聚乙烯(PE)的微生物降解

The South Pacific Journal of Natural Science Pub Date : 2009-12-15 DOI:10.1071/SP09012

K. Kumari, R. C. Aanad, N. Narula

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引用次数: 9

摘要

采用土壤掩埋法，再采用膜培养(FC)培养基富集培养技术，从土壤中分离出32株细菌。选择不同形态的细菌分离株，纯化并在4°C下保存。其中30%的菌株革兰氏阴性，50%的菌株淀粉水解试验阳性，并对其在薄膜培养基中降解低密度聚乙烯(未经处理、紫外线和热条)的能力进行了筛选，测定了第4周后聚乙烯的失重率。在不同菌株中，is3、is22和is31对UV处理聚乙烯条的降解率最高，达到25-27%。高温(40°C)比低温(18-21%)更有效地提高了聚乙烯的降解率24-28%。通过使用CO2演化(一种分析降解率的估计工具)研究，堆肥处理对处理后的聚乙烯条(UV，热蒸汽)的降解率高达4%。光照、温度、氧气等环境因素对细菌活性也有影响。

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Microbial degradation of polyethylene (PE)

Thirty two bacterial isolates were obtained from soil by soil burial method followed by enrichment culture technique in film culturing (FC) media. Bacterial isolates differing in morphology were selected, purified and maintained at 4°C. Thirty % of these isolates were found to be Gram negative and 50% showed positive starch hydrolysis test and were screened for their ability to degrade Low Density Polyethylene (untreated, UV and heat strips) in film culturing media and percent weight loss of polyethylene after 4th week was determined. Among various isolates, highest degradation was by Is 3, Is 22 and Is 31 to the range of 25–27%, of UV treated polyethylene strips. High temperature (40°C), was found to enhance degradation rate of polyethylene more effectively by 24–28% compared to low temperature at 30°C (18–21%). Degradation of treated polyethylene strips (UV, heat steam) was up to 4% by compost treatment as studied by using CO2 evolution, an estimation tool to analyze % degradation. Bacterial activity was also affected by various environmental factors like sunlight, temperature, oxygen etc.

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The South Pacific Journal of Natural Science

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