Sowa o Lamare scite author profile

Sowa o Lamare

3Publications

1Citation Statement Received

57Citation Statements Given

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Central Institute of Fisheries Education

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Pig waste derived capped and non-agglomerated silver nanoparticles and its effect on pathogenic bacteria and physiological responses of fish under multiple abiotic stresses

Lamare

Krishnani

Kumar

et al. 2022

Preprint

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The present study elucidates the extracellular synthesis of capped silver nanoparticles (Ag-NPs) using pig processing waste, mainly the intestine in distilled water incubated with silver nitrate by dispensing with the addition of any capping agent and the advantage of avoiding the agglomeration and loss of nanosized characteristics of AgNPs. The synthesis of Ag-NPs was ascertained by a UV-VIS spectrophotometry of the incubated suspension of yellowish-brown at 410 nm. The Ag-NPs were further characterized using a High-Resolution Transmission Electron Microscope (HRTEM), which confirmed that the Ag-NPs were primarily spherical and had a size range of 5–100 with a maximum frequency fall within 5–30 nm. In addition, the Ag-NPs are characterized by Dynamic Light Scattering (DLS), which confirmed the high stability of the Ag-NPs with a zeta potential of -32 mV. Biomolecules and biological extracts of pig waste act as biogenic reducing and capping agents. Based on the zone of inhibition achieved through the agar well diffusion method, the biosynthesis Ag-NPs showed high bactericidal properties against Aeromonas hydrophila, Edwardsiella tarda, and Micrococcus luteus. The chronic toxicity analysis of the biosynthesized Ag-NPs on Pangasianodon hypophthalmus was carried out using stress biomarkers such as an antioxidant enzyme, AChE, and metabolic enzyme activity. Chronic toxicity of synthesized Ag-NPs was found to increase with increased sub-lethal ammonia concentration and temperature. The findings of this study revealed that biosynthesis of capped and non-agglomerated Ag-NPs can be undertaken by using pig wastes for their potential application in aquaculture based on the properties observed in characterization, bactericidal activity, and physiological responses of the fish.

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Livestock wastes-derived capped and bactericidal silver nanoparticles induce immuno-physiological responses in fish for multiple stress resilience – The One Health Approach

Lamare

Krishnani

Kumar

et al. 2023

Preprint

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The present study elucidates the extracellular synthesis of capped silver nanoparticles using processing waste (intestine) of sheep and swine in aqueous media and phosphate buffers incubated with silver nitrate by dispensing with the addition of any capping agent and the advantage of avoiding the agglomeration and loss of nanosized characteristics of AgNPs. The synthesis of Ag-NPs was ascertained by UV-VIS spectrophotometry of the incubated suspension of yellowish-brown at 400-410 nm. The Ag-NPs were further characterized using a High-Resolution Transmission Electron Microscope, which confirmed that the Ag-NPs were primarily spherical and had a size range of 5–100 nm with a maximum frequency fall between 5-20 nm, 21-30 nm, 31-50 nm and a few falls within 51-100 nm. In addition, Ag-NPs synthesized using sheep and pig wastes are characterized by Dynamic Light Scattering, which confirmed the high stability of Ag-NPs with a zeta potential of -27 and -32 mV respectively. Biomolecules and biological extracts of sheep and swine waste act as biogenic reducing and capping agents. Based on the zone of inhibition achieved through the agar well diffusion method, Ag-NPs biosynthesized using sheep waste showed high bactericidal properties against Aeromonas hydrophila, Edwardsiella tarda, and Micrococcus luteus as compared to swine waste-derived AgNPs. The chronic toxicity analysis of biosynthesized Ag-NPs on Pangasianodon hypophthalmus was carried out using stress biomarkers such as an antioxidant enzyme, AChE, and metabolic enzyme activity. Chronic toxicity of synthesized Ag-NPs was found to increase with increased sub-lethal ammonia concentration and temperature. The findings of this study revealed that biosynthesis of capped and non-agglomerated Ag-NPs can be undertaken by using sheep and swine wastes for their potential application in aquaculture based on the properties observed in characterization, bactericidal activity, and physiological responses of the fish.

show abstract

Pig waste derived capped and non-agglomerated silver nanoparticles and its effect on pathogenic bacteria and physiological responses of fish under multiple abiotic stresses

Lamare

Krishnani

Kumar

et al. 2022

Preprint

View full text Add to dashboard Cite

The present study elucidates the extracellular synthesis of capped silver nanoparticles (Ag-NPs) using pig processing waste, mainly the intestine in distilled water incubated with silver nitrate by dispensing with the addition of any capping agent and the advantage of avoiding the agglomeration and loss of nanosized characteristics of AgNPs. The synthesis of Ag-NPs was ascertained by a UV-VIS spectrophotometry of the incubated suspension of yellowish-brown at 410 nm. The Ag-NPs were further characterized using a High-Resolution Transmission Electron Microscope (HRTEM), which con rmed that the Ag-NPs were primarily spherical and had a size range of 5-100 with a maximum frequency fall within 5-30 nm. In addition, the Ag-NPs are characterized by Dynamic Light Scattering (DLS), which con rmed the high stability of the Ag-NPs with a zeta potential of -32 mV. Biomolecules and biological extracts of pig waste act as biogenic reducing and capping agents. Based on the zone of inhibition achieved through the agar well diffusion method, the biosynthesis Ag-NPs showed high bactericidal properties against Aeromonas hydrophila, Edwardsiella tarda, and Micrococcus luteus. The chronic toxicity analysis of the biosynthesized Ag-NPs on Pangasianodon hypophthalmus was carried out using stress biomarkers such as an antioxidant enzyme, AChE, and metabolic enzyme activity. Chronic toxicity of synthesized Ag-NPs was found to increase with increased sub-lethal ammonia concentration and temperature. The ndings of this study revealed that biosynthesis of capped and non-agglomerated Ag-NPs can be undertaken by using pig wastes for their potential application in aquaculture based on the properties observed in characterization, bactericidal activity, and physiological responses of the sh.

show abstract

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Sowa o Lamare

Pig waste derived capped and non-agglomerated silver nanoparticles and its effect on pathogenic bacteria and physiological responses of fish under multiple abiotic stresses

Livestock wastes-derived capped and bactericidal silver nanoparticles induce immuno-physiological responses in fish for multiple stress resilience – The One Health Approach

Pig waste derived capped and non-agglomerated silver nanoparticles and its effect on pathogenic bacteria and physiological responses of fish under multiple abiotic stresses

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