不同小球藻属种去除和生物降解壬基酚的研究。

Removal and biodegradation of nonylphenol by different Chlorella species.

机构信息

Department of Biology and Chemistry, City University of Hong Kong, Hong Kong SAR, China.

出版信息

Mar Pollut Bull. 2011;63(5-12):445-51. doi: 10.1016/j.marpolbul.2011.03.030. Epub 2011 Apr 19.

DOI:10.1016/j.marpolbul.2011.03.030

Abstract

All four Chlorella species, including one commercially available species, Chlorella vulgaris and three local isolates, Chlorella sp. (1 uoai), Chlorella sp. (2f5aia) and Chlorellaminiata (WW1), had a rapid and high ability to remove nonylphenol (NP). Among these species, C. vulgaris had the highest NP removal (nearly all NP was removed from the medium) and degradation abilities (more than 80% of NP was degraded) after 168 h, followed by WW1 and 1 uoai; 2f5aia had the lowest NP degradation ability. The NP removal by C. vulgaris was less affected by growth conditions, but its biodegradation efficiency was significantly increased by temperature and light intensity, suggesting that the biodegradation ability was positively related to photosynthetic and metabolic activities. These results indicated that C. vulgaris was the most suitable species for effective removal and biodegradation of NP, especially under 25 °C with light illumination and initial biomass between 0.5 and 1.0 mg chlorophyll l(-1).

摘要

所有四种绿藻物种，包括一种市售的绿球藻（Chlorella vulgaris）和三种本地分离株（Chlorella sp. (1 uoai)、Chlorella sp. (2f5aia)和 Chlorellaminiata (WW1)），都具有快速和高效去除壬基酚（NP）的能力。在这些物种中，绿球藻在 168 小时后具有最高的 NP 去除（几乎所有 NP 都从培养基中去除）和降解能力（超过 80%的 NP 被降解），其次是 WW1 和 1 uoai；2f5aia 具有最低的 NP 降解能力。绿球藻的 NP 去除受生长条件的影响较小，但温度和光照强度显著提高了其生物降解效率，表明生物降解能力与光合作用和代谢活动呈正相关。这些结果表明，绿球藻是最适合有效去除和生物降解 NP 的物种，特别是在 25°C 光照和初始生物量在 0.5 到 1.0 mg 叶绿素 l(-1)之间的条件下。

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不同小球藻属种去除和生物降解壬基酚的研究。

Removal and biodegradation of nonylphenol by different Chlorella species.

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