Your search found 9 records
1 Hasna, M. K. 1998. NGO gender capacity in urban agriculture: Case studies from Harare (Zimbabwe), Kampala (Uganda) and Accra (Ghana) Ottawa, Canada: IDRC. 54p.
(Location: IWMI-HQ Call no: P 4938 Record No: H023154)
2 Redwood, M. (Ed.) 2009. Agriculture in urban planning: generating livelihoods and food security. London, UK: Earthscan. 166p.
(Location: IWMI HQ Call no: P 8021 Record No: H041927)
(4.04 MB)
3 Hovorka, A.; Zeeuw, H.; Njenga, M. (Eds.) 2009. Women feeding cities: mainstreaming gender in urban agriculture and food security. Warwickshire, UK: Practical Action Publishing. 390p.
(Location: IWMI HQ Call no: 338 G000 HOR Record No: H042304)
(0.73 MB)
4 Hovorka, A.; Zeeuw, H.; Njenga, M. (Eds.) 2009. Women feeding cities: mainstreaming gender in urban agriculture and food security. Leusden, Netherlands: Network of Resource Centres on Urban Agriculture and Food Security (RUAF Foundation) 1 CD.
(Location: IWMI HQ Call no: CD Col. Record No: H035923)
(Location: IWMI HQ Call no: e-copy only Record No: H046874)
(9.22 MB)
By increased rural-urban migration in many African countries, the assessment of changes in catchment hydrologic responses due to urbanization is critical for water resource planning and management. This paper assesses hydrological impacts of urbanization on two medium-sized Zimbabwean catchments (Mukuvisi and Marimba) for which changes in land cover by urbanization were determined through Landsat Thematic Mapper (TM) images for the years 1986, 1994 and 2008. Impact assessments were done through hydrological modeling by a topographically driven rainfall-runoff model (TOPMODEL). A satellite remote sensing based ASTER 30 metre Digital Elevation Model (DEM) was used to compute the Topographic Index distribution, which is a key input to the model. Results of land cover classification indicated that urban areas increased by more than 600 % in the Mukuvisi catchment and by more than 200 % in the Marimba catchment between 1986 and 2008. Woodlands decreased by more than 40% with a greater decrease in Marimba than Mukuvisi catchment. Simulations using TOPMODEL in Marimba and Mukuvisi catchments indicated streamflow increases of 84.8 % and 73.6 %, respectively, from 1980 to 2010. These increases coincided with decreases in woodlands and increases in urban areas for the same period. The use of satellite remote sensing data to observe urbanization trends in semi-arid catchments and to represent catchment land surface characteristics proved to be effective for rainfall-runoff modeling. Findings of this study are of relevance for many African cities, which are experiencing rapid urbanization but often lack planning and design.
(Location: IWMI HQ Call no: IWMI Record No: H047293)
(0.45 MB)
7 Hellum, A.; Sithole, E.; Derman, B.; Mangwanya, L.; Rutsate, E. 2015. Zimbabwe’s urban water crisis and its implications for different women: emerging norms and practices in Harare’s High Density suburbs. In Hellum, A.; Kameri-Mbote, P.; van Koppen, Barbara. (Eds.) Water is life: women’s human rights in national and local water governance in southern and eastern Africa. Harare, Zimbabwe: Weaver Press. pp.347-383.
(Location: IWMI HQ Call no: IWMI Record No: H047305)
(Location: IWMI HQ Call no: e-copy only Record No: H048901)
(0.54 MB)
This study assessed the effects of irrigation with different dilutions of sludge water, a wastewater from an aluminium-based drinking water treatment plant in Harare, Zimbabwe, on yield and elemental uptake of Brachiaria decumbens (brachiaria) and Medicago sativa (lucerne), and on properties of clay and sandy loam soils. The sludge water was characterised and diluted to 25%, 50% and 75% of the original concentration with tap water. The dilutions, together with 100% sludge water and tap water, were used to irrigate brachiaria and lucerne in a pot experiment. Shoot plant material was harvested and analysed for biomass, total nitrogen (N), phosphorus (P), Ca, Mg, K, aluminium (Al), boron (B), iron (Fe), manganese (Mn), copper (Cu) and zinc (Zn). Soils were analysed for particle size distribution, organic carbon, (before use only), pH, exchangeable acidity and extractable P, Fe, Mn, Cu and Zn before use and after harvesting. Increasing sludge water concentration increased yield and uptake of nutrients of both crops, without accumulating pollutants in the tissues to phytotoxic levels in both soils for brachiaria and in the sandy loam soil for lucerne. Tissue Al and Fe were not affected by sludge water concentration but were higher than maximum tolerable levels. An increase in sludge water concentration increased soil pH in the sandy loam soil more than in the clay under both crops. Undiluted sludge water may be used to irrigate brachiaria, while dilution to 75% of its original concentration is required for lucerne, at least in the short term, without negatively affecting plant growth.
(Location: IWMI HQ Call no: IWMI Record No: H051156)
(0.76 MB)
Groundwater for Sustainable Livelihoods and Equitable Growth explores how groundwater, often invisibly, improves peoples’ lives and livelihoods. This unique collection of 19 studies captures experiences of groundwater making a difference in 16 countries in Africa, South America and Asia. Such studies are rarely documented and this book provides a rich new collection of interdisciplinary analysis. The book is published in colour and includes many original diagrams and photographs.
Spring water, wells or boreholes have provided safe drinking water and reliable water for irrigation or industry for millennia. However, the hidden nature of groundwater often means that it’s important role both historically and in the present is overlooked. This collection helps fill this knowledge gap, providing a diverse set of new studies encompassing different perspectives and geographies. Different interdisciplinary methodologies are described that can help understand linkages between groundwater, livelihoods and growth, and how these links can be threatened by over-use, contamination, and ignorance.
Written for a worldwide audience of practitioners, academics and students with backgrounds in geology, engineering or environmental sciences; Groundwater for Sustainable Livelihoods and Equitable Growth is essential reading for those involved in groundwater and international development.
Powered by DB/Text
WebPublisher, from