162427 - 162427
Published: April 1, 2025
Language: Английский
Citations
1
Journal of Agricultural and Food Chemistry, Journal Year: 2025, Volume and Issue: unknown
Published: Jan. 3, 2025
InfoMetricsFiguresRef. Journal of Agricultural and Food ChemistryASAPArticle This publication is free to access through this site. Learn More CiteCitationCitation abstractCitation referencesMore citation options ShareShare onFacebookX (Twitter)WeChatLinkedInRedditEmailJump toExpandCollapse ViewpointJanuary 3, 2025Nanoagrochemicals May Present Safety RisksClick copy article linkArticle link copied!Junjie Du*Junjie DuCollege Life Science, Shanxi Engineering Research Center Microbial Application Technologies, Normal University, Taiyuan 030031, China*[email protected]More by Junjie Duhttps://orcid.org/0000-0002-8532-5925Xiangang HuXiangang HuCarbon Neutrality Interdisciplinary Science Center, Nankai Tianjin 300350, ChinaKey Laboratory Pollution Processes Environmental Criteria (Ministry Education), College Engineering, ChinaMore Xiangang Huhttps://orcid.org/0000-0002-9403-816XQixing Zhou*Qixing ZhouCarbon Qixing ZhouOpen PDFJournal ChemistryCite this: J. Agric. Chem. 2025, XXXX, XXX, XXX-XXXClick citationCitation copied!https://pubs.acs.org/doi/10.1021/acs.jafc.4c12331https://doi.org/10.1021/acs.jafc.4c12331Published January 2025 Publication History Received 9 December 2024Published online 3 2025article-commentary© American Chemical Society. available under these Terms Use. Request reuse permissionsThis licensed for personal use The ACS Publications© SocietySubjectswhat are subjectsArticle subjects automatically applied from the Subject Taxonomy describe scientific concepts themes article.CropsEnvironmental pollutionFoodPlantsSafetyTo feed growing global populations on limited farmland, large volumes agrochemicals (e.g., fertilizers pesticides) widely used improve crop yield. However, ∼50% volatilize leach, proportions pesticides do not reach their targets. (1) excessive can cause economic loss environmental damage. Nanoagrochemicals therefore a new direction sustainable agriculture with high surface:volume ratio controlled delivery kinetics targeted sites. (2) New research has shown that utility nanoagrochemicals increase yield while simultaneously reducing footprint. (3) small size lead penetration into roots crops, transportation shoots, accumulation in edible organs. surface areas also adsorb pollutants co-transport them same organs, ultimately increasing food safety risks.NanoagrochemicalsClick section linkSection copied!Nanoagrochemicals include nanopesticides, nanofertilizers, nanophytohormones which have at least one dimension smaller than 100 nm. On basis role nanomaterials, be classified two categories: nanomaterials made active ingredients (AIs) acting as carriers AIs. Nanocarriers penetrate plant cells deliver nutrients. Nanopesticides enter tissues shoots or roots, effectively controlling diseases pests.Nanoagrochemicals pass open stomata (10–30 μm long 3–12 wide), hydathodes (diameter <10 μm), nanopores cuticles foliar epidermis then tissues. Thereafter, they transported via symplastic apoplastic routes phloem, major vasculature delivers leaves other route allows extracellular spaces. plasmodesmata (50–60 nm diameter) neighboring cells. Notably, before entering route, must cross cell wall pores (3.5–20 membranes, primarily endocytosis. (4)In make way root hairs followed xylem aerial regions plants. In contrast leaves, Casparian strip endodermis could block nanoagrochemicals. According latest study, passing discontinuous cracks (1–9 0.1–0.9 wide) immature endodermal (5) Plant uptake driven transpirational pull, including movement soil root, interior, translocation parts plant.Notably, significant parameter affecting process affected charge morphology species. general, positively charged surfaces taken up more easily negatively walls. published studies reported contradictory findings. (6) Compared spheres, rods may need thin ends pierce walls rotation-mediated process. (4) Nanosheets damage sharp edges openings. ability accumulate varies substantially species, extends scope such pollution-safe cultivars hyperaccumulators. Additionally, characteristics (pH, porosity, ionic strength, natural organic matter content, microbes) influence nanoagrochemicals.Food Risks NanoagrochemicalsClick copied!The organs result being consumed humans. Metal-based Ag-, Ti-, Cu-based common nanocarriers nanofertilizers divided three carbon-based (carbon nanotubes, carbon nanofibers, graphene oxides, etc.), polymer-based (chitosan, cellulose, cyclodextrin, clay-based (silica nanoparticles, hydroxyapatite nanozeolites, etc.). nanopesticides foreign crops an undesirable impact safety.Global agricultural pollution problem associated industrialization. Common pollutants, heavy metal(loid)s persistent pose potential threats safety. Therefore, attention