The Use of Information Technology in Teacher Education

(Mathematics Connection: 2001 2: 30-33

Indigenous knowledge on 'siella' and its role in the farming systems of northern Ghana

An informal survey covering 32 villages in the Northern, Upper East, and Upper West Regions and involving over 250 men, women, and children was conducted to ascertain the indigenous knowledge on 'siella', a soil type licked by domestic animals and wild life. Samples of the soil were collected in several locations and analyzed for available macro- and micro-mineral content. The soil was found to be alkaline. Sodium and potassium content was 10-15 times higher than that in ordinary soils of the zone. Variation in mineral content was high across locations ranging from 0.0 to 6.83 mg/kg for phosphorus, and 64.97 to 7,485.5 mg/kg for calcium. The soils were found to be totally devoid of phosphorus in locations within the Upper West, and micro-mineral concentration was low in all locations. The soil is well known in the northern part of Ghana and is believed to play a vital role in the health and productivity of animals. Cows on 'siella' give birth to heavier calves and milk better. The soil has curative properties and stops diarrhoea. It is also believed to give good health and strength to aged humans. Ghana Jnl.agric. Sci Vol.32(1), 1999: 59-6

Numerical Analysis of Groundwater Flow and Potential in Parts of a Crystalline Aquifer System in Northern Ghana

The groundwater flow system in a crystalline aquifer system in parts of Northern Ghana was simulated and calibrated under steady-state conditions. The objective was to estimate the regional distribution of a key aquifer hydraulic parameter (the hydraulic conductivity) and recharge and also to predict possible effects of different abstraction and groundwater recharge scenarios on the sustainability of groundwater resources in the area. The study finds that the hydraulic conductivity field is quite homogeneous and has values ranging between 1.70 and 2.24 m/day. There is an apparent dominance of regional groundwater flow systems compared to local flow systems. This is probably attributed to the homogeneity in the hydraulic conductivity field and the absence of complex local relief. Estimated groundwater recharge ranges between 0.036 and 0.164 m/yr representing 3.6 and 16.4 % of the local annual precipitation, respectively. Substantial subsurface inflows and outflows have also been simulated through general head boundaries. The simulation suggests that under the current conditions of groundwater recharge estimated at calibration, the system can sustain increment in groundwater abstraction by up to 50 % without any significant changes in the groundwater flow geometry and drawdowns in the hydraulic heads. However, significant drawdowns will be expected in the wake of 100 % increment in groundwater abstraction and a reduction in recharge by 10 % during the 20-year period. Under such conditions, the flow geometry will significantly be altered and a reversal in groundwater flow will be observed

Modeling current and future groundwater demands in the White Volta River Basin of Ghana under climate change and socio-economic scenarios

Study region: White Volta River Basin, Ghana. Study focus: Groundwater sustainability is becoming a major concern in the face of population growth, land use land cover (LULC), and climate changes. The Water Evaluation and Planning (WEAP) model is used in this study to analyse the current and future groundwater demands for the period of 2015–2070. Two Representative Concentration Pathways (RCP4.5 and RCP 8.5) scenarios from statistically downscaled fifteen CMIP5 models were combined three Shared Socioeconomic Pathways (SSPs 2,3 and 5) scenarios in the nine sub-catchments of the White Volta River Basin. New hydrological insights for the study region: The WEAP model was calibrated (2006–2012) and validated (2013–2020) using streamflow data from six gauges in five sub-catchments. The findings show that climatic change and socio-economic development will result in a disparity between groundwater supply and demand in sub-catchments with greater socioeconomic growth, especially those with higher population density and arable agricultural land. Among the basin’s nine sub-catchments, four will experience water scarcity under all future scenarios. While the groundwater flow and recharge data may be evaluated using several physical hydrological models, the calibration and validation results suggest that the current modeling approach is capable of reliably predicting future groundwater demand with associated uncertainties. The study establishes a link between climate change, socio-economic growth, and groundwater availability in the White Volta River Basin

Integrated modeling of hydrological processes and groundwater recharge based on land use land cover, and climate changes: a systematic review

Groundwater is the main available freshwater resource and therefore its use, management and sustainability are closely related to the Sustainable Development Goals (SDGs). However, Land Use Land Cover (LULC) and climate change are among the factors impacting groundwater recharge. The use of land-use and climate data in conjunction with hydrological models are valuable tools for assessing these impacts on river basins. This systematic review aimed at assessing the integrated modeling approach for evaluating hydrological processes and groundwater recharge based on LULC and climate change. The analysis is based on 200 peer-reviewed articles indexed in Scopus, and the Web of Science. Continuous research and the development of context-specific groundwater recharge models are essential to increase the long-term viability of water resources in any basin. The long-term impacts of natural and anthropogenic drivers on river basin interactions require integrating knowledge and modeling capabilities across biophysical responses, environmental problems, policies, economics, social, and data