Characterization of Atmospheric Bulk Deposition: Implications on the Quality of Rainwater Harvesting Systems in the Semi-Arid City of Mekelle, Northern Ethiopia

Characterization of Atmospheric Bulk Deposition: Implications on the Quality of Rainwater Harvesting Systems in the Semi-Arid City of Mekelle, Northern Ethiopia

It is estimated that about 1.2 billion people, mostly in arid and semi-arid regions of the Middle East and Africa, live in regions where water is physically scarce. Recently, rainwater harvesting and more effective water storage are suggested as important means for investment to cope against water s...

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Bibliographic Details
Published in:Environmental processes Vol. 3; no. 1; pp. 247 - 261
Main Authors: Taffere, Getachew Redae, Beyene, Abebe, Vuai, Said A. H., Gasana, Janvier, Seleshi, Yilma
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-03-2016
Springer Nature B.V
Subjects:
Alkalizing
Anthropogenic factors
Arid regions
Arid zones
Atmospheric pollution deposition
Bicarbonates
Calcium
Calcium ions
Climate change
Contaminants
Deposition
Earth and Environmental Science
Earth Sciences
Environmental Management
Environmental Science and Engineering
Health risks
Ions
Magnesium
Original Article
pH effects
Principal components analysis
Public health
Rain water
Rainwater recovery systems
Rainy season
Residential areas
Semi arid areas
Semiarid lands
Sulfates
Urban areas
Urban environments
Waste Management/Waste Technology
Water harvesting
Water quality
Water quality standards
Water Quality/Water Pollution
Water scarcity
Water storage
Water treatment
Rainwater quality
Atmospheric deposition
Rainwater harvesting
Mekelle city
Principal component analysis
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Summary:It is estimated that about 1.2 billion people, mostly in arid and semi-arid regions of the Middle East and Africa, live in regions where water is physically scarce. Recently, rainwater harvesting and more effective water storage are suggested as important means for investment to cope against water scarcity and as an adaption to climate change. Cognizant of this fact, contribution of atmospheric deposition contaminant to rainwater harvesting systems, in the semi-arid city of Mekelle was investigated at four locations (industrial, commercial, traffic and residential areas). A total of 24 bulk samples were collected during the rainy season from May to September 2014. Physicochemical water quality analysis was performed following standard protocols. The results revealed that alkaline pH (6.95–10.29) was recorded in all the locations, with a mean pH of 8.11. The major ions analysis indicated the dominance of bicarbonates and carbonate types and to some extent sulfate and chloride type mixtures justifying the source of alkaline pH. Mean concentrations of ions follow the order of SO 4 2− > Ca 2+ > Mg 2+ > CI − > NO 3 − > Na + > NH 4 + > K. Correlation between SO 4 2− and NO 3 − ( r  = 0.436), and Mg 2+ and K + ( r  = 0.707) suggested their anthropogenic and crustal origin, respectively, while the correlation between NH 4 + with Ca 2+ and Mg 2+ ascribed their role in alkalization of the rainwater. Moreover, principal component analysis showed spatiotemporal variation of atmospheric bulk components in the study area. Thus, this primary investigation demonstrated that atmospheric bulk deposition might pose public health risk due to poor rainwater quality in Mekelle city. Therefore, development of rainwater harvesting systems for semi-arid urban centers should be supplemented with low-cost water treatment technologies.
ISSN:2198-7491
2198-7505
DOI:10.1007/s40710-016-0133-7