Assessment of Some Potential Plastic Degrading Microbes in Katsina, North Western Nigeria

Usman, L. U., Yerima, R., Haruna, M. R., Adamu, S. U., Nafiu, M. I., Lawal, N., Mustapha, S.
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引用次数: 2

Abstract

Microorganisms play a significant role in biological decomposition of materials, including synthetic polymers in natural environments. This research was aimed to asses some potential plastic degrading microbes in Katsina. Soil samples from four different locations of about 15,000 meters apart were used for this study. Portions of the soil samples were dried, ground and sieved through a 2mm sieve for Physico-chemical characterization. The soil temperature range from 26.30c to 29.60c, pH 5.67 to 6.26, % Nitrate 0.54 to 0.97, % Phosphates 2.03 to 3.83, % organic carbon 1.71 to 3.27, % organic matter 1.97 to 9.43 and % moisture content 7.13 to 16.22. Isolation and the enumeration of bacteria and fungi was done using nutrient agar and potato dextrose agar respectively. The total populations of bacteria ranged from 1.69 x 105 to 2.94 x 105 CFU/g in the soil while the fungi range from 1.60 x 104 to 8.35 x 104 CFU/g in the soil. The capability of microbial isolates to biodegrade ground polyethylene bags and plastic bottles was tested weekly. Microbes identified include Staphylococcus aureus, Streptococcus lactis, Bacillus subtilis, Diplococcus sp. and Pseudomonas sp. Eight degrading fungal species identified following fungal colony and color include Alternaria alternate, Aspergillus niger, Aspergillus flavus, Aspergillus ornatus, Aspergillus candidus, Aspergillus nidulans, Aspergillus terreus and Rhizopus stolonifera. It can be concluded that the soil around Kofar Sauri, Kofar Marusa, Kofar Guga and Kofar Kaura of Katsina metropolis contains some plastic degrading microbial species. Hence, further investigation using GC-MS to analyze the microbial enzymes or organic acids in degradation of the polythene and plastics in eco-friendly way is recommended.  
尼日利亚西北部卡齐纳一些潜在塑料降解微生物的评价
微生物在材料的生物分解中起着重要的作用,包括在自然环境中的合成聚合物。本研究旨在评估卡齐纳一些潜在的塑料降解微生物。这项研究使用了四个不同地点的土壤样本,相距约15,000米。部分土壤样品干燥,研磨,并通过2mm筛进行物理化学表征。土壤温度26.30 ~ 29.60℃,pH值5.67 ~ 6.26,%硝酸盐0.54 ~ 0.97,%磷酸盐2.03 ~ 3.83,%有机碳1.71 ~ 3.27,%有机质1.97 ~ 9.43,%含水量7.13 ~ 16.22。分别用营养琼脂和马铃薯葡萄糖琼脂对细菌和真菌进行了分离和计数。土壤中细菌总数为1.69 × 105 ~ 2.94 × 105 CFU/g,真菌总数为1.60 × 104 ~ 8.35 × 104 CFU/g。每周对分离的微生物进行生物降解磨碎聚乙烯袋和塑料瓶的能力测试。鉴定出的微生物包括金黄色葡萄球菌、乳酸链球菌、枯草芽孢杆菌、双球菌和假单胞菌。根据真菌菌落和颜色鉴定出的8种降解真菌包括交替葡萄球菌、黑曲霉、黄曲霉、花曲霉、白曲霉、空心曲霉、地曲霉和stolonifera根霉。结果表明,卡齐纳市Kofar Sauri、Kofar Marusa、Kofar Guga和Kofar Kaura周边土壤中存在一定的塑料降解微生物。因此,建议使用GC-MS进一步研究微生物酶或有机酸以环保的方式降解聚乙烯和塑料。
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