Contamination of recreational and shellfish waters with fecal pollution is a
major water quality issue with associated economic impacts and human health risks.
Reliable fecal source identification and rapid, quantitative analyses are essential
components of risk assessment. Enteric bacteria that are endemic to specific hosts
have a potential role as public health indicators of fecal pollution. Building on
previous work to discriminate ruminant and human fecal contamination, we cloned
class Bacteroidetes 16S rRNA genes from pig, elk, dog, cat, and seagull fecal DNAs.
Unique restriction patterns were identified among clones from each of the host species
using Terminal Restriction Fragment Length Polymorphisms (T-RFLP). Clones
exhibiting unique patterns were sequenced and analyzed phylogenetically, along with
human, horse, and cattle sequences recovered from previous work. The analysis
revealed both endemic and cosmopolitan (global) host distributions. The sequence
data were used to identify host-specific genetic markers for pig and horse feces, and
to design PCR primers that identify these sources of fecal pollution in water. There
was a high degree of sequence overlap among the fecal Bacteroidetes of wild and
domestic ruminants, and among human, domestic pet, and seagull Bacteroidetes. We
compared fecal Bacteroidetes rRNA genes from these hosts using subtractive
hybridization, a method that identifies differences between closely related genomes or
gene sequences. A Bacteroidetes rDNA marker that distinguishes elk and cow feces
was identified, as well as a host-specific marker for dog fecal Bacteroidetes. The four
newly designed PCR primers were tested for specificity and sensitivity, and the dog
primer was successfully used, along with the human and ruminant-specific primers, in
a collaborative study comparing fecal source tracking methods. We also developed a
real time Taq nuclease assay for quantification of fecal Bacteroidetes 16S rDNA, and
compared it with an EPA-approved enumeration method for the current standard
public health indicator, Escherichia coli, in serial dilutions of sewage primary influent.
There was a strong, positive correlation between the methods, and the Taq nuclease
assay was sensitive and much more rapid than the E. coli assay. PCR source
identification and enumeration of fecal Bacteroidetes 16S rDNA show promise for
application in a health risk-based analysis of fecal pollution. / Graduation date: 2005
Identifer | oai:union.ndltd.org:ORGSU/oai:ir.library.oregonstate.edu:1957/29752 |
Date | 16 November 2004 |
Creators | Dick, Linda K. |
Contributors | Field, Katharine G. |
Source Sets | Oregon State University |
Language | en_US |
Detected Language | English |
Type | Thesis/Dissertation |
Page generated in 0.002 seconds