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Microbial Isolates in Microplastic-Polluted Soil Battah, Moses Victor; Olawale, Otitoju; Abah, Moses; John, Umaru Isaac; Dauda, Maianguwa Abdulrashid; Joel, Emmanuel Askeb-nde; Vera, Caleb; Umaru, Kerenhappuch Isaac
African Journal of Biochemistry and Molecular Biology Research Vol 1 No 1 (2024): African Journal of Biochemistry and Molecular Biology Research
Publisher : Darul Yasin Al Sys

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58578/ajbmbr.v1i1.3705

Microplastic pollution is a growing environmental concern, with plastic debris fragmenting into microscopic particles that contaminate soil ecosystems. Microplastics have become a major environmental concern due to their persistent presence in various ecosystems, including soil. They can act as pollutants and have detrimental effects on the environment and human health. This study aimed at isolating and identifying microbes (Bacteria and Fungi species) present in microplastic-polluted soil. Microplastic-polluted soil samples were collected from three sites (which were Kwararafa University Area Wukari to serve as the site 1, Federal Road Safety Commission Office Area Wukari to be the site 2, while Marmara Area Wukari to be the site 3), from two points; A and B and then packaged in brown envelopes which were then transferred to the Laboratory for further analysis after air-drying them for 24 hours. Then 1gram of each soil sample was weighed and suspended in 9mls of distilled water respectively; Six (6) folds of distilled water were prepared for serial dilution of each soil sample. 1ml of each sample was pour plated on NA, MAC, BA, EMB, CLED and SDA respectively. Then a smear of bacteria was prepared and allow to air dry for 30min and heat fix using flame after which was viewed under the microscope. The results obtained from this study showed that Staphylococcus spp are large, medium, small, and pinpoint in size, irregular and spherical in shape, light pink, creamy grey in color, smooth, mucoid and dried texture. Escherichia coli and Klebsiella spp here has similar morphological characteristics, both in size, shape, color, texture, margin and elevation as Staphylococcus spp. Bacillus spp and Pseudomonas spp here has similar morphological identification but differ only in their shape where Bacillus spp has a filamentous shape but Pseudomonas spp has rhizoid shape respectively. In terms of texture, Bacillus spp are Smooth, dried and mucoid but Pseudomonas spp are only smooth, dried texture. Bacillus spp and Pseudomonas spp only differ in their cell morphology where Bacillus spp appears to be rods with spores while Pseudomonas spp appears as short and long rods in pairs. They react positive to catalase, oxidase and citrate tests while negative to indole test. Aspergillus Niger and Rhizopus stolonifer were found to be the major fungi isolated from the collected sample. Aspergillus Niger and Rhizopus stolonifer are spherical in shape and are large in size. Aspergillus Niger appears powdery and Rhizopus stolonifer appears to fluffy, wood-like. In terms of color and pigmentation Aspergillus Niger species are black, black creamy on reverse while Rhizopus stolonifer appears grayish in color. The discovery of these microbes in microplastics-polluted soil offers a ray of hope for mitigating plastic pollution. By delving deeper into their capabilities and fostering collaboration between microbiologists and environment. This research will contribute to a broader understanding of the ecological impact of microplastics on soil health and functioning. By identifying microbes associated with microplastics, the specific mechanism of action employed by these bacteria in degrading microplastics can be studied subsequently.

Microbial Isolates in Microplastic-Polluted Soil Battah, Moses Victor; Olawale, Otitoju; Abah, Moses; John, Umaru Isaac; Dauda, Maianguwa Abdulrashid; Joel, Emmanuel Askeb-nde; Vera, Caleb; Umaru, Kerenhappuch Isaac
African Journal of Biochemistry and Molecular Biology Research Vol 1 No 1 (2024): African Journal of Biochemistry and Molecular Biology Research
Publisher : Darul Yasin Al Sys

