Microbial and metal water quality in rain catchments compared with traditional drinking water sources in the East Sepik Province, Papua New Guinea

Horak, Helena M.; Chynoweth, Joshua; Myers, Ward P.; Davis, Jennifer; Fendorf, S. E.; Boehm, Alexandria B.

doi:10.2166/wh.2009.233

Cited by 12 publications

(7 citation statements)

References 19 publications

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“…These analysis methods for dealing with data below and above the detection limit are well documented in the literature. 27,[39][40][41][42][43][44][45][46] Tests were not performed to confirm E. coli or fecal streptococci. Thus, concentrations and reductions reported in this paper should be viewed as those of presumptive E. coli and fecal streptococci.…”

Section: Methodsmentioning

confidence: 99%

Efficacy of Waterless Hand Hygiene Compared with Handwashing with Soap: A Field Study in Dar es Salaam, Tanzania

Pickering

Boehm²,

Mwanjali³

et al. 2010

The American Society of Tropical Medicine and Hygiene

Self Cite

118

101

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Abstract. Effective handwashing with soap requires reliable access to water supplies. However, more than three billion persons do not have household-level access to piped water. This research addresses the challenge of improving hand hygiene within water-constrained environments. The antimicrobial efficacy of alcohol-based hand sanitizer, a waterless hand hygiene product, was evaluated and compared with handwashing with soap and water in field conditions in Dar es Salaam, Tanzania. Hand sanitizer use by mothers resulted in 0.66 and 0.64 log reductions per hand of Escherichia coli and fecal streptococci, respectively. In comparison, handwashing with soap resulted in 0.50 and 0.25 log reductions per hand of E. coli and fecal streptococci, respectively. Hand sanitizer was significantly better than handwashing with respect to reduction in levels of fecal streptococci ( P = 0.01). The feasibility and health impacts of promoting hand sanitizer as an alternative hand hygiene option for water-constrained environments should be assessed.

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Section: Methodsmentioning

confidence: 99%

Efficacy of Waterless Hand Hygiene Compared with Handwashing with Soap: A Field Study in Dar es Salaam, Tanzania

Pickering

Boehm²,

Mwanjali³

et al. 2010

The American Society of Tropical Medicine and Hygiene

Self Cite

118

101

View full text Add to dashboard Cite

show abstract

“…The impacts documented ranged from catastrophic loss of whole villages, through destruction of water and sanitation infrastructure, to changes in source water quantity and/or quality (Mosley et al 2004;White et al 2007;Keim 2010). Studies have examined aquifer contamination from storm surge in atoll communities (Keim 2010; and changes in water quality across rainwater tanks, wells and streams (Terry et al 2001;Horak et al 2010). …”

Section: Emergency Wash and Intervention Strategiesmentioning

confidence: 99%

“…Mourits and Kumar (1995), in the context of rainwater harvesting in Fiji, showed the importance of understanding the cultural setting with respect to supporting individual actions (like establishing household water harvesting schemes), as resources are often shared at the village level. Such cultural issues and the need to understand social structures prior to intervention were cited by many authors as reasons for project failure (see also (Kuruppu 2009;Greenwell et al 2013; Guerrier et al Several studies reported assessments of water quality and contamination across multiple water source types (Mourits & Kumar 1995;Beatty et al 2004;Horak et al 2010;Psutka et al 2013). This is relevant in the context of global WaSH surveys that assess the primary water source of each household, despite the growing evidence that many households use a variety of sources for different uses (MacDonald et al 2016).…”

Section: Emergency Wash and Intervention Strategiesmentioning

confidence: 99%

“…Importantly, some studies showed that source water quality, per se, does not necessarily drive acceptance and patterns of use. For example, Horak et al (2010) showed how rainwater tank water quality was vastly better than water quality in wells and streams in PNG, yet was not the preferred source for drinking and cooking. Households were not using scientific water quality measurements to guide their decision-making and patterns of use, so more work linking perceptions of water safety to measures of water safety would aid our understanding of how PIC communities value and use their water.…”

Section: Emergency Wash and Intervention Strategiesmentioning

confidence: 99%

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Temporal and thematic trends in water, sanitation and hygiene (WaSH) research in Pacific Island Countries: a systematic review

