Abstract
The Yellow River Delta is one of the biggest river deltas in China, and the shallow groundwater plays an important role in the development of the local agriculture and ecosystem. However, people are still unclear about the hydrochemical characteristics and mechanisms of the shallow groundwater. In this study, the authors collected and analyzed 81 groundwater samples from the delta plain and piedmont alluvial plain, and explored the hydrochemical features and causes through Piper diagrams, correlation analysis, ionic ratios, and speciation calculations. The results showed that anions were dominated by Cl and HCO3, the concentration of which was much more than that of SO4 and CO3. The groundwater can be divided into various types, including Na–Cl, Ca–Mg–HCO3, Na–HCO3 and Ca–Mg–Cl. This study tested an alternative method–ionic ratios based on the cumulative frequency distribution to characterizing the hydrochemical groups. According to different ion ratios and hydrogeological conditions, three hydrogeochemical zones with different dominant factors have been determined: Weathering—Fresh Water Zone (Zone I), Evaporation—Saline Water Zone (Zone II), and Seawater Mixing Zone (Zone III). As the calculated saturation index show, the calcite and dolomite are saturated, while the halite and gypsum from Zone I to Zone III tend to be saturated. In addition, cation exchange is an important hydrochemical process in the area, and Zone III experiences inverse ironic exchange. In conclusion, this hydrogeochemical zonation would be favorable for water resource management in the Yellow River Delta.
Highlights
Groundwater is an important resource for domestic, agricultural, industrial, and ecological development in arid and semi-arid regions [1]
The Na–Cl type dominates the groundwater in the delta plain, while the groundwater in the alluvial–proluvial plain in the southern part of the study area is mainly dominated by Ca–Mg–HCO3 type
The hydrochemistry is mainly affected by evaporation and concentration
Summary
Groundwater is an important resource for domestic, agricultural, industrial, and ecological development in arid and semi-arid regions [1]. Extensive research has been conducted on the hydrochemical evolution and suitability of groundwater in basin and river delta [4,5,6]. These studies suggested that hydrogeochemical processes of shallow groundwater are complicated and are influenced by climate, sedimentary environment, and anthropogenic activities. The hydrogeochemical processes of shallow groundwater include dissolution or precipitation, evaporation, ion exchange, and mixing [7,8,9]. The mathematical statistics, multivariate analysis, ionic ratio, mineral saturation index, inverse modeling, and isotopic tracing are regarded as the major methods for studying groundwater chemistry [10,11,12,13]
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