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58578/ajbmbr.v1i1.3705

Microplastic pollution is a growing environmental concern, with plastic debris fragmenting into microscopic particles that contaminate soil ecosystems. Microplastics have become a major environmental concern due to their persistent presence in various ecosystems, including soil. They can act as pollutants and have detrimental effects on the environment and human health. This study aimed at isolating and identifying microbes (Bacteria and Fungi species) present in microplastic-polluted soil. Microplastic-polluted soil samples were collected from three sites (which were Kwararafa University Area Wukari to serve as the site 1, Federal Road Safety Commission Office Area Wukari to be the site 2, while Marmara Area Wukari to be the site 3), from two points; A and B and then packaged in brown envelopes which were then transferred to the Laboratory for further analysis after air-drying them for 24 hours. Then 1gram of each soil sample was weighed and suspended in 9mls of distilled water respectively; Six (6) folds of distilled water were prepared for serial dilution of each soil sample. 1ml of each sample was pour plated on NA, MAC, BA, EMB, CLED and SDA respectively. Then a smear of bacteria was prepared and allow to air dry for 30min and heat fix using flame after which was viewed under the microscope. The results obtained from this study showed that Staphylococcus spp are large, medium, small, and pinpoint in size, irregular and spherical in shape, light pink, creamy grey in color, smooth, mucoid and dried texture. Escherichia coli and Klebsiella spp here has similar morphological characteristics, both in size, shape, color, texture, margin and elevation as Staphylococcus spp. Bacillus spp and Pseudomonas spp here has similar morphological identification but differ only in their shape where Bacillus spp has a filamentous shape but Pseudomonas spp has rhizoid shape respectively. In terms of texture, Bacillus spp are Smooth, dried and mucoid but Pseudomonas spp are only smooth, dried texture. Bacillus spp and Pseudomonas spp only differ in their cell morphology where Bacillus spp appears to be rods with spores while Pseudomonas spp appears as short and long rods in pairs. They react positive to catalase, oxidase and citrate tests while negative to indole test. Aspergillus Niger and Rhizopus stolonifer were found to be the major fungi isolated from the collected sample. Aspergillus Niger and Rhizopus stolonifer are spherical in shape and are large in size. Aspergillus Niger appears powdery and Rhizopus stolonifer appears to fluffy, wood-like. In terms of color and pigmentation Aspergillus Niger species are black, black creamy on reverse while Rhizopus stolonifer appears grayish in color. The discovery of these microbes in microplastics-polluted soil offers a ray of hope for mitigating plastic pollution. By delving deeper into their capabilities and fostering collaboration between microbiologists and environment. This research will contribute to a broader understanding of the ecological impact of microplastics on soil health and functioning. By identifying microbes associated with microplastics, the specific mechanism of action employed by these bacteria in degrading microplastics can be studied subsequently.

Isolation and Identification of Phenol Degrading Bacteria in Refuse Dumping Site Muhammad, Muhammad Bashir; Aisami, Abubakar; Dauda, Maianguwa Abdulrashid; Adeseye, Abdullahi Sa’adu; Umaru, Isaac John; Oluwabunmi, Helen; Habibu, Bilyaminu; Oladele, Gloria Omonefe
Kwaghe International Journal of Sciences and Technology Vol 1 No 1 (2024): Kwaghe International Journal of Sciences and Technology
Publisher : Darul Yasin Al Sys

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58578/kijst.v1i1.3686

Phenol is a harmful compound found in soil, and its removal is crucial for human health. Phenol or hydroxybenzene, is both a synthetically and naturally produced aromatic compound. Microorganisms capable of degrading phenol are common and include both aerobes and anaerobes. In this study, researchers collected soil samples from INEX refuse dumping site along Bajoga road of kwami, Gombe state, and determined the abundance of heterotrophic and degradation bacteria using serial dilution and most probable number (MPN) methods. This experimental research study was carried out in order to isolate and identify phenol-degrading bacteria in polluted soil, the effect of concentration and pH was analysed during the procedure. Bacteria was isolated from contaminated soil and sub-cultured in a Mineral-salt media which was prepared with phenol added as the only carbon source needed for the bacterial growth, The bacterial isolate was identified as Escherichia coli a gram-negative bacteria. The favourable concentration and pH required for the growth of the bacteria was determined as 200mg/L and pH 7 respectively. These findings have significance in bioremediation for employing suitable bacteria in suitable condition for solving environmental pollution crises.

