Decay rates of faecal indicator bacteria from sewage and ovine faeces in brackish and freshwater microcosms with contrasting suspended particulate matter concentrations

To safeguard human health, legislative measures require the monitoring of faecal indicator bacteria (FIB) concentrations in recreational and shellfish waters. Consequently, numerous studies have focussed on FIB survival in the water column and more recently in estuarine sediments. However, there is...

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Bibliographic Details
Published in:The Science of the total environment 2016-12, Vol.572, p.1645-1652
Main Authors: Perkins, Tracy L., Perrow, Karen, Rajko-Nenow, Paulina, Jago, Colin F., Jones, Davey L., Malham, Shelagh K., McDonald, James E.
Format: Article
Language:English
Subjects:
Animals
Brackish water
Coliforms
Decay rate
E. coli
Enterobacteriaceae - physiology
Enterococci
Enterococcus - physiology
Escherichia coli
Escherichia coli - physiology
Estuaries
Feces - microbiology
FIB
Fresh Water - microbiology
Freshwater
Humans
Saline Waters
Sewage - microbiology
Sheep - microbiology
Suspended particulate matter
Wales
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Summary:To safeguard human health, legislative measures require the monitoring of faecal indicator bacteria (FIB) concentrations in recreational and shellfish waters. Consequently, numerous studies have focussed on FIB survival in the water column and more recently in estuarine sediments. However, there is a paucity of information regarding the influence of contrasting suspended particulate matter (SPM) concentrations on the survival of FIB in the water column of estuaries. Here, microcosms containing freshwater or brackish water with low, high and extreme SPM concentrations were inoculated with sewage and ovine faeces and the decay rate of Escherichia coli, coliforms and enterococci were determined by enumeration over five consecutive days. E. coli derived from ovine faeces proliferated and persisted at high levels in both freshwater and brackish microcosms (no decay), whereas ovine enterococci demonstrated a net decay over the duration of the experiment. Furthermore, SPM concentration had a significant effect on the decay rates of both E. coli and enterococci from ovine faeces in brackish microcosms, but decay rate was greater at low SPM concentrations for E. coli, whereas the opposite was observed for enterococci, whose decay rates increased as SPM concentration increased. E. coli, enterococci and coliforms derived from wastewater demonstrated a net decay in both freshwater and brackish microcosms, with contrasting effects of SPM concentration on decay rate. In addition, some FIB groups demonstrated contrasting responses (decay or proliferation) in the first 24h following inoculation into freshwater versus brackish microcosms. Overall, SPM concentrations influenced the proliferation and decay rates of FIB in brackish waters, but had minimal influence in freshwater. These results demonstrate that the survival rates of FIB in aquatic environments are system specific, species and source dependent, and influenced by SPM concentration. This study has important implications for catchment-based risk assessments and source apportionment of FIB pollution in aquatic environments. [Display omitted] •Suspended particulate material (SPM) affects the survival of faecal bacteria (FB).•FB decay was measured in fresh and brackish water with three SPM concentrations.•Ovine- and sewage-derived FB had contrasting decay/proliferation rates.•SPM concentration had a significant effect on FB decay rate in brackish water.•System, species, source and SPM concentration influence estuarin
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2016.03.076