Factors influencing the major ion chemistry in the Tihama coastal plain of southern Saudi Arabia: evidences from hydrochemical facies analyses and ionic relationships

Coastal aquifers across the globe have been a subject of extensive research mainly because of problems related to saline water intrusion as a consequence of global climate changes and overabstraction of groundwater. The present work deals with the assessment of factors which affects the groundwater...

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Bibliographic Details
Published in:Environmental earth sciences 2017-07, Vol.76 (14), p.1-16, Article 472
Main Authors: Zaidi, Faisal K., Al-Bassam, Abdulaziz M., Kassem, Osama M. K., Alfaifi, Hussain J., Alhumidan, Saad M.
Format: Article
Language:English
Subjects:
Agricultural practices
Agrochemicals
Anions
Aquifers
Area
Biogeosciences
Chemistry
Climate change
Coastal aquifers
Coastal plains
Coastal waters
Coastal zone
Coastal zones
Confined groundwater
Dissolution
Dissolving
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Farming
Farms
Fertilizers
Flats (landforms)
Geochemistry
Geology
Global climate
Groundwater
Groundwater chemistry
Gypsum
Halite
Halites
Hydrochemicals
Hydrology/Water Resources
Intrusion
Ion chemistry
Ions
Irrigation
Mineral fertilizers
Original Article
Percolation
pH effects
Plains
Rain
Rainfall
Ratios
Rocks
Sabkhas
Saline water
Saline water intrusion
Salt flats
Saturation
Saturation index
Silica
Silicates
Silicon dioxide
Species
Sulphates
Terrestrial Pollution
Unconfined aquifers
Water
Water mixing
Weathering
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Summary:Coastal aquifers across the globe have been a subject of extensive research mainly because of problems related to saline water intrusion as a consequence of global climate changes and overabstraction of groundwater. The present work deals with the assessment of factors which affects the groundwater chemistry in parts of the Tihama coastal plains in the Jazan Province of southern Saudi Arabia. Hydrochemical parameters (pH, EC, TDS, major ions, NO 3 and SiO 2 ) were obtained from 263 wells and were interpreted. Hydrochemical facies analyses revealed two main types of groundwater facies, i.e., the mixed groundwater facies predominantly confined to the eastern and central part of the study area (away from the coast) and groundwater facies dominated by SO 4  + Cl + NO 3 ions found mostly in the coastal zones in the western part of the study area. The average TDS value of the mixed groundwater facies is 945.7 mg/l, whereas the average TDS value is 3149.7 mg/l for the SO 4  + Cl + NO 3 anionic species. Greater influence of rainfall recharge can be observed in the mixed-water species, while saline water mixing or rock–water interaction can be seen in the SO 4 –Cl–NO 3 type of anionic species. However, ionic ratios point more toward rock–water interaction rather than saline water mixing in the groundwater facies dominated by SO 4 –Cl–NO 3 ions. This interpretation is also supported by the presence of sabkhas (salt flats) in the coastal zones where its interaction with the groundwater has resulted in high Cl and SO 4 concentration. Cl/Br ratios which have often been used to detect saline water intrusion in coastal zones also do not support saline water intrusion in the study area. Ionic ratios point toward dissolution and base ion exchange as the main factors influencing the groundwater chemistry. Silicate weathering and silica dissolution are also found in the area. Saturation indices point toward gypsum and halite dissolution. The average NO 3 concentration is 157.80 mg/l and is mostly attributed to the agricultural practices in the region. The presence of shallow unconfined aquifers facilitate the easy percolation of irrigation return flows enriched in NO 3 concentration from the application of inorganic fertilizers on the agricultural farms.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-017-6817-0