Concentration Levels and Patterns of Fluoride in Groundwater Resources From Kendu Bay Area, Kenya
Abstract
Water samples from twenty eight boreholes and twenty six wells were sampled in Kendu
Bay area which lies between longitudes 34° 35' and 34° 40' E and latitudes 0° 21' and 0°
27' S. The sampling was done in two seasons: dry season in the month of January 2006
and rainy season in the month of April in the same year. Defficiency or excess of fluoride
in drinking water may be harzadous causing dental caries or dental fluorosis respectively.
The samples were therefore analysed for fluoride and pH in the laboratory with the aim
of determining the concentrations of fluoride in the study area, comparing these
concentrations in the rift zone with those outside the rift, hence establish the factors
controlling fluoride concentrations in the study area. Ion selective electrode method was
used for the fluoride and pH determination in the laboratory. Temperature determinations
were done in the field on site of each sampling point and an average of three temperature
readings were taken on fresh sample of each sample using a -10QC -100QC range mercury
thermometer. Using computer techniques the overall distribution of fluoride levels,
temperature and pH values in the study area in different seasons were plotted. The
distribution patterns have been explained in terms of geology. These patterns do not
change but the concentration changes.
The field and results obtained from the study area were subjected to statistical analysis.
The regression curves and values of moment correlation coefficients indicate that there is
significant relationship between fluoride and pH in both seasons. Temperature has slight
effect on fluoride concentration while there is no relationship between fluoride
concentrations and depth. Component factor analysis results show that pH is the
VI
parameter that has the highest significant control of fluoride in the study area. Q-Q plot
results and the descriptive statistics reveal that fluoride concentrations in the dry season
are higher than rainy season, also fluoride concentrations in the lowland are higher than
in upland, hence a general pattern in the decrease in the fluoride level from dry season to
rainy season. This same pattern applies to temperature and pH. Topographical corrections
were done and the elevations obtained in metres were used to determine the groundwater
level above sea level. This was used to draw groundwater contours. The groundwater
flow within the area of study has been determined by the use of groundwater contours.
The flow direction of groundwater is roughly SE-NW-N direction and is the same
direction as the surface water. The recharge and discharge areas have also been
established from the groundwater contour map. ln relation to groundwater flow direction
the concentration levels of fluoride are higher in the discharge areas and lower in the
recharge areas. Fluoride concentration levels increase with the direction of flow of
groundwater. Quality aspect of the groundwater resources in relation to domestic use has
been discussed. From this it is established that the waters are not suitable for domestic
use.
Publisher
University of Nairobi
Rights
Attribution-NonCommercial-NoDerivs 3.0 United StatesUsage Rights
http://creativecommons.org/licenses/by-nc-nd/3.0/us/Collections
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