should paid soil–plant systems. main forms unutilized AI nanocarrier–AI complexes, empty without Regardless form, exhibit strong sorption capacity because area:volume ratio. crops. When levels below farmland control standards, will threaten volatilization, photodegradation, biodegradation, immobilization soils. protect various dissipation processes, Furthermore, after weathering degradation environment, number oxygen-containing functional groups, enhancing adsorption pollutants. (7) some controllable farmlands (null exceeding thresholds standards) become uncontrollable application Whether pollutant standards soils nanoagrochemical applications modified remains important question.To date, there been crucial knowledge gap quantitative risk assessment particular, quantification co-transportation (nanoagrochemical pollutant) systems almost completely unknown. addition, detection nanoparticles complicated matrices very difficult. Although benefits efficiency agrochemical unquestionable, risks neglected. techniques developed expense human health.Author InformationClick copied!Corresponding AuthorsJunjie Du - China; https://orcid.org/0000-0002-8532-5925; Email: [email protected]Qixing Zhou Carbon Key protected]AuthorXiangang Hu https://orcid.org/0000-0002-9403-816XNotesThe authors declare no competing financial interest.AcknowledgmentsClick copied!This work was financially supported National Natural Foundation China (Project 32371709).ReferencesClick copied! references 7 publications. 1Kah, M.; Kookana, R. S.; Gogos, A.; Bucheli, T. D. A critical evaluation against conventional analogues. Nat. Nanotechnol. 2018, 13, 677– 684, DOI: 10.1038/s41565-018-0131-1 Google Scholar1A analoguesKah, Melanie; Rai Singh; Alexander; Thomas DanielNature Nanotechnology (2018), 13 (8), 677-684CODEN: NNAABX; ISSN:1748-3387. (Nature Research) review. Among wide range possible nanotechnol. agriculture, particular interest developing novel nanoagrochems. While concerns expressed regarding altered profile products, many foresee great support necessary prodn. way. crit. analogs essential assess assocd. risks. assessment, recent literature critically analyzed det. extent differ products. Our anal. based 78 papers shows median gain efficacy relative products about 20-30%. fate agrochems. nanoformulations, but changes necessarily translate redn. impact. Many lacked nano-specific quality assurance adequate controls. Currently, comprehensive study evaluates field conditions. thus sound represent existing >> SciFinder ®https://chemport.cas.org/services/resolver?origin=ACS&resolution=options&coi=1%3ACAS%3A528%3ADC%252BC1cXptFCnsrY%253D&md5=48a8c7a61854aa20da667868bde5a4e72Wang, D.; Saleh, N. B.; Byro, Zepp, R.; Sahle-Demessie, E.; Luxton, P.; Ho, K. T.; Burgess, Flury, White, C.; Su, C. Nano-enabled security. 2022, 17, 347– 360, 10.1038/s41565-022-01082-8 Scholar2Nano-enabled securityWang, Dengjun; Navid Andrew; Richard; Endalkachew; Todd Kay Robert Markus; Jason ChunmingNature (2022), 17 (4), 347-360CODEN: Portfolio) Achieving productivity security biggest challenges millennium. Addressing requires innovative technologies uplift prodn., minimizing collateral preserving resilience agroecosystems rapidly changing climate. Nanomaterials encapsulate pesticidal responsive (for example, controlled, synchronized) manner offer opportunities when compared pesticides. Here, we provide key properties pests enhancement non-nanoscale analogs. pesticides, overall target organisms 31.5% higher, 18.9% increased trials. toxicity toward non-target 43.1% lower, highlighting decrease environment. premature AIs prior reaching reduced 41.4%, paired 22.1% lower leaching render benefits, enhanced adhesion, improved quality, nanoscale platform mitigate pressing biotic abiotic stresses heat, drought salinity). Nonetheless, uncertainties adverse effects well-understood, requiring further investigations. Overall, our findings show potentially efficient, resilient impacts These if harnessed appropriately, promote higher yields contribute towards ®https://chemport.cas.org/services/resolver?origin=ACS&resolution=options&coi=1%3ACAS%3A528%3ADC%252BB38XotVGhsLc%253D&md5=16a7ba35b27825edd12c728d325cae2c3Yu, Y.; Feng, Yu, Xue, L.; Yang, Zhong, Delgado-Baquerizo, He, S. Closing between climate regulation nano iron oxides. Nature Sustainability 2024, 7, 758– 765, 10.1038/s41893-024-01334-6 ScholarThere corresponding record reference.4Zhang, H.; Goh, Wang, W.; Pinals, González-Grandío, Demirer, G. Butrus, Fakra, Del Rio Flores, Zhai, Zhao, Park, S.-J.; Landry, M. P. Nanoparticle cellular internalization required RNA mature leaves. 