Effects of Seasonal Variations in Physical Parameters on Quality of Gravity Flow Water in Kyanamira Sub-County, Kabale District, Uganda

Ngabirano, Hannington; Byamugisha, Denis; Ntambi, Emmanuel

doi:10.4236/jwarp.2016.813099

Cited by 32 publications

(37 citation statements)

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“…All the borehole samples had TDS concentrations above these permissible limits. According to Ngabirano et al [49], high temperatures during dry seasons facilitate dissolution, ion-exchange capacity, desorption, and weathering processes. Considerable rainfall had been received prior to sampling in March 2018 after a long summer period where the study area had been relatively dry.…”

Section: Discussionmentioning

confidence: 99%

Impact of Leachate from Northern Landfill Site in Bloemfontein on Water and Soil Quality: Implications for Water and Food Security

et al. 2019

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Solid waste management in developing cities is a threat to water and food security. The final disposal option for solid wastes is usually landfill sites. Possible contaminants and their impact on surface and groundwater, and soil quality, at the northern solid waste landfill in Bloemfontein city, South Africa, was investigated. Soil samples were analysed for basic cations and heavy metals. A one-point surface leachate, groundwater, and surface water samples were analysed for physicochemical and microbiological parameters. Hydrochemical speciation models were developed using these parameters to determine the influence of the leachate emanating from the landfill on the quality of the water samples. Findings from the study showed that the low metal content in the soil and water samples posed no immediate threat to food and water security. However, most of the other parameters were above the permissible limit of South African National Standard 241 (SANS241) and World Health Organisation) (WHO for drinking water, a(nd the Department of Water Affairs and Forestry (DWAF) specification for irrigation, an indication that the groundwater was unfit for drinking, domestic and irrigation purposes. Metal concentrations in the soil also increased with distance downslope of the landfill along drainage lines. The implementation of a circular economy in Bloemfontein will translate to less pollution and enhance sustainable development.

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Section: Discussionmentioning

confidence: 99%

Impact of Leachate from Northern Landfill Site in Bloemfontein on Water and Soil Quality: Implications for Water and Food Security

et al. 2019

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“…Temperature variability can be very critical especially where biochemical reactions are concerned. Because an increase in temperature by 10 °C in groundwater aquifer leads to doubling of chemical reactions (EPA 2001), the solubility of gasses, ion exchange capacity, redox reaction, sorption processes, complexation, speciation, EC and pH level are all affected by variations in temperature (Ngabirano et al 2016). Similarly, pH differs significantly (H = 9.86, p = 0.002) between the two sources of groundwater.…”

Section: Hierarchical Cluster Analysismentioning

confidence: 99%

Hydrochemical characterization of shallow and deep groundwater in Basement Complex areas of southern Kebbi State, Sokoto Basin, Nigeria

et al. 2019

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Groundwater under Basement Complex areas of southern Kebbi has been characterized in order to determine its suitability for drinking and irrigation use. Water samples were drawn from shallow groundwater (hand-dug shallow wells < 5 m) and deep groundwater (boreholes > 40 m). Physical parameters (i.e., temperature, TDS, pH, and EC), were determined in situ, using handheld meters. Discrete water samples were obtained for determination of chemical parameters. Results from severalsample ANOVA (Kruskal-Wallis test) suggested that heterogeneity in water table appeared to exert significant influence on groundwater chemistry which is characterized by a significant difference in pH, EC TH, Na + , Zn 2+ , Mg 2+ , PO 4 3− , Cl − , HCO 3 − , SO 4 2− , and NO 3 − concentrations. Also, ions including Fe 3+ , Zn 2+ , Mg 2+ , Na + , PO 4 3− , and SO 4 2− are above World Health Organization (2011) and National Standard for Drinking Water Quality (2007) reference guidelines. Most of the groundwater sources are moderately hard. Groundwater classification based on chloride, EC, and TDS revealed water of excellent quality for all types of uses. However, groundwater classification based on nitrate pollution revealed water of poor quality. Rock mineral is the major mechanism controlling water chemistry, as revealed by the Gibbs model. Most of the water sources have positive Scholler index, indicative of overall base exchange reactions in the underlying aquifers. Such condition was well explained by Piper trilinear diagram, which revealed two types of faces: Ca-Mg-HCO 3 and Ca-Mg-SO 4-Cl. The HCA categorized wells into three groups according to their hydrogeochemical physiognomies. Despite the significant difference in ions concentration and chemical indices, groundwater composition is more influenced by rock weathering than anthropogenic inputs. Groundwater evaluation for irrigation use indicates a significant difference in SAR level which is related to poor permeability index in shallow groundwater. Higher values of Kelly's index and magnesium adsorption ratio threatened groundwater suitability for irrigation use in the study area.

