1. Assessing Risk of E. coli Resuspension from Intertidal Estuarine Sediments: Implications for Water Quality
- Author
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David M. Paterson, Lisa M. Avery, James E. V. Rimmer, Adam J. Wyness, E. C. Defew, Marc Stutter, University of St Andrews. Coastal Resources Management Group, University of St Andrews. Sediment Ecology Research Group, University of St Andrews. Marine Alliance for Science & Technology Scotland, University of St Andrews. Scottish Oceans Institute, University of St Andrews. St Andrews Sustainability Institute, and University of St Andrews. School of Biology
- Subjects
Geologic Sediments ,estuarine sediment ,Bathing waters ,Health, Toxicology and Mutagenesis ,0208 environmental biotechnology ,lcsh:Medicine ,Particle (ecology) ,Intertidal ,02 engineering and technology ,010501 environmental sciences ,E. coli ,01 natural sciences ,water quality ,faecal contamination ,Feces ,Water column ,Cohesive sediment ,RA0421 ,RA0421 Public health. Hygiene. Preventive Medicine ,chemistry.chemical_classification ,geography.geographical_feature_category ,QR Microbiology ,erosion ,Water quality ,Faecal indicator organism (FIO) ,Erosion ,Environmental chemistry ,cohesive sediment ,Estuaries ,Water Microbiology ,NDAS ,Intertidal zone ,Risk Assessment ,Article ,SDG 3 - Good Health and Well-being ,Escherichia coli ,Humans ,Organic matter ,intertidal ,Estuarine sediment ,0105 earth and related environmental sciences ,geography ,lcsh:R ,Sediment stability ,Public Health, Environmental and Occupational Health ,Sediment ,Estuary ,Faecal contamination ,020801 environmental engineering ,QR ,chemistry ,Environmental science ,sediment stability ,faecal indicator organism (FIO) ,bathing waters - Abstract
Funding: University of St Andrews, and The James Hutton Institute. DMP received funding from the Marine Alliance for Science and Technology for Scotland (MASTS), funded by the Scottish Funding Council (grant reference HR09011). Estuarine sediments are a reservoir for faecal bacteria, such as E. coli, where they reside at greater concentrations and for longer periods than in the overlying water. Faecal bacteria in sediments do not usually pose significant risk to human health until resuspended into the water column, where transmission routes to humans are facilitated. The erosion resistance and corresponding E. coli loading of intertidal estuarine sediments was monitored in two Scottish estuaries to identify sediments that posed a risk of resuspending large amounts of E. coli. In addition, models were constructed in an attempt to identify sediment characteristics leading to higher erosion resistance. Sediments that exhibited low erosion resistance and a high E. coli loading occurred in the upper- and mid-reaches of the estuaries where sediments had higher organic content and smaller particle sizes, and arose predominantly during winter and autumn, with some incidences during summer. Models using sediment characteristics explained 57.2% and 35.7% of sediment shear strength and surface stability variance respectively, with organic matter content and season being important factors for both. However large proportions of the variance remained unexplained. Sediments that posed a risk of resuspending high amounts of faecal bacteria could be characterised by season and sediment type, and this should be considered in the future modelling of bathing water quality. Publisher PDF
- Published
- 2019
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