Your search found 37 records
1 Matondo, J. I.; Mortensen, P. 1998. Water resource assessment for the Zambezi River Basin. Water International, 23(4):256-262.
River basins ; Hydrology ; Water balance ; Assessment ; Water resource management ; Planning ; International cooperation / Africa / Angola / Namibia / Zambia / Botswana / Zimbabwe / Malawi / Tanzania / Mozambique / Zambezi River Basin
(Location: IWMI-HQ Call no: PER Record No: H024016)
(0.28 MB)
2 Mpande, R. L.; Tawanda, M. 1998. Case study: Southern Africa - Population dynamics and the emerging competition for water use in the Zambezi River Basin. In de Sherbinin, A.; Dompka, V.; Bromley, L. (Eds.), Water and population dynamics: Case studies and policy implications. Report of a workshop, October 1996, Montreal, Canada. Washington, DC, USA: IUCN; PRB; USAID; AAAS. pp.215-229.
Water demand ; Population dynamics ; Water use ; River basins ; Hydroelectric schemes ; Water pollution ; Water resource management ; Policy / Southern Africa / Zambezi River Basin
(Location: IWMI-HQ Call no: 333.91 G000 DES Record No: H025382)
3 Stockholm International Water Institute (SIWI) 2000. Water and development in the developing countries. Stockholm, Sweden: SIWI. 112p. (SIWI report 10)
Water resource management ; Developing countries ; Water use ; Water scarcity ; Water availability ; Environmental effects ; Water policy ; Water allocation ; Water supply ; River basins ; Conflict ; Organizations ; Legal aspects ; Watercourses ; Water rates ; Pricing ; International cooperation ; Water policy ; Water quality ; Wastewater ; Pollution control / Africa / South East Asia / India / Europe / Middle East / Sahel / Congo River Basin / Zambezi River Basin / Orange River Basin / Okavango River Basin / Limpopo River Basin / Ganges / Brahmaputra / Meghna / Mekong River Basin / Aral Sea / Euphrates / Tigris / Jordan River Basin
(Location: IWMI-HQ Call no: 333.91 G000 STO Record No: H028147)
4 Chenje, M. 2003. Hydropolitics and the quest of the Zambezi River-Basin organization. In Nakayama, M. (Ed.), International waters in Southern Africa. Tokyo, Japan: UNU. pp.189-208.
River basins ; Hydrology ; Climate ; Population growth ; Poverty ; Water pollution ; Legal aspects ; History ; Colonialism ; International cooperation / Southern Africa / Zambezi River Basin
(Location: IWMI-HQ Call no: 333.91 G154 NAK Record No: H031968)
(1.22 MB)
5 Chandiwana, S. K.; Snellen, W. B. 1994. Incorporating a human health component into the integrated development and management of the Zambezi Basin: report of a PEEM mission to Zimbabwe, Zambia and Mozambique. Geneva, Switzerland: WHO. PEEM Secretariat. 82p. (PEEM River Basin Series 2)
River basin development ; River basin management ; Hydrology ; Irrigation water ; Wetlands ; Environmental effects ; Public health ; Diseases ; Institutions ; Organizations / Zimbabwe / Zambia / Mozambique / Zambezi River Basin
(Location: IWMI HQ Call no: 333.9162 G100 CHA Record No: H040377)
6 Sneddon, C.; Fox , C. 2008. River-basin politics and the rise of ecological democracy in Southeast Asia and Southern Africa. Water Alternatives, 1(1): 66-88.
River basin development ; Water governance ; Ecosystems ; Political aspects / Southeast Asia / Southern Africa / Mekong River Basin / Zambezi River Basin
(Location: IWMI HQ Record No: H041273)
7 Mapedza, Everisto; Haileselassie, A.; Hagos, Fitsum; McCartney, Matthew; Awulachew, Seleshi Bekele; Tafesse, T. 2008. Transboundary water governance institutional architecture: reflections from Ethiopia and Sudan. In Humphreys, E.; Bayot, R. S.; van Brakel, M.; Gichuki, F.; Svendsen, M.; Wester, P.; Huber-Lee, A.; Cook, S. Douthwaite, B.; Hoanh, Chu Thai; Johnson, N.; Nguyen-Khoa, Sophie; Vidal, A.; MacIntyre, I.; MacIntyre, R. (Eds.). Fighting poverty through sustainable water use: proceedings of the CGIAR Challenge Program on Water and Food, 2nd International Forum on Water and Food, Addis Ababa, Ethiopia, 10-14 November 2008. Vol.1. Keynotes; Cross-cutting topics. Colombo, Sri Lanka: CGIAR Challenge Program on Water and Food. pp.77-80.
