Biodegradation of Low-Density Polyethylene (LDPE) Bags by Fungi Isolated from Waste Disposal Soil

IF 2.1 Q3 SOIL SCIENCE Applied and Environmental Soil Science Pub Date : 2022-05-06 DOI:10.1155/2022/8286344
Saira, Abdullah, Lalina Maroof, Madiha Iqbal, S. Farman, Lubna, S. Faisal
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引用次数: 6

Abstract

Plastics are available in different shapes nowadays in order to enhance the living standard. But unfortunately, most of these plastics are synthetic in nature that is why they show resistance to physical and chemical degradation processes and enhance environmental hazards. The aim of the present research study was to isolate and identify beneficial fungal species from soil that have the capability to degrade plastic. Soil samples from a waste disposal site at Peshawar district were diluted and inoculated on sabouraud dextrose agar (SDA) and potato dextrose agar (PDA) for fungus isolation. After isolation, the identifications of fungal species were done using standard identification techniques such as colony morphology and microscopic examination. The isolated fungal species that were identified were Aspergillus Niger, Aspergillus flavus, Penicillium, white rot, and brown rot fungi. After isolation, a degradation experiment was conducted to evaluate the capability of fungal isolates towards degradation of plastic. For this purpose, a 2 cm2 plastic piece was treated with fungal isolates for one month in a liquid culture system. The weight loss percentage was estimated at 22.9%, 16.1%, 18.4%, and 22.7% by Aspergillus Niger, Aspergillus flavus, brown rot, and white rot, respectively, which was confirmed by the Fourier transform analysis. The obtained FTIR peaks revealed the C–H bond deformation in alkenes, ketones, and esters. It has been concluded from the study that fungal species play a significant role in the degradation of synthetic plastic which can be used in bioreactors in future studies for the degradation of complex plastic materials.
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垃圾处理土壤中真菌对低密度聚乙烯(LDPE)袋的生物降解
为了提高生活水平,现在有各种形状的塑料可供选择。但不幸的是,这些塑料大多是合成的,这就是为什么它们对物理和化学降解过程表现出抵抗力,并加剧环境危害。本研究的目的是从土壤中分离和鉴定具有降解塑料能力的有益真菌物种。将白沙瓦区废物处理场的土壤样本稀释并接种在沙氏葡萄糖琼脂(SDA)和马铃薯葡萄糖琼脂(PDA)上,用于真菌分离。分离后,使用菌落形态和显微镜检查等标准鉴定技术对真菌进行鉴定。分离出的真菌种类为尼日尔曲霉、黄曲霉、青霉、白腐真菌和褐腐真菌。分离后,进行降解实验以评估真菌分离物对塑料的降解能力。为此 cm2塑料片在液体培养系统中用真菌分离物处理一个月。经傅立叶变换分析证实,尼日尔曲霉、黄曲霉、褐腐菌和白腐菌的失重率分别为22.9%、16.1%、18.4%和22.7%。所获得的FTIR峰揭示了烯烃、酮和酯中的C–H键变形。研究得出的结论是,真菌物种在合成塑料的降解中发挥着重要作用,可用于生物反应器中,用于未来复杂塑料材料的降解研究。
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来源期刊
Applied and Environmental Soil Science
Applied and Environmental Soil Science Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
4.00
自引率
4.50%
发文量
55
审稿时长
18 weeks
期刊介绍: Applied and Environmental Soil Science is a peer-reviewed, Open Access journal that publishes research and review articles in the field of soil science. Its coverage reflects the multidisciplinary nature of soil science, and focuses on studies that take account of the dynamics and spatial heterogeneity of processes in soil. Basic studies of the physical, chemical, biochemical, and biological properties of soil, innovations in soil analysis, and the development of statistical tools will be published. Among the major environmental issues addressed will be: -Pollution by trace elements and nutrients in excess- Climate change and global warming- Soil stability and erosion- Water quality- Quality of agricultural crops- Plant nutrition- Soil hydrology- Biodiversity of soils- Role of micro- and mesofauna in soil
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