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Premium member Presentation Transcript Slide1: Capacity Building in Analytical Tools for Estimating and Comparing Costs and Benefits of Adaptation Projects in the Berg River Basin, South Africa AIACC African Workshop Dakar, Senegal, March 2004 Group AF-47 Daan Louw, Molly Hellmuth, Mac Callaway, Jabavu Nkomo, Debbie Sparks ERC Energy Research CentreParticipating Organisations: Participating Organisations Energy Research Centre, University of Cape Town, South Africa Department of Water Resources, Banjul, The Gambia UNEP- Risø Centre on Energy, Climate and Sustainable Development, Denmark AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Project Areas…: The Project Areas… The Gambia The Berg River Basin, South Africa AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: The Context: The Berg River Basin, South Africa: The Context The Berg River basin provides water to both the Cape Town urban center and a variety of irrigation crops. In 1999, the managed demand on the dams of the Western Cape System was 457 MCMs/a compared to the yield of about 442 MCMs Winter rainfall region: April – September, need for storage capacity, farm dams and other large The decision to build the Berg River dam is controversial – is it needed? The impact of climate change was not considered in the dam feasibility assessment The total (holistic) economic impact of building new dams – not considered The impact of the new National Water Act (1998): a major push to create water markets in South Africa (there is provision for water trading, a reserve) AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Objectives: Estimate the potential impacts of alternative climate change scenarios on water supply and demand in the basin due to changes in runoff, evapotranspiration and surface evaporation, Translate these physical impacts into monetary losses (or gains) for different groups of farmers and urban water users, Estimate and compare the benefits costs of the storage and water market options (‘adaptations’) of avoiding climate change damages under different climate scenarios Estimate the risk of making ex-ante planning decisions with different than expected ex-post climate outcomes The Berg River Basin, South Africa: Objectives AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic MANAGEMENT/INVESTMENT DECISIONS COSTS/BENEFITS AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research Centre ADAPTATION OPTIONSThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreClimate: Climate HAD A2* GCM Reference (1961 –1990), Near (2010-2039) and Distant (2070-2099) future time periods AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentrePreliminary Impact Results: Preliminary Impact Results This CC scenario results in a decrease in runoff over the basin An increase in Potential EvapoTranspiration losses Higher crop-water use; Higher Evaporation Potential from Storage AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic, cont…: The Berg River Basin, South Africa: Schematic, cont… AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Economic Model: The Berg River Basin, South Africa: Economic Model Upper Berg River Spatial Equilibrium Model is an optimisation model that will simulate: Competition for water between urban and agricultural water use over space and time Ex-ante investment in additional reservoir capacity Ex-post reservoir operation to meet urban, agricultural and environmental demands for water Objective function is based on economic efficiency, but model can also simulate alternative allocation systems. AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Adaptation Options: The Berg River Basin, South Africa: Adaptation Options Consider specifically: Markets– develop a system of water rights More storage (at an economically optimal level)– collective autonomous adaptation– by farmers and/or government Marginal costs of environmental “reserve” flow Scenarios: Current climate Climate Change Scenarios (downscaled GCM, “what if”) Partial Adjustment (reservoir capacity and institutions fixed, farm and reservoir management variable) Full adjustment (reservoir capacity and institutions are also variable, partially and in combination) AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic MANAGEMENT/INVESTMENT DECISIONS COSTS/BENEFITS AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research Centre ADAPTATION OPTIONSThe Berg River Basin, South Africa: Evaluating Costs and Benefits: The Berg River Basin, South Africa: Evaluating Costs and Benefits COSTS (over 30 year time period): Changes in farm production costs Changes in investment costs for new capacity Changes in administrative costs associated with water market transfers BENEFITS: Changes in willingness to pay for water by farmers and urban users (PV) – efficiency increases Benefit of delay in new storage AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreConclusions: The methodology allows us to: Estimate climate change damage without the alternatives (additional storage capacity, water markets, both) and Estimate benefits and costs associated with reducing climate change damages for each alternative for each and multiple climate change scenarios Determine the optimal storage capacity for each and multiple climate change scenarios Estimate the cost of making ex-ante decisions about reservoir capacity, if the climate change scenario turns out to be wrong ex-post Minimizing the cost of making these mistakes Preliminary impacts results indicate an expected reduction in runoff, which will exacerbate the existing water scarcity Conclusions AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreEnd: Thank you, for more information contact: Jabavu@energetic.uct.ac.za Debbie@energetic.uct.ac.za Molly.hellmuth@risoe.dk Mac.callaway@risoe.dk Daan@dfpt.co.za Or, please visit: http://www.start.org/project_pages/aiacc.html End AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research Centre You do not have the permission to view this presentation. 