Water governance ; Water resource management ; International agreements ; River basins ; International cooperation ; International relations / Ethiopia / Sudan / Blue Nile River Basin / Limpopo River Basin / Zambezi River Basin / Volta River Basin
(Location: IWMI HQ Call no: IWMI 333.91 G000 HUM Record No: H041780)
http://cgspace.cgiar.org/bitstream/handle/10568/3706/IFWF2_proceedings_Volume%20I.pdf?sequence=1
https://vlibrary.iwmi.org/pdf/H041780.pdf
https://vlibrary.iwmi.org/pdf/H041780.pdf
(7.964MB)
8 Institute of Water and Sanitation Development (IWSD). 2010. 11th WaterNet/WARFSA/GWP-SA Symposium, Victoria Falls, Zimbabwe, 27-29 October 2010. IWRM for national and regional integration: where science, policy and practice meet: hydrology. Harare, Zimbabwe: Institute of Water and Sanitation Development (IWSD). 630p.
Hydrogeology ; Groundwater recharge ; Erosion ; Sloping land ; Evaporation ; Remote sensing ; Neural networks ; River basins ; Lakes ; Climate change ; Simulation models ; Stream flow ; Forecasting ; GIS ; Rain ; Hydrometeorology ; Water balance ; Aquifers ; Rainfall-runoff relationships ; Evapotranspiration ; Irrigated farming ; Sugarcane ; Dams ; Reservoirs ; Floodplains / Africa / Mozambique / South Africa / Zimbabwe / Zambia / Tanzania / Kenya / Swaziland / Africa South of Sahara / Nhandugue River / Lake Mutirikwi / Kalahari System / Barotse Sub-Basin / Zambezi River Basin / Thukela River Basin / Condo Dam catchment / Barotse River Basin / Lake Victoria / Limpopo River Basin / Vondo Dam / Dorowa Flood Plain / Wami River Basin / Mkindo Catchment / Bulawayo Aquifer / Kabompo River Basin / Mara River Basin / Luvuvhu River Catchment / Sand River / Middle Letaba Dam / Congo River Basin / Kafue River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H043406)
http://www.waternetonline.ihe.nl/11thSymposium/HydrologyFullPapers2010.pdf
https://vlibrary.iwmi.org/pdf/H043406.pdf
https://vlibrary.iwmi.org/pdf/H043406.pdf
(20.14 MB) (20.13 MB)
9 Institute of Water and Sanitation Development (IWSD). 2010. 11th WaterNet/WARFSA/GWP-SA Symposium, Victoria Falls, Zimbabwe, 27-29 October 2010. IWRM for national and regional integration: where science, policy and practice meet: water and land. Harare, Zimbabwe: Institute of Water and Sanitation Development (IWSD). 561p.