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“…Higher temperature also increases taste, odour, colour and corrosion problem due to growth of microorganism (UNICEF, 2008). Increase in temperature also decreases the amount of dissolved oxygen, accelerates nitrification and oxidation of ammonia to nitrates and create oxygen deficient water environment (Ngabirano et al, 2016). Groundwater average temperature in dry season varied from 17.6 to 19.8 o C in which the lowest was measured from wells near to the Kodku Khola whereas the highest one was measured from the wells near to the Dhobi Khola.…”

Section: Temperaturementioning

confidence: 99%

“…change in depth of water, different timing of sample collection and mixing whether cold or warm from the surrounding rocks and soils in the plumes (Ngabirano et al, 2016). Seasonal variation was also occurred in wet season with value ranging from 22.59 to 23.66 o C.…”

Section: Fig 2: Well Depth Variation On Wellsmentioning

confidence: 99%

“…Except in few wells, all other wells have lower EC in wet as compared to dry season. Evaporation rate generally is higher in dry season increasing ions concentration and hence increase EC but in the case of wet season there is dilution of ions due to rainwater infiltration and can increase water volumes resulting in a decrease in EC (Ngabirano et al, 2016). Comparing nine rivers, minimum value was obtained from the downstream of the Kodku Khola (0.09 mg/L) and maximum value was found in the sample fromthe upstream of the Dhobi Khola (6.06 mg/L) in dry season (Fig.…”

Section: Fig 3: Water Level Depth Variation In Dry Season (April 2017)mentioning

confidence: 99%

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Status of shallow wells along major rivers of the Kathmandu Valley, Central Nepal

Bajracharya

Tamrakar

Shrestha³

et al. 2018

Journal of Nepal Geological Society

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Groundwater is one of the important natural resources to which people of the Kathmandu Valley rely on for their daily purpose. The rate of extraction of groundwater from shallow as well as deep aquifers has increased in the river corridor with the increased urbanization towards the major river corridors in the valley. Wells located within 100 m from the rivers of the Kathmandu Valley were focused in the present study. Altogether 237 wells were recorded from the Bagmati, Manahara and the Bishnumati River corridors of the northern Kathmandu basin, and the Dhobi, Hanumante, Godavari, Kodku, Nakhu and the Balkhu Khola corridors of the southern Kathmandu basin. This research was based on field measurements of well dimension (well diameter, well depth and water level depth) and physical parameters (electrical conductivity, dissolve oxygen, pH and temperature) in April and August of year 2017. The lowest water level was measured in the Nakhu Khola and the highest was measured in the Dhobi Khola in dry season. Average EC ranged between 614.2 μS/cm and 1123.9 μS/cm in dry season, and between 613.0 μS/cm and 916.1 μS/cm in wet season. DO also varied from 1.46 mg/L to 2.46 mg/L in dry season and increased to 1.67–2.53 mg/L in wet season. The lower DO and higher EC in the Balkhu Khola corridor indicates the most contaminated wells in the Kathmandu Valley. Average values of pH and temperature increased in wet season compared to dry season. Average high values of EC and low values of DO were recorded within 30 m distance from the rivers, and EC increased and DO decreased as the distance from river channel increased.

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Effects of Seasonal Variations in Physical Parameters on Quality of Gravity Flow Water in Kyanamira Sub-County, Kabale District, Uganda

Cited by 32 publications

References 1 publication

Impact of Leachate from Northern Landfill Site in Bloemfontein on Water and Soil Quality: Implications for Water and Food Security

Impact of Leachate from Northern Landfill Site in Bloemfontein on Water and Soil Quality: Implications for Water and Food Security

Hydrochemical characterization of shallow and deep groundwater in Basement Complex areas of southern Kebbi State, Sokoto Basin, Nigeria

Status of shallow wells along major rivers of the Kathmandu Valley, Central Nepal

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