Isolation and Identification of Phenol Degrading Bacteria in Refuse Dumping Site Muhammad, Muhammad Bashir; Aisami, Abubakar; Dauda, Maianguwa Abdulrashid; Adeseye, Abdullahi Sa’adu; Umaru, Isaac John; Oluwabunmi, Helen; Habibu, Bilyaminu; Oladele, Gloria Omonefe
Kwaghe International Journal of Sciences and Technology Vol 1 No 1 (2024): Kwaghe International Journal of Sciences and Technology
Publisher : Darul Yasin Al Sys

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58578/kijst.v1i1.3686

Phenol is a harmful compound found in soil, and its removal is crucial for human health. Phenol or hydroxybenzene, is both a synthetically and naturally produced aromatic compound. Microorganisms capable of degrading phenol are common and include both aerobes and anaerobes. In this study, researchers collected soil samples from INEX refuse dumping site along Bajoga road of kwami, Gombe state, and determined the abundance of heterotrophic and degradation bacteria using serial dilution and most probable number (MPN) methods. This experimental research study was carried out in order to isolate and identify phenol-degrading bacteria in polluted soil, the effect of concentration and pH was analysed during the procedure. Bacteria was isolated from contaminated soil and sub-cultured in a Mineral-salt media which was prepared with phenol added as the only carbon source needed for the bacterial growth, The bacterial isolate was identified as Escherichia coli a gram-negative bacteria. The favourable concentration and pH required for the growth of the bacteria was determined as 200mg/L and pH 7 respectively. These findings have significance in bioremediation for employing suitable bacteria in suitable condition for solving environmental pollution crises.

In-Vitro Estimation of Total Phenolic, Flavonoid, Antioxidant Contents and Determination of Flavonoid, Amino Acid, and Vitamin Profiles of Ethanol Leaf Extract of Annona squamosa L. Yakubu, Ojochenemi Ejeh; Audu, Jankada Patience; Adebisi, Arowora Kayode; Janya, Danjuma; Sunday, Abu Michael; Namuma, Shitta Nasisi; Ekpo, Fidelis Okii; Dauda, Maianguwa Abdulrashid; Sule, Josephine Maina; Umaru, Isaac John
African Journal of Clinical Medicine and Pharmacy Research Vol 1 No 1 (2024): African Journal of Clinical Medicine and Pharmacy Research
Publisher : Darul Yasin Al Sys

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58578/ajcmpr.v1i1.3865

Since the beginning of human civilisation, plants have been one of the main sources of medicines. The demand for pharmaceuticals, health products, food supplements, cosmetics, and medications made from plants is expanding. Since ancient times, traditional medicine has made use of the medicinal plant Annona squamosa. The aim of this research is to evaluate the total phenolic, flavonoid, antioxidant contents and the amino acid, and vitamin profiles of ethanol leaf extract of Annona squamosa L. By using the DPPH free radical scavenging experiment, the antioxidant potential of the ethanol leaf extracts was calculated, and the absorbance was determined at 517 nm. The IC50 value of the leaf was estimated to be 4.24 μg/mL. The Folin Ciocalteu method was used to measure the total phenolic content (TPC) spectrophotometrically. Total flavonoid content (TFC) was measured by aluminium chloride colorimetric assay and Quercetin was used as standard, the absorbance was measured at 520nm. The results showed that A. squamosa leaf is a rich source of phenolics and flavonoid (total Phenolic content: 26.01±1.45mg GAE/g and total flavonoid content: 71.20±35.74 mg QE/g). The high contents of phenolic compounds and flavonoid contents indicated that these compounds contribute to the antioxidant activity. A. squamosa can be regarded as promising plant species for natural plant sources of antioxidants with high potential value for drug preparation. The total amount of amino acids was found to be 331.887 uL Several detection and peak resolution were obtained from the HPLC analysis. The result showed the presence of eight amino acids including Asparagine (2.419uL), Threonine (50.828uL), Phenylalanine (37.533uL), Aspartic Acid (144.558uL), Leucine (8.650uL), Iso-Leucine (9.728uL), Glycine (54.060uL) and four vitamins Vitamin K (2.289mg), Vitamin B1 (958.597mg), Vitamin A (13.568mg) and Vitamin E (62.103mg).

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