River basins ; Water productivity ; Remote sensing ; Evapotranspiration ; Climate change ; Adaptation ; Global warming ; Farmers ; Wetlands ; Rainfed farming ; Water harvesting ; Dams ; Reservoirs ; Wastewater irrigation ; Irrigated farming ; Irrigation schemes ; Irrigation programs ; Crop production ; Maize ; Indigenous knowledge ; Weather forecasting ; Indicators ; Wetlands ; Ecosystems ; Economic evaluation ; Households ; Income ; Soil moisture ; Monitoring ; Models ; Conservation tillage ; Sedimentation ; Runoff ; Erosion ; Livestock ; Drought ; Decision making / Africa / Africa South of Sahara / Malawi / South Africa / Uganda / Swaziland / Zimbabwe / Botswana / Tanzania / Southern Africa / Limpopo River Basin / Shire Valley / Roswa Dam / Enhlanzeni District / Salima District / Lifuwu Irrigation Scheme / Mulanje District / Nessa Village / Karonga District / Muyeleka Village / Lake Malawi / Kampala District / Wakiso District / Lubigi Wetland / Lower Usuthu Smallholder Irrigation Project / Okavango River Basin / Victoria Falls / Zambezi River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H043407)
http://www.waternetonline.ihe.nl/11thSymposium/WaterandLandFullPapers2010.pdf
https://vlibrary.iwmi.org/pdf/H043407.pdf
https://vlibrary.iwmi.org/pdf/H043407.pdf
(15.02 MB) (20.13 MB)
10 UNEP. 2005. Facing the facts: assessing the vulnerability of Africa's water resources to environmental change. Nairobi, Kenya: UNEP. 63p. (UNEP/DEWA/RS.05-2)
River basin management ; Environmental effects ; Social aspects ; Aquifers ; Water scarcity ; Water availability ; Climate change / Africa / Zambezi River Basin / Orange River Basin / Lake Victoria Basin / Rufiji River Basin / Senegal River Basin / Niger River Basin / Nile River Basin / Numbian Sandstone Aquifer System
(Location: IWMI HQ Call no: 333.91 G100 UNE Record No: H043905)
(0.11 MB)
11 McCartney, Matthew; Cai, Xueliang; Smakhtin, Vladimir; Nhamo, Luxon. 2011. Application of a quantitative method to evaluate flow regulating functions of ecosystems in the Zambezi Basin. Project report submitted to UNEP under the SADC project "Dam Synchronization and Flood Releases in the Zambezi River Basin". Addis Ababa, Ethiopia: International Water Management Institute (IWMI). 46p.
River basins ; Ecosystems ; Flow ; Regulation ; forests ; Floodplains ; Wetlands ; Swamps ; Hydrology ; Time series analysis ; Maps ; Catchment areas / Southern Africa / Angola / Botswana / Malawi / Mozambique / Namibia / Tanzania / Zambia / Zimbabwe / Zambezi River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044606)
(5.40 MB)
By affecting transpiration and evaporation and influencing how water is routed and stored in a basin, forests, wetlands and floodplains play a crucial role in the hydrological cycle. Although they are widely attributed a major role in regulating flows (i.e. both attenuating floods and maintaining flow during dry periods) these services are seldom, if ever, explicitly factored into the planning and management of water resources. One reason for the failure to include them is lack of understanding of the hydrological functions occurring, their dynamic nature, and the interaction of those functions with the catchments in which the ecosystems are located. Very often it is unclear exactly which functions are performed and how those functions change over time (i.e. between seasons and between years). Furthermore, both the lack of quantitative information and a recognized method to incorporate them into decision-making processes, make it very difficult to integrate natural hydrological functions into the planning and management of water resources. This report describes a pragmatic approach for quantifying the flow regulating functions of floodplains, headwater wetlands and forests in the Zambezi Basin. The method utilizes observed stream flow records and flow duration curves to derive a simulated time series of flow in the absence of the ecosystem. This can then be compared with an observed time series to evaluate the impact of the ecosystem on the flow regime. The method, which is easy to utilize and could easily be incorporated into a decision support system for the synchronization of dam operation, has been applied and results obtained for 16 locations in the basin. Results indicate that the different ecosystems affect flows in different and complex ways. Broadly: i) floodplains decrease flood flows and increase low flows; ii) headwater wetlands increase flood flows and decrease low flows; iii) miombo forest, when covering more than 70% of the catchment, decreases flood flows and decreases low flows. However, in all cases there are examples which produce contrary results and simple relationships between the extent of an ecosystem type within a catchment and the impact on the flow regime were not found.
12 McCartney, Matthew; Cai, Xueliang; Smakhtin, Vladimir. 2011. Review of ecosystem flow regulating functions in the Zambezi Basin. Project report submitted to UNEP under the SADC project "Dam Synchronization and Flood Releases in the Zambezi River Basin". Addis Ababa, Ethiopia: International Water Management Institute (IWMI). 26p.
