Establishment of background water quality conditions in the Great Zab River catchment: influence of geogenic and anthropogenic controls on developing a baseline for water quality assessment and resource management

The Great Zab River catchment is a major left-bank tributary of the River Tigris and drains a substantial part of the Kurdistan Region, an autonomous region of Northern Iraq. Within Kurdistan, the water resources of the Great Zab River catchment are under pressure from population increase and are ut...

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Bibliographic Details
Published in:Environmental earth sciences 2018, Vol.77 (2), p.1-12, Article 50
Main Authors: Ismaiel, Ismaiel Asad, Bird, Graham, McDonald, Morag A., Perkins, William T., Jones, Timothy G.
Format: Article
Language:English
Subjects:
Agricultural management
Anthropogenic factors
Bedrock
Biogeosciences
Cadmium
Catchment area
Chromium
Clay
Copper
Dissolved oxygen
Drinking water
Earth and Environmental Science
Earth Sciences
Electrical conductivity
Electrical resistivity
Environmental monitoring
Environmental Science and Engineering
Geochemistry
Geology
Human influences
Hydrology/Water Resources
Influence
Iron
Lead
Manganese
Mercury
Mercury (metal)
Nickel
Organizations
Original Article
Oxygen
pH effects
Quality assessment
Quality control
Resource management
Resources
River catchments
River water
River water chemistry
Rivers
Spatial data
Surveying
Terrestrial Pollution
Trends
Tributaries
Turbidity
Water chemistry
Water monitoring
Water quality
Water quality assessments
Water quality management
Water resources
Water resources management
Zinc
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Summary:The Great Zab River catchment is a major left-bank tributary of the River Tigris and drains a substantial part of the Kurdistan Region, an autonomous region of Northern Iraq. Within Kurdistan, the water resources of the Great Zab River catchment are under pressure from population increase and are utilized for potable, domestic and agricultural and industrial supply. As with many parts of the world, effective management of water resources within Kurdistan is hindered by a lack of water quality data and established background concentrations. This study therefore represents the first regional survey of river water chemistry for the Great Zab River catchment and presents data on the spatial and temporal trends in concentrations of As, Ba, Ca, Cd, Co, Cr, Cu, Fe, Hg, Li, Mn, Mo, Ni, Pb, Sr, Zn, NO 3 − , SO 4 2− , F − , Cl − and PO 4 3− , in addition to pH, electrical conductivity, dissolved oxygen and turbidity. As a tool for underpinning the management and monitoring of water quality, background concentrations were defined for the Great Zab catchment using three methods. The influences of geogenic and anthropogenic controls upon spatial and temporal trends in water chemistry are also evaluated. The influence of geogenic loading from underlying bedrock was identifiable within the observed spatial trends, with the most notable differences found between waters sampled from the relatively more volcanic-rich Zagros zone to the north and those sampled from the lower catchment underlain by younger clay-, sand- and siltstones. The greatest anthropogenic influence, identifiable through elements such as Cl − and NO 3 − , is present in the more highly populated lower catchment. The background concentrations identified in the Great Zab catchment would be those expected as a result of geogenic loading with some anthropogenic influence and represent a more conservative value when compared to those such as the World Health Organization Maximum Admissible Concentration. However, background concentrations represent a powerful tool for identifying potential anthropogenic impacts on water quality and informing management of such occurrences.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-017-7190-8