Your search found 7 records
1 Barry, Boubacar; Kortatsi, B.; Forkuor, G.; Gumma, M. K.; Namara, Regassa E.; Rebelo, Lisa-Maria; van den Berg, J.; Laube, W. 2010. Shallow groundwater in the Atankwidi Catchment of the White Volta Basin: current status and future sustainability. Colombo, Sri Lanka: International Water Management Institute (IWMI). 23p. (IWMI Research Report 139) [doi: https://doi.org/10.5337/2010.234]
Groundwater irrigation ; Aquifers ; River basins ; Catchment areas ; Irrigation practices ; Remote sensing ; Mapping / Ghana / Atankwidi Catchment / White Volta River Basin
(Location: IWMI HQ Call no: IWMI 333.9104 G200 BAR Record No: H043521)
(1.39 MB)
The Atankwidi Catchment, which lies in the White Volta Basin in West Africa, is intensively cultivated by locals for economic gains. During dry seasons, farmers irrigate their crops, chiefly tomatoes, using shallow groundwater harvested from shallow ponds they dig using simple tools like an axe, hoe, bucket and bowls. Recent expansion in cultivated areas has brought to the fore the need to estimate the volume of shallow groundwater stored in the catchment’s underlying aquifer and to what extent it can sustain the incremental growth in irrigated areas.
2 Forkuor, G.; McCartney, Matthew; Amisigo, B. 2011. Evaluating the implications of future water resource development under current and projected climate in the Volta basin. Paper presented at the 3rd Ghana Water Forum, Accra, Ghana, 5-7 September 2011. 7p.
Water resources development ; Climate change ; River basins ; Water power ; Irrigation schemes / Burkina Faso / Ghana / Volta Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044351)
http://ghanawaterforum.files.wordpress.com/2011/09/forkuor-g-final.doc
https://vlibrary.iwmi.org/pdf/H044351.pdf
https://vlibrary.iwmi.org/pdf/H044351.pdf
(1.45 MB)
This study combines climate change (CC), hydrological and water resource evaluation models to assess the impact of one downscaled mid-range CC scenario (A1B) on the performance of existing and planned irrigation and hydropower schemes in the Volta basin. The models were run (1983-2100) to simulate the CC scenario in combination with three development scenarios, each reflecting different levels of water resource development in the basin. Results indicate a general trend of declining rainfall and increasing potential evapotranspiration in the basin. This trend was found to have caused: i) a significant reduction in flows at key stream gauge locations; ii) an increase in average basin-wide per hectare irrigation requirement and iii) a significant reduction in the percentage of the potential hydropower that could be generated in the basin. This has the tendency to undermine the economic development of the riparian countries unless due consideration is given to these impacts and suitable adaptation measures introduced.
3 Danso, G.; Drechsel, Pay; Obuobie, E.; Forkuor, G.; Kranjac-Berisavljevic, G. 2014. Urban vegetable farming sites, crops and cropping practices. In Drechsel, Pay; Keraita, B. (Eds.) Irrigated urban vegetable production in Ghana: characteristics, benefits and risk mitigation. Colombo, Sri Lanka: International Water Management Institute (IWMI). pp.7-27.
Vegetables ; Crops ; Irrigated farming ; Urban agriculture ; Farmland ; Farmers ; Maize / Ghana / Kumasi / Accra / Tamale / Cape Coast / Sekondi Takorad / Techiman
(Location: IWMI HQ Call no: IWMI Record No: H046599)
(2.59 MB)
The chapter describes the major sites of open-space vegetable farming in Ghana’s main cities. It also presents the principal cropping systems and characteristics of urban farmers involved in irrigated vegetable production.
4 Sood, Aditya; Seidou, O.; Forkuor, G.; Annor, F. O.; McCartney, Matthew. 2016. Simulating current and future Volta Basin water development scenarios. In Williams, Timothy O.; Mul, Marloes L.; Biney, C. A.; Smakhtin, Vladimir (Eds.). The Volta River Basin: water for food, economic growth and environment. Oxon, UK: Routledge - Earthscan. pp.245-273.