Ecosystems ; Wetlands ; Flow control ; Hydrology ; River basins ; Dams ; Water power ; Floodplains ; Forests ; Land use ; Runoff ; Analytical methods / Southern African / Angola / Botswana / Malawi / Mozambique / Namibia / Tanzania / Zambia / Zimbabwe / Zambezi River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044667)
(2.29 MB)
Water infrastructure is a cornerstone of economic development. In the Zambezi River Basin huge investments have been made in dams for hydropower, irrigation, water supply and flood control. Ecosystem functions are central to outcomes from dams. Not only does the performance of dams depend on ecosystem functions but dams also modify them (e.g. by changing natural flow regimes). It is by changing ecosystem functions (and hence ecosystem services) that dams often have their greatest impact on the livelihoods of poor people. However, investment decisions and, subsequently the management of dams, rarely consider ecosystem functions. Trade-offs and synergies between dams and ecosystem functions often go unrecognized and, as a result, the benefits accruing from dams are typically sub-optimal. One reason for the failure to consider ecosystem functions is lack of understanding of them and how they translate into services for people. It is not clear which ecosystems perform which functions or how they will be affected by a dam. For example, whilst it is widely understood that in relation to hydrology, different ecosystems provide different regulating functions, there is little quantitative information on the extent to which they do this or the dynamic nature of such functions. If ecosystem functions, and specifically flow regulating functions, are to be considered in dam planning and management more information and a method to incorporate them into decision-making processes is required. Based on a literature review this report summarizes i) evidence of the flow regulating functions of the major ecosystems in the Zambezi basin and ii) methods for evaluating ecosystem flow regulating functions. Finally, it proposes an approach for developing a method that could contribute to a decision support system for the synchronization of dam operation in the basin.
13 World Bank. 2010. The Zambezi River Basin: a multi-sector investment opportunities analysis. Vol. 1 - Summary Report. Washington, DC, USA: World Bank. 37p.
River basin development ; Water power ; Investment ; Reservoirs ; Economic analysis ; Precipitation ; Population ; Models ; Irrigated sites / Africa / Zambezi River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044943)
http://www-wds.worldbank.org/external/default/WDSContentServer/WDSP/IB/2010/12/14/000333038_20101214042330/Rendered/PDF/584040V10WP0Wh1LIC100Summary0Report.pdf?
https://vlibrary.iwmi.org/pdf/H044943.pdf
https://vlibrary.iwmi.org/pdf/H044943.pdf
(3.50 MB) (3.6MB)
The Zambezi River Basin (ZRB) is one of the most diverse and valuable natural resources in Africa. Its waters are critical to sustainable economic growth and poverty reduction in the region. In addition to meeting the basic needs of some 30 million people and sustaining a rich and diverse natural environment, the river plays a central role in the economies of the eight riparian countries—Angola, Botswana, Malawi, Mozambique, Namibia, Tanzania, Zambia, and Zimbabwe. It provides important environmental goods and services to the region and is essential to regional food security and hydropower production. Because the Zambezi River Basin is characterized by extreme climatic variability, the River and its tributaries are subject to a cycle of floods and droughts that have devastating effects on the people and economies of the region, especially the poorest members of the population.
14 World Bank. 2010. The Zambezi River Basin: a multi-sector investment opportunities analysis. Vol. 2 - Basin development scenarios. Washington, DC, USA: World Bank. 86p.
River basin development ; Investment ; Population ; Reservoirs ; Models ; Economic analysis ; Water power ; Energy generation ; Water supply ; Irrigation programs ; Irrigation development ; Irrigation sites ; Climate change ; Precipitation ; Flooding ; Sensitivity analysis ; Crops ; Wet season ; Dry season ; Flow discharge / Africa / Zambezi River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044944)
http://www-wds.worldbank.org/external/default/WDSContentServer/WDSP/IB/2010/12/14/000333038_20101214043612/Rendered/PDF/584040V20WP0Wh1evelopment0Scenarios.pdf?
https://vlibrary.iwmi.org/pdf/H044944.pdf
https://vlibrary.iwmi.org/pdf/H044944.pdf
(7.71 MB) (7.7MB)
The Zambezi River Basin (ZRB) is one of the most diverse and valuable natural resources in Africa. Its waters are critical to sustainable economic growth and poverty reduction in the region. In addition to meeting the basic needs of some 30 million people and sustaining a rich and diverse natural environment, the river plays a central role in the economies of the eight riparian countries—Angola, Botswana, Malawi, Mozambique, Namibia, Tanzania, Zambia, and Zimbabwe. It provides important environmental goods and services to the region and is essential to regional food security and hydropower production. Because the Zambezi River Basin is characterized by extreme climatic variability, the River and its tributaries are subject to a cycle of floods and droughts that have devastating effects on the people and economies of the region, especially the poorest members of the population.
