沉积物特征对多氯联苯脱氯培养物的影响:对生物增强的影响。

IF 1.9 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Bioremediation Journal Pub Date : 2006-01-01 DOI:10.1080/10889860601021381
Tao Yan, Timothy M Lapara, Paige J Novak
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引用次数: 11

摘要

具有互补活性的多氯联苯脱氯培养物,先前来自巴尔的摩港河口(B),海洋Palos Verdes (P)和哈德逊河(H)沉积物,混合,然后接种到来自相同来源的无菌沉积物中。在含有无菌B沉积物的处理中,不同接种量对细菌群落发育和脱氯模式的影响有限,但均相似。然而,在含有无菌P或H沉积物的处理中,不同接种量导致PCB脱氯模式和细菌群落显著不同。B沉积物似乎不仅支持三种沉积物中最广泛和最快速的脱氯,而且支持更多样化的细菌群落。这被认为是营养丰富的结果,因为它富含有机碳和微量营养素,如锌和钴。虽然与单一培养物相比,混合三种多氯联苯脱氯培养物能够产生能够增强多氯联苯脱氯活性的培养物,但在培养转移时,一些活性会丢失。这表明,在追求生物增强之前,必须注意建立强大的多氯联苯脱氯培养物,能够进行广泛的脱氯。此外,我们的研究结果表明,宏量和微量营养物质的浓度和有效性可能对微生物群落结构产生重大影响,因此,对污染场地的沉积物进行彻底的表征对于实施PCB生物修复的生物增强至关重要。
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The Impact of Sediment Characteristics on PCB-dechlorinating Cultures: Implications for Bioaugmentation.

PCB-dechlorinating cultures with complimentary activities, previously derived from estuarine Baltimore Harbor (B), marine Palos Verdes (P) and riverine Hudson River (H) sediments, were mixed and then inoculated into sterile sediments from the same sources. In the treatments containing sterile B sediment, the different inocula had limited impact on the bacterial community development and on dechlorination patterns, all of which were similar. In treatments containing sterile P or H sediment, however, different inocula resulted in significantly different PCB dechlorination patterns and bacterial communities. The B sediment appeared to support not only the most extensive and rapid dechlorination of the three sediments, but also supported a more diverse bacterial community. This was thought to be a result of nutritional richness, as it was high in organic carbon and micronutrients such as zinc and cobalt. Although mixing three PCB-dechlorinating cultures was able to produce a culture capable of enhanced PCB-dechlorinating activity as compared to single cultures, some activities were lost upon culture transfer. This indicates that care must be taken to establish robust PCB-dechlorinating cultures capable of extensive dechlorination prior to pursuing bioaugmentation. In addition, our results indicate that the concentration and availability of macro- and micro-nutrients could have a significant impact on the microbial community structure, and thus a thorough characterization of the sediment at contaminated sites is essential for implementing bioaugmentation for PCB bioremediation.

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来源期刊
Bioremediation Journal
Bioremediation Journal ENVIRONMENTAL SCIENCES-
CiteScore
5.30
自引率
0.00%
发文量
36
审稿时长
9 months
期刊介绍: Bioremediation Journal is a peer-reviewed quarterly that publishes current, original laboratory and field research in bioremediation, the use of biological and supporting physical treatments to treat contaminated soil and groundwater. The journal rapidly disseminates new information on emerging and maturing bioremediation technologies and integrates scientific research and engineering practices. The authors, editors, and readers are scientists, field engineers, site remediation managers, and regulatory experts from the academic, industrial, and government sectors worldwide. High-quality, original articles make up the primary content. Other contributions are technical notes, short communications, and occasional invited review articles.
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