River basin development ; Water resources development ; Water yield ; Water storage ; Water allocation ; Reservoir storage ; Hydrology ; Models ; Climate change ; Calibration ; Soil moisture / West Africa / Benin / Burkina Faso / Ivory Coast / Ghana / Mali / Togo / Volta River Basin
(Location: IWMI HQ Call no: IWMI Record No: H047736)
5 Cecchi, P.; Forkuor, G.; Cofie, Olufunke; Lalanne, F.; Poussin, J.-C.; Jamin, J.-Y. 2020. Small reservoirs, landscape changes and water quality in Sub-Saharan West Africa. Water, 12(7):1967. [doi: https://doi.org/10.3390/w12071967]
Water reservoirs ; Water quality ; Land use change ; Land cover change ; Anthropogenic factors ; Watersheds ; Landsat ; Satellite imagery ; Farmland ; Vegetation ; Lakes ; Dry season ; Population density ; Indicators / Africa South of Sahara / West Africa / Burkina Faso
(Location: IWMI HQ Call no: e-copy only Record No: H049806)
(2.94 MB) (2.94 MB)
Small reservoirs (SRs) are essential water storage infrastructures for rural populations of Sub-Saharan West Africa. In recent years, rapid population increase has resulted in unprecedented land use and land cover (LULC) changes. Our study documents the impacts of such changes on the water quality of SRs in Burkina Faso. Multi-temporal Landsat images were analyzed to determine LULC evolutions at various scales between 2002 and 2014. Population densities were calculated from downloaded 2014 population data. In situ water samples collected in 2004/5 and 2014 from selected SRs were analyzed for Suspended Particulate Matter (SPM) loads, an integrative proxy for water quality. The expansion of crop and artificial areas at the expense of natural covers controlled LULC changes over the period. We found a very significant correlation between SPM loads and population densities calculated at a watershed scale. A general increase between the two sampling dates in the inorganic component of SPM loads, concomitant with a clear expansion of cropland areas at a local scale, was evidenced. Results of the study suggest that two complementary but independent indicators (i.e., LULC changes within 5-km buffer areas around SRs and demographic changes at watershed scale), relevantly reflected the nature and intensity of overall pressures exerted by humans on their environment, and locally on aquatic ecosystems. Recommendations related to the re-greening of peripheral areas around SRs in order to protect water bodies are suggested.
6 Ouattara, B.; Forkuor, G.; Zoungrana, B. J. B.; Dimobe, K.; Danumah, J.; Saley, B.; Tondoh, J. E. 2020. Crops monitoring and yield estimation using sentinel products in semi-arid smallholder irrigation schemes. International Journal of Remote Sensing, 41(17):6527-6549. [doi: https://doi.org/10.1080/01431161.2020.1739355]
Crop yield ; Monitoring ; Forecasting ; Estimation ; Agricultural productivity ; Irrigation schemes ; Semiarid zones ; Smallholders ; Land use ; Land cover ; Satellite imagery ; Vegetation index ; Tomatoes ; Onions ; Beans / West Africa / Burkina Faso / Lake Bam
(Location: IWMI HQ Call no: e-copy only Record No: H049984)
(3.14 MB)
The use of earth observation data for crop mapping and monitoring in West Africa has concentrated on rainfed systems due to its pre-dominance in the sub-region. However, irrigated systems, though of limited extent, provide critical livelihood support to many. Accurate statistics on irrigated crops are, thus, needed for effective management and decision making. This study explored the use of Sentinel 1 (S-1) and Sentinel 2 (S-2) data to map the extent and yield of irrigated crops in an informal irrigation scheme in Burkina Faso. Random Forest classification and regression were used together with an extensive field data comprising 842 polygons. Four irrigated crops (tomoto, onion, green bean and other) were classified while the yield of tomatoes was modelled through regression analysis. Apart from spectral bands, derivatives (e.g. biophysical parameters and vegetation indices) from S-2 were used. Different data configuration of S-1, S-2 and their derivatives were tested to ascertain optimal temporal windows