15 World Bank. 2010. The Zambezi River Basin: a multi-sector investment opportunities analysis. Vol. 3 - State of the basin. Washington, DC, USA: World Bank. 182p.
River basin development ; Hydrology ; Investment ; Population ; Economic analysis ; Socioeconomic environment ; Climate change ; Rain ; Runoff ; Flooding ; Drought ; Poverty ; Income ; Living conditions ; Energy generation ; Water power ; Irrigated farming ; Irrigation development ; Agricultural production ; Wetlands ; Floodplains ; Fisheries ; Tourism ; Water supply ; Domestic water ; Water use ; Water quality ; Water pollution ; International waters ; International cooperation ; Institutions ; Information management / Africa / Angola / Botswana / Malawi / Mozambique / Namibia / Tanzania / Zambia / Zimbabwe / Zambezi River Basin / Barotse Floodplain / Eastern Chobe-Caprivi Wetlands / Kafue Wetlands / Lower Shire Wetlands / Luangwa Wetlands / Zambezi Delta
(Location: IWMI HQ Call no: e-copy only Record No: H044946)
http://www-wds.worldbank.org/external/default/WDSContentServer/WDSP/IB/2010/12/14/000333038_20101214044509/Rendered/PDF/584040V30WP0Wh110State0of0the0Basin.pdf?
https://vlibrary.iwmi.org/pdf/H044946.pdf
https://vlibrary.iwmi.org/pdf/H044946.pdf
(8.47 MB) (8.85MB)
The Zambezi River Basin (ZRB) is one of the most diverse and valuable natural resources in Africa. Its waters are critical to sustainable economic growth and poverty reduction in the region. In addition to meeting the basic needs of some 30 million people and sustaining a rich and diverse natural environment, the river plays a central role in the economies of the eight riparian countries—Angola, Botswana, Malawi, Mozambique, Namibia, Tanzania, Zambia, and Zimbabwe. It provides important environmental goods and services to the region and is essential to regional food security and hydropower production. Because the Zambezi River Basin is characterized by extreme climatic variability, the River and its tributaries are subject to a cycle of floods and droughts that have devastating effects on the people and economies of the region, especially the poorest members of the population.
16 World Bank. 2010. The Zambezi River Basin: a multi-sector investment opportunities analysis. Vol. 4 - Modeling, analysis and input data. Washington, DC, USA: World Bank. 139p.
River basin development ; Investment ; Models ; Economic analysis ; Assessment ; Population ; Reservoirs ; Environmental flows ; Environmental effects ; Tourism ; Irrigation schemes ; Irrigation programs ; Irrigation development ; Energy generation ; Water power ; Wetlands ; Water allocation ; Agricultural policy ; Crops ; Climate change ; Precipitation ; Rain ; Flooding ; Evapotranspiration / Africa / Angola / Botswana / Malawi / Mozambique / Namibia / Tanzania / Zambia / Zimbabwe / Zambezi River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H044947)
http://www-wds.worldbank.org/external/default/WDSContentServer/WDSP/IB/2010/12/14/000333038_20101214045005/Rendered/PDF/584040V40WP0Wh1lysis0and0Input0Data.pdf?
https://vlibrary.iwmi.org/pdf/H044947.pdf
https://vlibrary.iwmi.org/pdf/H044947.pdf
(6.64 MB) (6.92MB)
The Zambezi River Basin (ZRB) is one of the most diverse and valuable natural resources in Africa. Its waters are critical to sustainable economic growth and poverty reduction in the region. In addition to meeting the basic needs of some 30 million people and sustaining a rich and diverse natural environment, the river plays a central role in the economies of the eight riparian countries—Angola, Botswana, Malawi, Mozambique, Namibia, Tanzania, Zambia, and Zimbabwe. It provides important environmental goods and services to the region and is essential to regional food security and hydropower production. Because the Zambezi River Basin is characterized by extreme climatic variability, the River and its tributaries are subject to a cycle of floods and droughts that have devastating effects on the people and economies of the region, especially the poorest members of the population.
17 Global Water Partnership (GWP). 2013. The role of decision support systems and models in integrated river basin management. Stockholm, Sweden: Global Water Partnership (GWP). 48p.
