Water Papers
180 items available
Permanent URI for this collection
Water Papers are produced by the Water Global Practice, taking up the work of the predecessor Water Unit, Transport, Water and ICT Department, Sustainable Development Vice Presidency.
Items in this collection
1 - 7 of 7
-
Publication
The Cubango-Okavango River Basin Multi-Sector Investment Opportunities Analysis: Summary Report
(World Bank, Washington, DC, 2019-12-01)The Cubango-Okavango River Basin is one of the world's most unique, near pristine free-flowing rivers, and central to sustainable economic development within the arid landscapes of southern Africa. The complex flood pulse cycle provides important services for local communities while supporting a rich and unique biodiversity that makes it a wetland of international importance and World Heritage site. However, the commitments to peace and prosperity among the three countries—Angola, Botswana, and Namibia—and the broader efforts of the Southern African Development Community to facilitate greater regional integration provide prospects for increased and improved development. The Multi-Sector Investment Opportunities Analysis is part of a systematic strategy by the Permanent Okavango River Basin Water Commission, a body established in 1994 by Angola, Botswana, and Namibia, to promote coordinated and sustainable water resources management, while addressing the legitimate social and economic needs of the member states. The environmental integrity and long-term protection of the basin depends on addressing the underlying drivers of poverty. Accelerated environmental changes in the basin are largely driven by four factors—population dynamics, land use change, poverty, and climate change—leading to deterioration in water quality, changes in the flood pulse and diminishing biota. As a result, the risks associated with persistent poverty threaten the long-term sustainability of the basin. -
Publication
Water and Nutrition: A Framework for Action
(World Bank, Washington, DC, 2019-08)This framework for action was developed to support the inclusion of nutritional considerations in the design of water operations and to help formulate nutrition-enhancing water policy. Chronic undernutrition early in life can cause cognitive and physical impairments that prevent children from achieving their full potential and have lasting consequences on the human capital that is essential for economies of the future to be competitive. The authors present an integrated water and nutrition framework to aid in understanding the various ways that water impacts early child nutrition, drawing on the three dimensions of water security: water quantity, adequate supply of water resources; water quality, water that is free of contamination; and water accessibility, reliable availability to all people, economies, and ecosystems. Each of these in turn affects the underlying drivers of poor nutrition outcomes in children. Challenges associated with water-related conflict and water resources in the context of fragility cuts across each of the drivers of undernutrition. The framework complements guidance notes that describe the evidence of how water sector investments across irrigation, water management, and water supply and sanitation impact early child nutrition and summarize recommendations on how to design interventions for greater impact. -
Publication
Batoka Gorge Hydroelectric Scheme: A Macroeconomic Assessment of Public Investment Options
(World Bank, Washington, DC, 2019-01)Maximizing the benefits from public sector investments requires a clear, predictable, and transparent process informed by robust analyses that can facilitate multicriteria considerations of different options and alternatives. However, the tools available to governments to assess the costs and benefits of different investment strategies are often too general or specific to determine the optimal investment strategy. This paper aims to improve the tools available to facilitate the assessment of the macroeconomic implications of large infrastructure projects and enhance the capacity for management of public investment decisions. The macroeconomic assessment of public investment options (MAPIO) model was applied to the Batoka Gorge hydroelectric scheme to provide an analysis of impacts on key macroeconomic variables. The MAPIO model shows the project provides a robust financial and economic investment option with a net positive impact on the national economies in both Zambia and Zimbabwe. The estimates are considered conservative and the returns remain robust when subjecting the model to extreme assumptions to test the sensitivity of the results. However, it is important to acknowledge the model limitations, which does not include noneconomic benefits, costs, or impacts on other sectors. Any investment decision should involve a multicriteria assessment that considers the full range of options and alternatives that may be available to achieving the development objectives. -
Publication
Assessment of Groundwater Challenges and Opportunities in Support of Sustainable Development in Sub-Saharan Africa
(World Bank, Washington, DC, 2018-08-01)The report confirms that groundwater, if managed sustainably, can be an important development resource across the Sub-Saharan Africa (SSA) region. The report presents data related to groundwater resource characteristics and highlights the opportunities and challenges presented in promoting sustainable and resilient groundwater development in the region. Groundwater has significant potential to support human and economic development in SSA, as it has done in other global regions. The report recommends investment in expanding groundwater development as an integral component of national water resources strategy for countries in SSA. Investment in groundwater can be financially viable and a wise policy option to support socioeconomic development if safeguards specific to groundwater are incorporated into investmentprograms. The expansion should be designed within a sustainable framework responsive to thespecial social and cultural and economic features of groundwater resources, compounded bytheir special hydrological, environmental and engineering dimensions to guide sustainabledevelopment of this important component of water resources. -
Publication
Wastewater: From Waste to Resource - The Case of Durban, South Africa
(World Bank, Washington, DC, 2018-03)A set of case studies was prepared as part of the World Bank’s Water Global Practice initiative “Wastewater. Shifting paradigms: from waste to resource” to document existing experiences in the water sector on the topic. The case studies highlight innovative financing and contractual arrangements, innovative regulations and legislation and innovative project designs that promote integrated planning, resource recovery and that enhance the financial and environmental sustainability of wastewater treatment plants. This case study documents Durban, South Africa. -
Publication
Lesotho WEAP Manual
(World Bank, Washington, DC, 2017-02-08)This analysis looks specifically at the need to ensure continued development of water resources within Lesotho and aims to empower stakeholders to act with more confidence by demonstrating that the implementation strategies can provide benefits to water resources management over a broad range of possible future scenarios. The analysis quantifies a range of possible future conditions to demonstrate the benefits that can be realized over a broad range of possible future outcomes. This quantification is based on a water resource decision support model developed specifically for Lesotho, using the Water Evaluation and Planning (WEAP) model which couples climate, hydrologic, and water management systems to facilitate an evaluation of the uncertainties and strategies of impacts on specified management metrics. The WEAP model was used to simulate the historic climate based on data from the national government archives and global datasets available in the public domain. These included 121 downscaled Global Climate Model (GCM) projections of future climate over two possible water demand future scenarios, for a total of 244 scenarios up to the year 2050. The analysis concludes the following: (a)Climate change has important determinants for the future, long-term sustainable macroeconomic development of Lesotho: (b)Domestic and industrial water security is highly vulnerable under historical and current climate conditions, as well as under the full range of climate future scenarios; (c) Agriculture production will remain vulnerable to inter-annual variability over the coming decades, particularly with continued reliance on rain fed agriculture; and (d) The Lesotho Highlands Water Project (LHWP) will continue to reliably meet transfers to South Africa over the coming decades unless climate conditions are about 5 percent drier or more than the historical record. -
Publication
Lesotho Water Security and Climate Change Assessment
(World Bank, Washington, DC, 2016-08-18)The analysis looks specifically at the need to ensure continued development of water resources within Lesotho and aims to empower stakeholders to act with more confidence by demonstrating that the implementation strategies can provide benefits to water resources management over a broad range of possible future scenarios. The analysis quantifies a range of possible future conditions to demonstrate the benefits that can be realized over a broad range of possible future outcomes. This quantification is based on a water resource decision support model developed specifically for Lesotho, using the Water Evaluation and Planning (WEAP) model which couples climate, hydrologic, and water management systems to facilitate an evaluation of the uncertainties and strategies of impacts on specified management metrics. The WEAP model was used to simulate the historic climate based on data from the national government archives and global datasets available in the public domain. These included 121 downscaled Global Climate Model (GCM) projections of future climate over two possible water demand future scenarios, for a total of 244 scenarios up to the year 2050.