for accurate irrigated crop mapping and yield estimation. Results of the crop classification revealed a greater overall accuracy (76.3%) for S-2 compared to S-1 (69.4%), with S-2 biophysical parameters (especially the fraction of absorbed photosynthetic active radiation i.e fAPAR) being prominent. For yield prediction, however, S-1 VV polarization came up as the most prominent predictor in the regression analysis (R2adj= 0.63), while the addition of S-2 fAPAR marginally improved the fit (R2adj= 0.64). Tomato yield in the study area was found to range from 1 to 16 kg m-2, although about 83% of the area have yields of less than 10 kg m-2. Our study revealed that early season images (acquired in December) perform better in classifying irrigated crop compared to mid or late season. On the other hand, the use of early to mid-season (December to February) images for yield modelling produced reasonable prediction accuracy. This indicates the possibility of using S-1 and S-2 data to predict crop yield prior to harvest season for efficient planning and food security attainment.
7 Akpoti, Komlavi; Dembele, Moctar; Forkuor, G.; Obuobie, E.; Mabhaudhi, Tafadzwanashe; Cofie, Olufunke. 2023. Integrating GIS and remote sensing for land use/land cover mapping and groundwater potential assessment for climate-smart cocoa irrigation in Ghana. Scientific Reports, 13:16025. [doi: https://doi.org/10.1038/s41598-023-43286-5]
Climate-smart agriculture ; Cocoa ; Groundwater irrigation ; Land-use mapping ; Land cover mapping ; Groundwater potential ; Groundwater assessment ; Geographical information systems ; Remote sensing ; Surface water ; Water availability ; Climate change / Ghana
(Location: IWMI HQ Call no: e-copy only Record No: H052236)
(12.00 MB) (12.0 MB)
Although Ghana is a leading global cocoa producer, its production and yield have experienced declines in recent years due to various factors, including long-term climate change such as increasing temperatures and changing rainfall patterns, as well as drought events. With the increasing exposure of cocoa-producing regions to extreme weather events, the vulnerability of cocoa production is also expected to rise. Supplemental irrigation for cocoa farmers has emerged as a viable adaptation strategy to ensure a consistent water supply and enhance yield. However, understanding the potential for surface and groundwater irrigation in the cocoa-growing belt remains limited. Consequently, this study aims to provide decision-support maps for surface and groundwater irrigation potential to aid planning and investment in climate-smart cocoa irrigation. Utilizing state-of-the-art geospatial and remote sensing tools, data, and methods, alongside in-situ groundwater data, we assess the irrigation potential within Ghana's cocoa-growing areas. Our analysis identified a total area of 22,126 km2 for cocoa plantations and 125.2 km2 for surface water bodies within the cocoa-growing regions. The multi-criteria analysis (MCA) revealed that approximately 80% of the study area exhibits moderate to very high groundwater availability potential. Comparing the MCA output with existing borehole locations demonstrated a reasonable correlation, with about 80% of existing boreholes located in areas with moderate to very high potential. Boreholes in very high potential areas had the highest mean yield of 90.7 l/min, while those in low groundwater availability potential areas registered the lowest mean yield of 58.2 l/min. Our study offers a comprehensive evaluation of water storage components and their implications for cocoa irrigation in Ghana. While groundwater availability shows a generally positive trend, soil moisture and surface water have been declining, particularly in the last decade. These findings underline the need for climate-smart cocoa irrigation strategies that make use of abundant groundwater resources during deficit periods. A balanced conjunctive use of surface and groundwater resources could thus serve as a sustainable solution for maintaining cocoa production in the face of climate change.
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