Water management ; River basin management ; Decision support systems ; Models ; Aquifers ; Climate change ; Adaptation ; Hydrology ; Economic aspects ; Environmental effects ; Social aspects ; Investment ; Water use ; Data / Africa / USA / India / Nile Basin / Euphrates-Tigris Region / Zambezi River Basin / Rio Grande Basin / Okavango River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H045633)
http://www.gwptoolbox.org/images/stories/gwplibrary/technical_focus/gwp%20tfp%20dss_final.pdf
https://vlibrary.iwmi.org/pdf/H045633.pdf
https://vlibrary.iwmi.org/pdf/H045633.pdf
(0.76 MB) (773.64 KB)
18 Cai, Xueliang; McCartney, Matthew; Smakhtin, Vladimir. 2012. Flow duration curve for evaluating ecosystem flow regulating functions in the Zambezi River Basin [Africa]. Paper presented at the 16th SANCIAHS National Hydrology Symposium, Pretoria, South Africa, 1-3 October 2012. 10p.
Water management ; Ecosystems ; Flow discharge ; Flow regulation ; River basins ; Wetlands ; Forests ; Hydrological factors ; Upstream ; Downstream ; Flooding ; Land cover ; Time series analysis / Africa / Zambezi River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H045717)
http://www.ru.ac.za/static/institutes/iwr/SANCIAHS/2012/documents/014_Cai.pdf
https://vlibrary.iwmi.org/pdf/H045717.pdf
https://vlibrary.iwmi.org/pdf/H045717.pdf
(1.10 MB) (1.11MB)
Wetlands and forests have strong effects on hydrological processes by changing the rate of evaporation, transpiration, and flow routing in a basin, which affects basin water management such as dam operations. This study aims to assess the flow regulating functions of wetlands and forests using a flow duration curve (FDC) approach. We firstly identify wetlands and forests which are gauged both upstream and downstream. Reference conditions were then established using nearby sub-watersheds that contain few/no wetlands/forests. By transferring reference flows to the target sites and comparing the FDCs for with and without wetland/forest conditions we then assess the hydrological impacts on flood attenuation and base flow maintenance. Results of a floodplain wetland suggest that it decrease flood flows and increase low flows. The extent of this function could be quantified which gives useful indications for water resources planning and management.
19 McCartney, Matthew; Cai, Xueliang; Smakhtin, Vladimir. 2013. Evaluating the flow regulating functions of natural ecosystems in the Zambezi River Basin. Colombo, Sri Lanka: International Water Management Institute (IWMI). 51p. (IWMI Research Report 148) [doi: https://doi.org/10.5337/2013.206]
River basins ; Ecosystems ; Flow control ; Forests ; Vegetation ; Woodlands ; Wetlands ; Floodplains ; Rain ; Runoff ; Hydrological cycle ; Evaporation ; Time series analysis / Africa / Zambezi River Basin
(Location: IWMI HQ Call no: IWMI Record No: H045844)
(2.82MB)
By affecting evapotranspiration and influencing how water is routed and stored in a basin, forests, wetlands and floodplains play a crucial role in the hydrological cycle. Although they are widely attributed a major role in regulating flows (i.e., both attenuating floods and maintaining flow during dry periods), these services are rarely factored into the planning and management of water resources. One reason for the failure to include them is lack of understanding. Very often the extent to which natural regulating functions really occur is unclear. Against this background, this report describes a simple, pragmatic approach for quantifying the flow regulating functions of natural ecosystems. The method has been applied at 14 locations in the Zambezi River Basin.
20 Saruchera, D.; Lautze, Jonathan; Nhamo, Luxon; Holmatov, B. 2017. Water security. In Lautze, Jonathan; Phiri, Z.; Smakhtin, Vladimir; Saruchera, D. (Eds.). 2017. The Zambezi River Basin: water and sustainable development. Oxon, UK: Routledge - Earthscan. pp.215-233. (Earthscan Series on Major River Basins of the World)
Water security ; Water supply ; Water use ; Water requirements ; Sanitation ; Investment ; River basin management ; Environmental flows ; Agriculture ; Energy resources / Angola / Tanzania / Mozambique / Zambezi River Basin
(Location: IWMI HQ Call no: IWMI Record No: H048280)
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