197– 205, 10.1038/s41565-021-01018-8 Scholar4Nanoparticle leavesZhang, Huan; Natalie Jeffrey Rebecca Gonzalez-Grandio, Eduardo; Gozde Salwan; Sirine Antonio; Rui; Bin; So-Jung; Markita P.Nature (2), 197-205CODEN: Rapidly nanoparticle-mediated DNA plants better understanding how cargoes translocate little known shape transport cargoes, limiting development employed non-biolistically delivered DNA-modified gold (AuNPs) sizes (5-20 nm) shapes (spheres rods) systematically investigate following infiltration Nicotiana benthamiana Generally, AuNPs demonstrated rapid, longer-lasting assocn. larger AuNPs. We obsd. rod-shaped spherical cells, yet, surprisingly, 10 functionalized small-interfering (siRNA) were most efficient siRNA inducing gene silencing results indicate importance nanoparticle biomol. and, counterintuitively, demonstrate cargo optimal absence internalization. highlight features within tissues, providing mechanistic overview designed achieve efficacious biocargo future developments nanobiotechnol. ®https://chemport.cas.org/services/resolver?origin=ACS&resolution=options&coi=1%3ACAS%3A528%3ADC%252BB3MXisFCls7rM&md5=75e33eaa46e836f37a7cfd4bd2460a985Li, Luo, Li, Zhou, Q.; Peijnenburg, W. Yin, N.; J.; Tu, Zhang, Y. Effective submicrometre plastics crack-entry mode. 2020, 929– 937, 10.1038/s41893-020-0567-9 reference.6Chen, Zhu, Cheng, Xu, G.; Gu, Chen, Xie, Z.; Wu, H. Negatively dots pathways enable dots. Nano 18, 23154– 23167, 10.1021/acsnano.4c05362 reference.7Wang, W.-M.; Bolan, Tsang, Qin, Hou, fate, management strategies nanoplastics environment: Current status perspectives. Hazardous Materials 2021, 401, 123415, 10.1016/j.jhazmat.2020.123415 Scholar7Environmental perspectivesWang, Liuwei; Wei-Min; Nanthi Daniel Yang; Muhan; DeyiJournal (2021), 401 (), 123415CODEN: JHMAD9; ISSN:0304-3894. (Elsevier B.V.) Tiny plastic particles considered emerging contaminants attracted considerable last few years. Mech. abrasion, photochem. oxidn. biol. degrdn. debris formation microplastics (MPs, 1μm 5 mm) (NPs, 1 1000 nm). MPs, ecosystem NPs so far less explored. review provides state-of-the-art current focus currently less-investigated fields, agroecosystems, migration porous media, weathering, toxic org. metals health ecosystems. serve habitat microbial colonization, act pathogens (i.e., bacteria viruses). An integrated framework proposed understand interrelationships NPs, ecosystems society. order fully sources sinks total freshwater, ocean, groundwater, air, attempts explore aging aggregation environmentally relevant Considering fact naturally-weathered distinct physicochem. characteristics, behavior naturally-aged rather synthetic polystyrene nanobeads. ®https://chemport.cas.org/services/resolver?origin=ACS&resolution=options&coi=1%3ACAS%3A528%3ADC%252BB3cXhsVSlu7rO&md5=753a1dba994fa159c06b9c66e070b8aeCited By Click yet cited publications.Download PDFFiguresReferences Get e-AlertsGet e-AlertsJournal copied!https://doi.org/10.1021/acs.jafc.4c12331Published 2025© permissionsArticle Views-Altmetric-Citations-Learn metrics closeArticle Views COUNTER-compliant sum full text downloads since November 2008 (both PDF HTML) across all institutions individuals. regularly updated reflect usage leading days.Citations articles citing article, calculated Crossref daily. Find information counts.The Altmetric Attention Score measure received online. Clicking donut icon load page altmetric.com additional details score social media presence given article. calculated.Recommended Articles FiguresReferencesAbstractHigh Resolution ImageDownload MS PowerPoint SlideReferences 1A 2Nano-enabled There 4Nanoparticle 7Environmental ®https://chemport.cas.org/services/resolver?origin=ACS&resolution=options&coi=1%3ACAS%3A528%3ADC%252BB3cXhsVSlu7rO&md5=753a1dba994fa159c06b9c66e070b8ae
Language: Английский
Citations
0
Progress in Organic Coatings, Journal Year: 2025, Volume and Issue: 203, P. 109164 - 109164
Published: Feb. 26, 2025
Language: Английский
Citations
0
Pest Management Science, Journal Year: 2025, Volume and Issue: unknown
Published: March 12, 2025
Abstract BACKGROUND Citrus canker, a bacterial disease caused by Xanthomonas citri subsp. (Xcc), is one of the major threats to citrus industry. Inorganic copper (Cu) formulations such as Bordeaux mixture and Kocide 3000 are currently used control canker; however, they poorly water‐soluble have negligible plant transport, making systemic treatment canker difficult. RESULTS This study synthesized Cu 2 O@His one‐pot self‐assembly 2+ histidine for controlling canker. The results showed that had uniform size distribution (≈2.7 nm) good water solubility. It could disrupt cell membrane Xcc enter into cells destroy DNA, thereby inhibiting growth (half maximal inhibitory concentration = 7.4 μg mL −1 ) production virulence factors Xcc. was attributed its excellent dispersibility reactive oxygen species‐inducing ability. therapeutic efficacy transport were much better than those 3000. Additionally, it remarkable biosafety plants earthworms (lethal 50% >> 40 mg kg ). CONCLUSION provides new, eco‐friendly more efficient option control. © 2025 Society Chemical Industry.
