Riaz Hussain, Nadia Mushtaq, Mushtaq Ahmed, Hajra Hameed, Saboor Badshah, Naila Sher, Farhad Badshah, Abdul Waheed, M Ajmal Ali, Mohamed S Elshikh
{"title":"通过苗期综合表征研究AgNPs和NiCl2对玉米形态生理轨迹的协同作用","authors":"Riaz Hussain, Nadia Mushtaq, Mushtaq Ahmed, Hajra Hameed, Saboor Badshah, Naila Sher, Farhad Badshah, Abdul Waheed, M Ajmal Ali, Mohamed S Elshikh","doi":"10.1002/jemt.24764","DOIUrl":null,"url":null,"abstract":"<p><p>Green synthesis of nanoparticles (NPs) is preferred for its affordability and environmentally friendly approach. This study explored the synthesis and characterization of silver NPs (AgNPs) and examined their impact on the growth of Zea mays, both alone and in combination with nickel chloride (NiCl<sub>2</sub>). A methanolic leaf extract was combined with silver nitrate to synthesize AgNPs. Characterization of NPs was carried out through UV-vis spectroscopy, FT-IR, x-ray diffraction (XRD), energy-dispersive spectroscopy (EDS), and scanning electron microscopy (SEM). Eleven treatments (T1-T11) were made, and Z. mays seeds were subjected to NiCl<sub>2</sub> in pots after being soaked in AgNPs solution. Treatments were arranged to evaluate the effects of NiCl<sub>2</sub> (T1-T3), AgNPs (T4 and T5), and the interactive effects of AgNPs and NiCl<sub>2</sub> (T6-T11) on the planted seeds. UV-vis peaks at 410 nm confirmed the presence of AgNPs. The crystalline nature of AgNPs was confirmed through XRD analysis, and the presence of functional groups from biomolecules and capping agents was shown in FT-IR. The morphology of the NPs and elemental analysis were conducted using SEM and EDS, respectively. The size of the NPs was found 25-50 nm using Nano Measurer software. Growth inhibition was noticed in NiCl<sub>2</sub>-treatments T1-T3. Maximum growth and 100% seed germination were observed in NP-treated seeds (T4 and T5). These two treatments also showed the highest germination index, root/shoot growth, and fresh/dry weights. In treatments T6-T11, the interaction between NiCl<sub>2</sub> and AgNP-soaked seeds showed that while AgNP concentrations alone promoted growth, this enhancement was suppressed by the presence of NiCl<sub>2</sub> in the soil. The inhibited values of T6-T11 were still greater than the control, indicating that soaking Z. mays seeds in AgNPs enhanced growth and mitigated nickel stress in the soil. Pigments, carbohydrates, and protein contents were highest in T4 and T5, whereas NiCl<sub>2</sub> reduced these values. Synthesized AgNPs could enhance Z. mays growth and reduce nickel stress at the applied amounts. Further investigation is required to determine the mechanisms of action of AgNPs and NiCl<sub>2</sub> in enhancing or reducing Z. mays seedling growth and yield.</p>","PeriodicalId":18684,"journal":{"name":"Microscopy Research and Technique","volume":" ","pages":""},"PeriodicalIF":2.0000,"publicationDate":"2025-01-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Investigating the Synergistic Interactions Between AgNPs and NiCl<sub>2</sub> on the Morpho-Physiological Trajectories of Zea mays L. 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Eleven treatments (T1-T11) were made, and Z. mays seeds were subjected to NiCl<sub>2</sub> in pots after being soaked in AgNPs solution. Treatments were arranged to evaluate the effects of NiCl<sub>2</sub> (T1-T3), AgNPs (T4 and T5), and the interactive effects of AgNPs and NiCl<sub>2</sub> (T6-T11) on the planted seeds. UV-vis peaks at 410 nm confirmed the presence of AgNPs. The crystalline nature of AgNPs was confirmed through XRD analysis, and the presence of functional groups from biomolecules and capping agents was shown in FT-IR. The morphology of the NPs and elemental analysis were conducted using SEM and EDS, respectively. The size of the NPs was found 25-50 nm using Nano Measurer software. Growth inhibition was noticed in NiCl<sub>2</sub>-treatments T1-T3. Maximum growth and 100% seed germination were observed in NP-treated seeds (T4 and T5). These two treatments also showed the highest germination index, root/shoot growth, and fresh/dry weights. In treatments T6-T11, the interaction between NiCl<sub>2</sub> and AgNP-soaked seeds showed that while AgNP concentrations alone promoted growth, this enhancement was suppressed by the presence of NiCl<sub>2</sub> in the soil. The inhibited values of T6-T11 were still greater than the control, indicating that soaking Z. mays seeds in AgNPs enhanced growth and mitigated nickel stress in the soil. Pigments, carbohydrates, and protein contents were highest in T4 and T5, whereas NiCl<sub>2</sub> reduced these values. Synthesized AgNPs could enhance Z. mays growth and reduce nickel stress at the applied amounts. 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Investigating the Synergistic Interactions Between AgNPs and NiCl2 on the Morpho-Physiological Trajectories of Zea mays L. Through Comprehensive Characterization at Seedling Stage.
Green synthesis of nanoparticles (NPs) is preferred for its affordability and environmentally friendly approach. This study explored the synthesis and characterization of silver NPs (AgNPs) and examined their impact on the growth of Zea mays, both alone and in combination with nickel chloride (NiCl2). A methanolic leaf extract was combined with silver nitrate to synthesize AgNPs. Characterization of NPs was carried out through UV-vis spectroscopy, FT-IR, x-ray diffraction (XRD), energy-dispersive spectroscopy (EDS), and scanning electron microscopy (SEM). Eleven treatments (T1-T11) were made, and Z. mays seeds were subjected to NiCl2 in pots after being soaked in AgNPs solution. Treatments were arranged to evaluate the effects of NiCl2 (T1-T3), AgNPs (T4 and T5), and the interactive effects of AgNPs and NiCl2 (T6-T11) on the planted seeds. UV-vis peaks at 410 nm confirmed the presence of AgNPs. The crystalline nature of AgNPs was confirmed through XRD analysis, and the presence of functional groups from biomolecules and capping agents was shown in FT-IR. The morphology of the NPs and elemental analysis were conducted using SEM and EDS, respectively. The size of the NPs was found 25-50 nm using Nano Measurer software. Growth inhibition was noticed in NiCl2-treatments T1-T3. Maximum growth and 100% seed germination were observed in NP-treated seeds (T4 and T5). These two treatments also showed the highest germination index, root/shoot growth, and fresh/dry weights. In treatments T6-T11, the interaction between NiCl2 and AgNP-soaked seeds showed that while AgNP concentrations alone promoted growth, this enhancement was suppressed by the presence of NiCl2 in the soil. The inhibited values of T6-T11 were still greater than the control, indicating that soaking Z. mays seeds in AgNPs enhanced growth and mitigated nickel stress in the soil. Pigments, carbohydrates, and protein contents were highest in T4 and T5, whereas NiCl2 reduced these values. Synthesized AgNPs could enhance Z. mays growth and reduce nickel stress at the applied amounts. Further investigation is required to determine the mechanisms of action of AgNPs and NiCl2 in enhancing or reducing Z. mays seedling growth and yield.
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Microscopy Research and Technique (MRT) publishes articles on all aspects of advanced microscopy original architecture and methodologies with applications in the biological, clinical, chemical, and materials sciences. Original basic and applied research as well as technical papers dealing with the various subsets of microscopy are encouraged. MRT is the right form for those developing new microscopy methods or using the microscope to answer key questions in basic and applied research.
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