Groundwater F anomalies could be re

Groundwater F anomalies could be related to natural origins such
as prolonged water–rock interactions and mineral weathering, or to
anthropogenic contamination such as from fertilizer application. Potential
sources of F in groundwater include various minerals such as
fluorite, apatite, amphibole, and mica (Ayoob and Gupta, 2006),
which are commonly found in gneiss terrane (Latha et al., 1999;
Young et al., 2011). The F concentration depends on the groundwater
chemistry including pH and the concentrations of Na, Ca, and HCO3
(Guo et al., 2010; Young et al., 2011). To find the controlling parameters
from large sets of groundwater chemistry data, principal component
analysis (PCA) is widely applied as an objective method in
geochemistry (Helena et al., 2000; Purushotham et al., 2011; Sarbu
and Pop, 2005; Stetzenbach et al., 2001). For example, using PCA analysis
and petrological study, Naseem et al. found that high F groundwater
originates from granitic rocks, typically from albite, biotite,
hornblende and pyroxene (Naseem et al., 2010).
Elevated groundwater F is documented in Shanxi and Inner Mongolia,
about 500 km apart in China (Currell et al., 2011; Li et al., 2011;
Wang et al., 1999). However, the similarities and differences in F geochemistry
in these two places have not been explored. The underlying
basement in Shanxi and Inner Mongolia is gneiss terrane, and the
groundwater is alkaline with similar TDS and pH values. Insights
gained from deciphering the crucial parameters in F-elevated areas
with comparable geochemistry should improve our understanding
of F occurrence worldwide.
The objective of this study was to compare the contributing factors
in high F groundwater in Shanxi and Inner Mongolia. The study included
111 tubewells used as current drinking water sources for villagers
with noticeable levels of F. PCA was applied to find the
dominating factors controlling the occurrence and mobility of F in
the groundwater.