Water quality laboratories in Colombia: A GIS-based study of urban and rural accessibility
Water quality laboratories in Colombia: A GIS-based study of urban and rural accessibility
The objective of this study was to quantify sample transportation times associated with mandated microbiological monitoring of drinking-water in Colombia. World Health Organization Guidelines for Drinking-Water Quality recommend that samples spend no more than 6 h between collection and analysis in a laboratory. Census data were used to estimate the minimum number of operational and surveillance samples required from piped water supplies under national regulations. Drive-times were then computed from each supply system to the nearest accredited laboratory and translated into sample holding times based on likely daily monitoring patterns. Of 62,502 surveillance samples required annually, 5694 (9.1%) were found to be more than 6 h from the nearest of 278 accredited laboratories. 612 samples (1.0%) were more than 24 hours' drive from the nearest accredited laboratory, the maximum sample holding time recommended by the World Health Organization. An estimated 30% of required rural samples would have to be stored for more than 6 h before reaching a laboratory. The analysis demonstrates the difficulty of undertaking microbiological monitoring in rural areas and small towns from a fixed laboratory network. Our GIS-based approach could be adapted to optimise monitoring strategies and support planning of testing and transportation infra-structure development. It could also be used to estimate sample transport and holding times in other countries.
drinking water, faecal indicator bacteria, GIS, monitoring, spatial analysis, water supply
643-652
Wright, J.A.
94990ecf-f8dd-4649-84f2-b28bf272e464
Liu, J.
516e902e-000e-4f9c-b9bc-bac18b1f5ade
Bain, R.
ad9d875b-1b72-4018-a0b4-e1d872e6d039
Perez, A.
42db3b2e-cfaf-4763-80e0-834a2e84dae1
Crocker, J.
358b3d04-a029-4c70-aba6-cdebec2bdb29
Bartram, J.
89ea4745-2e0b-41c7-bcb7-909ff36fa902
Gundry, S.
90a43732-3389-4d6f-bf3c-e2f47f74c749
1 July 2014
Wright, J.A.
94990ecf-f8dd-4649-84f2-b28bf272e464
Liu, J.
516e902e-000e-4f9c-b9bc-bac18b1f5ade
Bain, R.
ad9d875b-1b72-4018-a0b4-e1d872e6d039
Perez, A.
42db3b2e-cfaf-4763-80e0-834a2e84dae1
Crocker, J.
358b3d04-a029-4c70-aba6-cdebec2bdb29
Bartram, J.
89ea4745-2e0b-41c7-bcb7-909ff36fa902
Gundry, S.
90a43732-3389-4d6f-bf3c-e2f47f74c749
Wright, J.A., Liu, J., Bain, R., Perez, A., Crocker, J., Bartram, J. and Gundry, S.
(2014)
Water quality laboratories in Colombia: A GIS-based study of urban and rural accessibility.
Science of the Total Environment, 485-486, .
(doi:10.1016/j.scitotenv.2014.03.127).
Abstract
The objective of this study was to quantify sample transportation times associated with mandated microbiological monitoring of drinking-water in Colombia. World Health Organization Guidelines for Drinking-Water Quality recommend that samples spend no more than 6 h between collection and analysis in a laboratory. Census data were used to estimate the minimum number of operational and surveillance samples required from piped water supplies under national regulations. Drive-times were then computed from each supply system to the nearest accredited laboratory and translated into sample holding times based on likely daily monitoring patterns. Of 62,502 surveillance samples required annually, 5694 (9.1%) were found to be more than 6 h from the nearest of 278 accredited laboratories. 612 samples (1.0%) were more than 24 hours' drive from the nearest accredited laboratory, the maximum sample holding time recommended by the World Health Organization. An estimated 30% of required rural samples would have to be stored for more than 6 h before reaching a laboratory. The analysis demonstrates the difficulty of undertaking microbiological monitoring in rural areas and small towns from a fixed laboratory network. Our GIS-based approach could be adapted to optimise monitoring strategies and support planning of testing and transportation infra-structure development. It could also be used to estimate sample transport and holding times in other countries.
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More information
e-pub ahead of print date: 17 April 2014
Published date: 1 July 2014
Keywords:
drinking water, faecal indicator bacteria, GIS, monitoring, spatial analysis, water supply
Organisations:
Population, Health & Wellbeing (PHeW)
Identifiers
Local EPrints ID: 364305
URI: http://eprints.soton.ac.uk/id/eprint/364305
ISSN: 0048-9697
PURE UUID: f3f65f35-692d-4bdc-ab20-7f56a2d0481f
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Date deposited: 23 Apr 2014 14:06
Last modified: 15 Mar 2024 03:21
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Contributors
Author:
J. Liu
Author:
R. Bain
Author:
A. Perez
Author:
J. Crocker
Author:
J. Bartram
Author:
S. Gundry
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