A mesocosm study of the changes in marine flagellate and ciliate communities in a crude oil bioremediation trial

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

StandardStandard

A mesocosm study of the changes in marine flagellate and ciliate communities in a crude oil bioremediation trial. / Gertler, Christoph; Näther, Daniela J; Gerdts, Gunnar et al.
Yn: Microbial Ecology, Cyfrol 60, Rhif 1, 07.2010, t. 180-91.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

APA

CBE

MLA

VancouverVancouver

Gertler C, Näther DJ, Gerdts G, Malpass MC, Golyshin PN. A mesocosm study of the changes in marine flagellate and ciliate communities in a crude oil bioremediation trial. Microbial Ecology. 2010 Gor;60(1):180-91. doi: 10.1007/s00248-010-9660-3

Author

Gertler, Christoph ; Näther, Daniela J ; Gerdts, Gunnar et al. / A mesocosm study of the changes in marine flagellate and ciliate communities in a crude oil bioremediation trial. Yn: Microbial Ecology. 2010 ; Cyfrol 60, Rhif 1. tt. 180-91.

RIS

TY - JOUR

T1 - A mesocosm study of the changes in marine flagellate and ciliate communities in a crude oil bioremediation trial

AU - Gertler, Christoph

AU - Näther, Daniela J

AU - Gerdts, Gunnar

AU - Malpass, Mark C

AU - Golyshin, Peter N

PY - 2010/7

Y1 - 2010/7

N2 - Protozoan grazers play an important role in controlling the density of crude-oil degrading marine communities as has been evidenced in a number of microcosm experiments. However, small bioreactors contain a low initial titre of protozoa and the growth of hydrocarbon-depleting bacteria is accompanied by the fast depletion of mineral nutrients and oxygen, which makes microcosms rather unsuitable for simulating the sequence of events after the oil spill in natural seawater environment. In the present study, the population dynamics of marine protozoan community have been analysed in a 500 l mesocosm experiment involving bioaugmented oil booms that contained oil sorbents and slow-release fertilisers. A significant increase in numbers of marine flagellates and ciliates on biofilms of oil-degrading microbes was microscopically observed as early as 8 days after the start of the experiment, when protozoa exhibited a population density peak making up to 3,000 cells ml(-1). Further, the protozoan density varied throughout the experiment, but never dropped below 80 cells ml(-1). An 18S rRNA gene-based fingerprinting analysis revealed several changes within the eukaryotic community over the whole course of the experiment. Initial growth of flagellates and small ciliates was followed by a predominance of larger protozoa. According to microscopic observations and SSU rRNA molecular analyses, most predominant were the ciliates belonging to Euplotidae and Scuticociliatia. This is the first study to characterise the eukaryotic communities specifically in a large-scale oil bioremediation trial using both microscopy-based and several molecular techniques.

AB - Protozoan grazers play an important role in controlling the density of crude-oil degrading marine communities as has been evidenced in a number of microcosm experiments. However, small bioreactors contain a low initial titre of protozoa and the growth of hydrocarbon-depleting bacteria is accompanied by the fast depletion of mineral nutrients and oxygen, which makes microcosms rather unsuitable for simulating the sequence of events after the oil spill in natural seawater environment. In the present study, the population dynamics of marine protozoan community have been analysed in a 500 l mesocosm experiment involving bioaugmented oil booms that contained oil sorbents and slow-release fertilisers. A significant increase in numbers of marine flagellates and ciliates on biofilms of oil-degrading microbes was microscopically observed as early as 8 days after the start of the experiment, when protozoa exhibited a population density peak making up to 3,000 cells ml(-1). Further, the protozoan density varied throughout the experiment, but never dropped below 80 cells ml(-1). An 18S rRNA gene-based fingerprinting analysis revealed several changes within the eukaryotic community over the whole course of the experiment. Initial growth of flagellates and small ciliates was followed by a predominance of larger protozoa. According to microscopic observations and SSU rRNA molecular analyses, most predominant were the ciliates belonging to Euplotidae and Scuticociliatia. This is the first study to characterise the eukaryotic communities specifically in a large-scale oil bioremediation trial using both microscopy-based and several molecular techniques.

KW - Biodegradation, Environmental

KW - Ciliophora/genetics

KW - DNA Fingerprinting

KW - Dinoflagellida/genetics

KW - Petroleum/microbiology

KW - Phylogeny

KW - RNA, Protozoan/genetics

KW - RNA, Ribosomal, 18S/genetics

KW - Seawater/microbiology

U2 - 10.1007/s00248-010-9660-3

DO - 10.1007/s00248-010-9660-3

M3 - Article

C2 - 20393846

VL - 60

SP - 180

EP - 191

JO - Microbial Ecology

JF - Microbial Ecology

SN - 0095-3628

IS - 1

ER -