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Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks

Rainwater is consumed for drinking water in many parts of Australia, either preferentially over municipal water or in regional or remote areas, because rainwater is the primary source of water. Previous rainwater studies in other areas in Australia have shown the levels of some metals to be above th...

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Autores principales: Chubaka, Chirhakarhula E., Whiley, Harriet, Edwards, John W., Ross, Kirstin E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6068815/
https://www.ncbi.nlm.nih.gov/pubmed/30041401
http://dx.doi.org/10.3390/ijerph15071551
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author Chubaka, Chirhakarhula E.
Whiley, Harriet
Edwards, John W.
Ross, Kirstin E.
author_facet Chubaka, Chirhakarhula E.
Whiley, Harriet
Edwards, John W.
Ross, Kirstin E.
author_sort Chubaka, Chirhakarhula E.
collection PubMed
description Rainwater is consumed for drinking water in many parts of Australia, either preferentially over municipal water or in regional or remote areas, because rainwater is the primary source of water. Previous rainwater studies in other areas in Australia have shown the levels of some metals to be above the Australian Drinking Water Guidelines (ADWG). This study assessed the level of metals in rainwater harvested in the Adelaide region. Water samples were collected from 53 tanks from three different sampling corridors. A total of 365 water samples were analysed for lead, zinc, copper, and cadmium using atomic absorption spectrophotometry. In 47 out of the 53 tanks, lead was above the ADWG of 0.01 ppm in at least one sample (with 180/365 samples above 0.01 ppm). Zinc was above the ADWG (3.0 ppm) in 53/365 samples, copper was above the ADWG (2.0 ppm) in eight samples out of 365 samples, and cadmium was above the ADWG (0.002 ppm) in 19 samples out of 365 samples. These data are consistent with other studies of rainwater quality in Australia. Comparisons of levels of metals and volume of rainfall in the sampling and preceding month, roof material, and tank material, the presence of a first-flush device, sampling corridor, and sample pH showed that the roof material was related to higher levels of metals. There was a significant relationship between sampling corridors and the levels of lead and zinc. Nine of the tanks surveyed had filters installed. There was a small, but statistically significant, decrease in the levels of metals that passed through a filter prior to collection but, in those samples, filters did not remove metals to below guideline concentrations. An estimate of exposure, and a brief discussion of health risks as a result of exposure to metals, is presented.
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spelling pubmed-60688152018-08-07 Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks Chubaka, Chirhakarhula E. Whiley, Harriet Edwards, John W. Ross, Kirstin E. Int J Environ Res Public Health Article Rainwater is consumed for drinking water in many parts of Australia, either preferentially over municipal water or in regional or remote areas, because rainwater is the primary source of water. Previous rainwater studies in other areas in Australia have shown the levels of some metals to be above the Australian Drinking Water Guidelines (ADWG). This study assessed the level of metals in rainwater harvested in the Adelaide region. Water samples were collected from 53 tanks from three different sampling corridors. A total of 365 water samples were analysed for lead, zinc, copper, and cadmium using atomic absorption spectrophotometry. In 47 out of the 53 tanks, lead was above the ADWG of 0.01 ppm in at least one sample (with 180/365 samples above 0.01 ppm). Zinc was above the ADWG (3.0 ppm) in 53/365 samples, copper was above the ADWG (2.0 ppm) in eight samples out of 365 samples, and cadmium was above the ADWG (0.002 ppm) in 19 samples out of 365 samples. These data are consistent with other studies of rainwater quality in Australia. Comparisons of levels of metals and volume of rainfall in the sampling and preceding month, roof material, and tank material, the presence of a first-flush device, sampling corridor, and sample pH showed that the roof material was related to higher levels of metals. There was a significant relationship between sampling corridors and the levels of lead and zinc. Nine of the tanks surveyed had filters installed. There was a small, but statistically significant, decrease in the levels of metals that passed through a filter prior to collection but, in those samples, filters did not remove metals to below guideline concentrations. An estimate of exposure, and a brief discussion of health risks as a result of exposure to metals, is presented. MDPI 2018-07-23 2018-07 /pmc/articles/PMC6068815/ /pubmed/30041401 http://dx.doi.org/10.3390/ijerph15071551 Text en © 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Chubaka, Chirhakarhula E.
Whiley, Harriet
Edwards, John W.
Ross, Kirstin E.
Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks
title Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks
title_full Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks
title_fullStr Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks
title_full_unstemmed Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks
title_short Lead, Zinc, Copper, and Cadmium Content of Water from South Australian Rainwater Tanks
title_sort lead, zinc, copper, and cadmium content of water from south australian rainwater tanks
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6068815/
https://www.ncbi.nlm.nih.gov/pubmed/30041401
http://dx.doi.org/10.3390/ijerph15071551
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