国际标准期刊号: 2155-6199

生物修复与生物降解杂志

开放获取

我们集团组织了 3000 多个全球系列会议 每年在美国、欧洲和美国举办的活动亚洲得到 1000 多个科学协会的支持 并出版了 700+ 开放获取期刊包含超过50000名知名人士、知名科学家担任编委会成员。

开放获取期刊获得更多读者和引用
700 种期刊 15,000,000 名读者 每份期刊 获得 25,000 多名读者

索引于
  • CAS 来源索引 (CASSI)
  • 哥白尼索引
  • 谷歌学术
  • 夏尔巴·罗密欧
  • 打开 J 门
  • Genamics 期刊搜索
  • 学术钥匙
  • 期刊目录
  • 研究圣经
  • 中国知网(CNKI)
  • 乌尔里希的期刊目录
  • 访问全球在线农业研究 (AGORA)
  • 参考搜索
  • 哈姆达大学
  • 亚利桑那州EBSCO
  • OCLC-世界猫
  • SWB 在线目录
  • 普布隆斯
  • 日内瓦医学教育与研究基金会
  • 米亚尔
  • ICMJE
分享此页面

抽象的

Isolation and Characterization of Relevant Algal and Bacterial Strains from Egyptian Environment for Potential Use in Photosynthetically Aerated Wastewater Treatment

Marwa El Rakaiby, Tamer Essam and Abdelgawad Hashem

A number of environmental samples were collected from different locations in Egypt. Briefly, 9 bacterial strains and 4 algal strains were isolated and characterized. All isolated bacterial strains showed a remarkable ability to tolerate and/or biodegrade phenol (aromatic pollutant) and pyridine (hetero-aromatic pollutant). Phenol showed higher toxicity than pyridine to both bacterial and algal isolates. The bacterial isolates were identified as members of Pseudomonas, Chryseomonas, Sphingomonas and Burkholderiae species. The highest biodegradation rate and capacity were reported to bacterial isolate M4, identified as Pseudomonas MT1. This strain was able to degrade up to 1700 and 3000 mg l-1 of phenol and pyridine respectively. Pseudomonas MT1 showed the highest phenol biodegradation rate of 29 mg h-1 and lag phase approximately of 8 h and was optimally grown on 1000 -1250 mg phenol l-1. All algal isolates were morphologically identified as members of the Chlorella genus. None of the isolated algal strains showed biodegradation ability of any of the tested organic pollutants. However, isolates A1, A2 and A4 showed remarkable tolerance to both phenol and/or pyridine. The highest tolerance capacity was reported to algal isolate A4, identified as Chlorella vulgaris MM1 with a toxicity cut off of 500 and 1000 mg l-1 of phenol and pyridine respectively. Both Pseudomonas MT1 and Chlorella vulgaris MM1 had no inhibitory effect on each other. Therefore, they represented potential candidates for the construction of algal bacterial microcosm used for the photosynthetically aerated biological degradation of effluents loaded with various organic pollutants.

免责声明: 此摘要通过人工智能工具翻译,尚未经过审核或验证。