Chinalia F A, Killham K S
Dep. De Hidráulica e Saneamento, University of São Paulo (EESC/USP), Av. Trabalhador, São-Carlense 400, 13566-590 São Carlos, SP, Brazil.
Chemosphere. 2006 Sep;64(10):1675-83. doi: 10.1016/j.chemosphere.2006.01.022. Epub 2006 Feb 20.
A bench-scale study was conducted to investigate 2,4-D biodegradation rates at different concentrations (10, 100 and 1000 microg per gram of dry weight) in distinct sediments samples collected on the River Ythan, Northeast-Scotland. Mineralisation of 14C 2,4-D occurred mostly within 30 days for all tested concentrations with a degradation rate ranging from 5 to 750 microg d(-1). Biodegradation rates were affected by the biological and biochemical characteristics of the indigenous microbial community in the studied sediments rather than factors such as compound bioavailability and/or toxicity. PLFA-profiling provided evidences of the effect of 2,4-D amendments on the microbial communities and DGGE-profiling showed changes in the genetic potential of the microbial populations which might affect metabolic characteristics of the sediment. PLFAs biomarkers suggested that the pathway of alpha-ketoglutarate-dependent dioxygenase was the main route of 2,4-D biodegradation. This pathway is commonly found in microorganisms of the beta-subdivision of proteobacteria.
开展了一项实验室规模的研究,以调查在苏格兰东北部伊桑河采集的不同沉积物样本中,2,4-二氯苯氧乙酸(2,4-D)在不同浓度(每克干重10、100和1000微克)下的生物降解率。对于所有测试浓度,14C标记的2,4-D的矿化大多在30天内发生,降解率范围为5至750微克/天。生物降解率受研究沉积物中本地微生物群落的生物学和生化特性影响,而非受化合物生物可利用性和/或毒性等因素影响。磷脂脂肪酸(PLFA)分析提供了2,4-D添加物对微生物群落影响的证据,变性梯度凝胶电泳(DGGE)分析显示微生物种群的遗传潜力发生了变化,这可能会影响沉积物的代谢特性。PLFA生物标志物表明,α-酮戊二酸依赖双加氧酶途径是2,4-D生物降解的主要途径。该途径常见于变形菌门β-亚类的微生物中。
