利用生态系统模型（微宇宙）从日本河流沉积物中分离出的恶臭假单胞菌菌株 RA8 对除草剂利谷隆的矿化作用。

Mineralisation of the herbicide linuron by Variovorax sp. strain RA8 isolated from Japanese river sediment using an ecosystem model (microcosm).

机构信息

The Institute of Environmental Toxicology, Joso-shi, Ibaraki, Japan.

出版信息

Pest Manag Sci. 2010 Aug;66(8):847-52. doi: 10.1002/ps.1951.

DOI:10.1002/ps.1951

PMID:20603879

Abstract

BACKGROUND

Linuron is a globally used phenylurea herbicide, and a large number of studies have been made on the microbial degradation of the herbicide. However, to date, the few bacteria able individually to mineralise linuron have been isolated only from European agricultural soils. An attempt was made to isolate linuron-mineralising bacteria from Japanese river sediment using a uniquely designed river ecosystem model (microcosm) treated with (14)C-ring-labelled linuron (approximately 1 mg L(-1)).

RESULTS

A linuron-mineralising bacterium that inhabits river sediment was successfully isolated. The isolate belongs to the genera Variovorax and was designated as strain RA8. Strain RA8 gradually used linuron in basal salt medium (5.2 mg L(-1)) with slight growth. In 15 days, approximately 25% of (14)C-linuron was mineralised to (14)CO(2), with 3,4-dichloroaniline as an intermediate. Conversely, in 100-fold diluted R2A broth, strain RA8 rapidly mineralised (14)C-linuron (5.5 mg L(-1)) and more than 70% of the applied radioactivity was released as (14)CO(2) within 3 days, and a trace amount of 3,4-dichloroaniline was detected. Additionally, the isolate also degraded monolinuron, metobromuron and chlorobromuron, but not diuron, monuron or isoproturon.

CONCLUSION

Although strain RA8 can grow on linuron, some elements in the R2A broth seemed significantly to stimulate its growth and ability to degrade. The isolate strictly recognised the structural difference between N-methoxy-N-methyl and N,N-dimethyl substitution of various phenylurea herbicides.

摘要

背景

利谷隆是一种全球广泛使用的苯脲类除草剂，大量研究已经对该除草剂的微生物降解进行了研究。然而，迄今为止，能够单独将利谷隆矿化的少数细菌仅从欧洲农业土壤中分离出来。本研究试图使用一种独特设计的河流生态系统模型（微宇宙）从日本河流沉积物中分离利谷隆矿化细菌，该模型用（14）C 环标记的利谷隆（约 1mg/L）处理。

结果

成功分离出一种栖息在河流沉积物中的利谷隆矿化细菌。该分离株属于鞘氨醇单胞菌属和交替单胞菌属，被命名为 RA8 株。RA8 株在基础盐培养基（5.2mg/L）中逐渐利用利谷隆，略有生长。在 15 天内，约 25%的（14）C-利谷隆被矿化为（14）CO2，3,4-二氯苯胺为中间产物。相反，在 100 倍稀释的 R2A 肉汤中，RA8 株迅速矿化（14）C-利谷隆（5.5mg/L），在 3 天内释放出超过 70%的应用放射性，并且检测到痕量的 3,4-二氯苯胺。此外，该分离株还降解了单隆脲、灭草隆和氯溴隆，但不降解敌草隆、灭草猛或异丙隆。

结论

尽管 RA8 株可以在利谷隆上生长，但 R2A 肉汤中的一些元素似乎显著刺激了其生长和降解能力。该分离株严格识别了各种苯脲类除草剂中 N-甲氧基-N-甲基和 N,N-二甲基取代的结构差异。

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利用生态系统模型（微宇宙）从日本河流沉积物中分离出的恶臭假单胞菌菌株 RA8 对除草剂利谷隆的矿化作用。

Mineralisation of the herbicide linuron by Variovorax sp. strain RA8 isolated from Japanese river sediment using an ecosystem model (microcosm).

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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