Abstract
Water shortage is severe in the North China Plain (NCP). In addition to a deficiency of water resources, deterioration of groundwater quality should be of great concern. In this study, hydrogeological analysis was conducted in combination with principal component analysis, correlation analysis and the co-kriging method to identify factors controlling the content of major ions and total dissolved solids (TDS) in areal shallow and deep groundwater and to assess groundwater evolution in Cangzhou, China. The results suggested that groundwater quality degradation occurred and developed in the study area, as indicated by increasing concentrations of major ions, TDS and hardness in both shallow and deep groundwater. In shallow groundwater, whose hydrochemical water types changed from HCO3–Ca.Na.Mg and HCO3.Cl–Na in the west (Zone II) to Cl.SO4–Na and Cl–Na in the east (Zone III). Areas with TDS concentrations between 1500 and 2000 mg/L occupied 79.76% of the total in the 1980s, while areas with a TDS concentration ranging from 2500 to 3000 mg/L comprised 59.11% of the total in the 2010s. In deep groundwater, the area with TDS over 1000 mg/L expanded from 5366.39 km2 in the 1960s to 7183.52 km2 in the 2010s. Natural processes (water-rock interactions) and anthropogenic activities (groundwater exploitation) were the dominant factors controlling the major ions’ content in local groundwater. Dissolution of dolomite, calcite, feldspar and gypsum were the primary sources of major ions in groundwater, and the ion exchange reaction had a strong effect on the cation content, especially for deep groundwater.
Highlights
The scarcity of freshwater resources has become an important issue worldwide [1,2,3]
Groundwater hydrochemical characteristics are of great importance to determine water quality and the evolution tendency for domestic, agricultural and industrial purposes [40]
Dissolution of dolomite, calcite, feldspar and gypsum are the primary origins of major ions in groundwater, and the cation exchange reactions have significant effects on the levels of Ca2+, Mg2+ and Na+, especially in deep groundwater
Summary
The scarcity of freshwater resources has become an important issue worldwide [1,2,3]. Groundwater availability and quality has become the source of concern for researchers worldwide. Most studies of these issues focused on the saltwater intrusion [5,11], groundwater salinization [12,13,14,15], arsenic and other heavy metals in groundwater [16,17,18,19], the sustainability of aquifer exploitation [20] and groundwater quality evaluation [21]. The results of studies of the Ogallala aquifer in Texas [15,22] indicated that remarkable groundwater quality deterioration associated with persistent groundwater exploitation was ongoing since the 1960s. The North China Plain (NCP) is one of global hotspots of groundwater depletion [23,24,25]; in addition of a shortage of groundwater resource, deterioration of groundwater quality should be of great concern, too
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