Temporal variability in domestic point source discharges and their associated impact on receiving waters

Discharges from the widely distributed small point sources of pollutants such as septic tanks contribute to microbial and nutrient loading of streams and can pose risks to human health and stream ecology, especially during periods of ecological sensitivity. Here we present the first comprehensive da...

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Bibliographic Details
Published in:The Science of the total environment Vol. 571; pp. 1275 - 1283
Main Authors: Richards, Samia, Withers, Paul J.A., Paterson, Eric, McRoberts, Colin W., Stutter, Marc
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 15-11-2016
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Summary:Discharges from the widely distributed small point sources of pollutants such as septic tanks contribute to microbial and nutrient loading of streams and can pose risks to human health and stream ecology, especially during periods of ecological sensitivity. Here we present the first comprehensive data on the compositional variability of septic tank effluents (STE) as a potential source of water pollution during different seasons and the associated links to their influence on stream waters. To determine STE parameters and nutrient variations, the biological and physicochemical properties of effluents sampled quarterly from 12 septic tank systems were investigated with concurrent analyses of upstream and downstream receiving waters. The study revealed that during the warmer dryer months of spring and summer, effluents were similar in composition, as were the colder wetter months of autumn and winter. However, spring/summer effluents differed significantly (P<0.05) from autumn/winter for concentrations of biological oxygen demand (BOD), arsenic, barium (Ba), cobalt, chromium, manganese, strontium (Sr), titanium, tungsten (W) and zinc (Zn). With the exception of BOD, Ba and Sr which were greater in summer and spring, the concentrations of these parameters were greater in winter. Receiving stream waters also showed significant seasonal variation (P≤0.05) in alkalinity, BOD, dissolved organic carbon, sulphate, sulphur, lithium, W, Zn and Escherichiacoli abundance. There was a clear significant influence of STE on downstream waters relative to upstream from the source (P<0.05) for total suspended solids, total particulate P and N, ammonium-N, coliforms and E. coli. The findings of this study found seasonal variation in STE and place effluent discharges as a factor affecting adjacent stream quality and call for appropriate measures to reduce or redirect STE discharges away from water courses. [Display omitted] •STE exhibited seasonal variation in BOD, As, Ba, Co, Cr, Mn, Sr, Ti, W and Zn.•Receiving waters were seasonally varied in alkalinity, BOD, DOC, SO4, S, Li and Zn.•Autumn/winter STE compositions differed from summer/spring discharges.•Summer/spring STE resembled stream and especially ditch receiving waters.•Downstream microbial, TSS, N and P concentrations were greater than upstream.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2016.07.166