MacDonald

Chan

Elliott

et al. 2017

Journal of Water, Sanitation and Hygiene for Development

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Pacific Island Countries (PICs) lag behind global trends in water, sanitation and hygiene (WaSH) development. We conducted a systematic search of all English language papers (published before February 2015) about WaSH in PICs to evaluate the state of the peer-reviewed literature and explore thematic findings. A total of 121 papers met the criteria for full-text review following an initial search result of more than 6000 papers. Two reviewers independently assessed the quality and relevance of each article and consolidated their findings according to four emergent themes: public health, environment, emergency response and interventions, and management and governance. Findings indicate a knowledge gap in evidence-guided WaSH management strategies that advocate for human health while concurrently protecting and preserving drinking water resources. Extreme weather events threaten the quantity and quality of limited freshwater resources, and cultural factors that are unique to PICs present challenges to hygiene and sanitation. This review highlights the strengths and weaknesses of the peer-reviewed literature on WaSH in PICs, addresses spatial and temporal publication trends, and suggests areas in need of further research to help PICs meet development goals.

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“…Although this solution appears attractive from an ecological point of view, it is necessary to measure the quality of harvested rainwater due to the potential for health risks as a result of chemical and microbiological contaminants. Over the last decades, studies in numerous countries including USA, Nigeria, New-Zealand, India, Zambia, Brazil, Canada, Australia, Jordan, New Guinea and South Korea, have investigated the quality of harvested rainwater (Crabtree et al 1996;Uba and Aghogho 2000;Simmons et al 2001;Kulshrestha et al 2003;Handia 2005;May and Prado 2006;Al-Khashman 2009;Despins et al 2009;Evans et al 2009;Horak et al 2010;Lee et al 2010). In Europe, rainwater quality assessment was studied by Förster 1999;Albrechtsen 2002;Polkowska et al 2002;Fewtrell and Kay 2007;Melidis et al 2007;Oesterholt et al 2007;Sazakli et al 2007;Schriewer et al 2008;Tsakovski et al 2010.…”

Section: Introductionmentioning

confidence: 99%

Water Quality Monitoring and Hydraulic Evaluation of a Household Roof Runoff Harvesting System in France

Vialle

Sablayrolles

Lovera

et al. 2012

Water Resour Manage

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ter quality monitoring and hydraulic evaluation of a household roof runoff harvesting system in France. Water Resources Management, Springer Verlag, 2012, vol. 26, pp.2233-2241 AbstractThe quality of harvested rainwater used for toilet flushing in a private house in the south-west of France was assessed over a one-year period. Twenty-one physicochemical parameters were screened using standard analytical techniques. The microbiological quality of stored roof runoff was also investigated and total flora at 22°C and 36°C, total coliforms, Escherichia Coli, enteroccocci, Cryptospridium oocysts, Giardia cysts, Legionella species, Legionella pneumophila, Aeromonas, and Pseudomonas aeruginosa were analysed. Chemical and microbiological parameters fluctuated during the course of the study, with the highest levels of microbiological contamination observed in roof runoffs collected during the summer. Overall, the collected rainwater had a relatively good physicochemical quality but variable, and, did not meet the requirements for drinking water and a microbiological contamination of the water was observed. The water balance of a 4-people standard family rainwater harvesting system was also calculated in this case study. The following parameters were calculated: rainfall, toilets flushing demand, mains water, rainwater used and water saving efficiency. The experimental water saving efficiency was calculated as 87 %. The collection of rainwater from roofs, its storage and subsequent use for toilet flushing can save 42 m 3 of potable water per year for the studied system.

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Microbial and metal water quality in rain catchments compared with traditional drinking water sources in the East Sepik Province, Papua New Guinea

Cited by 12 publications

References 19 publications

Efficacy of Waterless Hand Hygiene Compared with Handwashing with Soap: A Field Study in Dar es Salaam, Tanzania

Efficacy of Waterless Hand Hygiene Compared with Handwashing with Soap: A Field Study in Dar es Salaam, Tanzania

Temporal and thematic trends in water, sanitation and hygiene (WaSH) research in Pacific Island Countries: a systematic review

Water Quality Monitoring and Hydraulic Evaluation of a Household Roof Runoff Harvesting System in France

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