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Louw 26Mar AM Ethan Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 29 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 30, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: Capacity Building in Analytical Tools for Estimating and Comparing Costs and Benefits of Adaptation Projects in the Berg River Basin, South Africa AIACC African Workshop Dakar, Senegal, March 2004 Group AF-47 Daan Louw, Molly Hellmuth, Mac Callaway, Jabavu Nkomo, Debbie Sparks ERC Energy Research CentreParticipating Organisations: Participating Organisations Energy Research Centre, University of Cape Town, South Africa Department of Water Resources, Banjul, The Gambia UNEP- Risø Centre on Energy, Climate and Sustainable Development, Denmark AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Project Areas…: The Project Areas… The Gambia The Berg River Basin, South Africa AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: The Context: The Berg River Basin, South Africa: The Context The Berg River basin provides water to both the Cape Town urban center and a variety of irrigation crops. In 1999, the managed demand on the dams of the Western Cape System was 457 MCMs/a compared to the yield of about 442 MCMs Winter rainfall region: April – September, need for storage capacity, farm dams and other large The decision to build the Berg River dam is controversial – is it needed? The impact of climate change was not considered in the dam feasibility assessment The total (holistic) economic impact of building new dams – not considered The impact of the new National Water Act (1998): a major push to create water markets in South Africa (there is provision for water trading, a reserve) AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Objectives: Estimate the potential impacts of alternative climate change scenarios on water supply and demand in the basin due to changes in runoff, evapotranspiration and surface evaporation, Translate these physical impacts into monetary losses (or gains) for different groups of farmers and urban water users, Estimate and compare the benefits costs of the storage and water market options (‘adaptations’) of avoiding climate change damages under different climate scenarios Estimate the risk of making ex-ante planning decisions with different than expected ex-post climate outcomes The Berg River Basin, South Africa: Objectives AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic MANAGEMENT/INVESTMENT DECISIONS COSTS/BENEFITS AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research Centre ADAPTATION OPTIONSThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreClimate: Climate HAD A2* GCM Reference (1961 –1990), Near (2010-2039) and Distant (2070-2099) future time periods AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentrePreliminary Impact Results: Preliminary Impact Results This CC scenario results in a decrease in runoff over the basin An increase in Potential EvapoTranspiration losses Higher crop-water use; Higher Evaporation Potential from Storage AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic, cont…: The Berg River Basin, South Africa: Schematic, cont… AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Economic Model: The Berg River Basin, South Africa: Economic Model Upper Berg River Spatial Equilibrium Model is an optimisation model that will simulate: Competition for water between urban and agricultural water use over space and time Ex-ante investment in additional reservoir capacity Ex-post reservoir operation to meet urban, agricultural and environmental demands for water Objective function is based on economic efficiency, but model can also simulate alternative allocation systems. AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Adaptation Options: The Berg River Basin, South Africa: Adaptation Options Consider specifically: Markets– develop a system of water rights More storage (at an economically optimal level)– collective autonomous adaptation– by farmers and/or government Marginal costs of environmental “reserve” flow Scenarios: Current climate Climate Change Scenarios (downscaled GCM, “what if”) Partial Adjustment (reservoir capacity and institutions fixed, farm and reservoir management variable) Full adjustment (reservoir capacity and institutions are also variable, partially and in combination) AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreThe Berg River Basin, South Africa: Schematic: The Berg River Basin, South Africa: Schematic MANAGEMENT/INVESTMENT DECISIONS COSTS/BENEFITS AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research Centre ADAPTATION OPTIONSThe Berg River Basin, South Africa: Evaluating Costs and Benefits: The Berg River Basin, South Africa: Evaluating Costs and Benefits COSTS (over 30 year time period): Changes in farm production costs Changes in investment costs for new capacity Changes in administrative costs associated with water market transfers BENEFITS: Changes in willingness to pay for water by farmers and urban users (PV) – efficiency increases Benefit of delay in new storage AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreConclusions: The methodology allows us to: Estimate climate change damage without the alternatives (additional storage capacity, water markets, both) and Estimate benefits and costs associated with reducing climate change damages for each alternative for each and multiple climate change scenarios Determine the optimal storage capacity for each and multiple climate change scenarios Estimate the cost of making ex-ante decisions about reservoir capacity, if the climate change scenario turns out to be wrong ex-post Minimizing the cost of making these mistakes Preliminary impacts results indicate an expected reduction in runoff, which will exacerbate the existing water scarcity Conclusions AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research CentreEnd: Thank you, for more information contact: Jabavu@energetic.uct.ac.za Debbie@energetic.uct.ac.za Molly.hellmuth@risoe.dk Mac.callaway@risoe.dk Daan@dfpt.co.za Or, please visit: http://www.start.org/project_pages/aiacc.html End AIACC African Workshop Dakar, Senegal, March 2004 ERC Energy Research Centre