Language: Английский
Citations
0
Frontiers in Chemistry, Journal Year: 2025, Volume and Issue: 13
Published: March 19, 2025
Agriculture and food security face significant challenges due to population growth, climate change, biotic abiotic stresses. Enhancing crop productivity quality through biotechnology is crucial in addressing these challenges. Genome engineering techniques, including gene cassette delivery into plant cells, aim meet demands. However, conventional biomolecule methods have limitations such as poor efficacy, low regeneration capability, potential cell damage. Nanoparticles, known for their success drug animals, hold promise DNA nanocarriers sciences. This study explores the efficacy of carbon dots (CDs), synthesized rapidly cost-effectively from citric acid monohydrate β-alanine using a microwave-assisted method, carriers plasmid tissues. The detailed characterization dots, evaluation binding ability with DNA, phytotoxicity assessments were systematically conducted. expression successfully demonstrated canola leaves via needleless syringe infiltration soybean root cells protoplasts passive diffusion. Additionally, particle bombardment method facilitated efficient varying sizes (4 kb, 11 17 kb) onion epidermal well successful containing GUS reporter embryos, agent between tungsten microcarrier. To our knowledge, this first report use substitute spermidine applications. Overall, research presents synthesized, cost-effective platform delivery, establishing foundation CRISPR RNAi constructs knockout knockdown applications tissues, comparison transformation efficiency against traditional techniques.
Language: Английский
Citations
0
Chemical & Biomedical Imaging, Journal Year: 2025, Volume and Issue: unknown
Published: April 2, 2025
Language: Английский
Citations
0
Journal of Nanobiotechnology, Journal Year: 2025, Volume and Issue: 23(1)
Published: April 24, 2025
Engineered nanomaterials (ENMs) have aroused extensive interest in agricultural, industrial, and medical applications. The integration of ENMs into the agricultural systems aligns with principles United Nations' sustainable development goals (SDGs), circular economy (CE) bio-economy (BE) principles. This approach offers excellent opportunities to enhance productivity address global climate change challenges. revelation adverse effects (NMs) on various organisms ecosystems, however, has fueled debate 'Nano-paradox' leading emergence a new research domain 'Nanotoxicology'. shown different interactions biological environmental as compared their bulk counterparts. They bioaccumulate organisms, soils, other matrices, move through food chains reach higher trophic levels including humans ultimately resulting oxidative stress cellular damage. Understanding nano-bio interactions, mechanism gene- cytotoxicity, associated potential hazards, is therefore, essential mitigate toxicological outputs. review comprehensively examines cyto- genotoxicity mechanisms systems, covering aspects such entry, uptake, responses, dynamic environments long-term risk assessment (ERA). It also discusses methods, regulatory policies, strategies for toxicity management/mitigation future directions nanotechnology, all within context SDGs, CE, promoting resource efficiency sustainability. Navigating nano-paradox involves balancing benefits concerns about nanotoxicity. Prioritizing thorough above facets can ensure sustainability safety, enabling responsible harnessing nanotechnology's transformative applications mitigating enhancing productivity.
Language: Английский
Citations
0
Current Plant Biology, Journal Year: 2025, Volume and Issue: unknown, P. 100492 - 100492
Published: May 1, 2025
Language: Английский
Citations
0
Talanta, Journal Year: 2025, Volume and Issue: unknown, P. 128316 - 128316
Published: May 1, 2025
Language: Английский
Citations
0