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2014 Full Cities Dataset

Row numberProject NameAccount NumberAccount NameModule NamePage NamePage RepeatPage RepeatableRepeat StartRepeat EndQuestionNumberQuestion UniqueReferenceResponse ValueRowsTable Columns Unique ReferenceExternal ReferenceExternal Reference IdAuthority NameTable Column Number
451CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCEducation > Climate change-focused curriculum2Cities-7.1-C1-EmissionsActivity1
452CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCOther: Climate Smart Cape Town Campaign10Cities-7.1-C1-EmissionsActivity1
453CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCUrban Land Use > Greenspace and/or bio-diversity preservation and expansion6Cities-7.1-C1-EmissionsActivity1
454CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - Local Government OperationsNotRepeatable6.0bCities-6.0b-GHGReductionLGOA new GHG emissions reduction target for the lcoal government is currently under review. However, the local government does have a target of 10% energy consumption reduction off business as usual.00
455CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - Local Government OperationsNotRepeatable6.1Cities-6.1-GHGReductionLGO6Cities-6.1-C2-AnticipatedEmissions2
456CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksIncreased coastal erosion due to the high intensity of wind, loss of beach vegetation resulting from degradation of habitats due to wind erosion.7Cities-2.0a-C4-ImpactDescription4
457CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksMedium-term1Cities-2.0a-C3-Timescale3
458CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksMore intense rainfall5Cities-2.0a-C1-ClimateChange1
459CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksSerious1Cities-2.0a-C2-Risk2
460CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksSerious4Cities-2.0a-C2-Risk2
461CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksSerious7Cities-2.0a-C2-Risk2
462CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksThe City itself is a biodiversity hotspot and with an increase in temperature, increased frequency of heatwaves will result in the increased risk of wildfires (disrupting the fire regime which will impact ecosystems), increased success of more tolerant alien invasive species and loss of native species, heat stress will cause a change in plant’s physiology, impacting the growth and efficiency of photosynthesis and biomass production.3Cities-2.0a-C4-ImpactDescription4
463CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.1Cities-2.1-PhysicalRisksIncreasing temperatures may lead to an increased risk of wildfires. The vulnerability of the city increases as a result of a combination of social factors such as poor health, poverty, conflict, poor governance and environmental factors such as changes in climate variability and highly stressed environments. All these factors will result in an interruption to service delivery, food insecurity, damage to key infrastructure and transport routes, greater migration of people from rural to urban areas for available resources, governance issues resulting in social unrest.00
464CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.0aCities-2.0a-PhysicalRisksShort-term3Cities-2.0a-C3-Timescale3
465CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksAs a result of limiting resources in rural areas, populations will migrate to urban areas resulting in an increase in informal settlements.6Cities-4.0a-C3-ImpactDescription3
466CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksIncreased demand for public services (including health)2Cities-4.0a-C1-SocialImpacts1
467CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksIncreased resource demand5Cities-4.0a-C1-SocialImpacts1
468CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksMedium-term5Cities-4.0a-C2-ImpactDescription2
469CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionC2Cities-7.1-C2-AnticipatedEmissions2
470CDP Cities 201435858City of Cape TownRisks & AdaptationPhysical RisksNotRepeatable2.2Cities-2.2-PhysicalRisksYes00
471CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4Cities-4.0-SocialRisksYes00
472CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksIncreased risk to already vulnerable populations3Cities-4.0a-C1-SocialImpacts1
473CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksMigration from rural areas to cities6Cities-4.0a-C1-SocialImpacts1
474CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksShort-term1Cities-4.0a-C2-ImpactDescription2
475CDP Cities 201435858City of Cape TownRisks & AdaptationSocial RisksNotRepeatable4.0aCities-4.0a-SocialRisksThe livelihoods of people who will be impacted most severely are those whose asset bases and food security are damaged or destroyed. The first to suffer these consequences are the poor who are constrained to live in risk prone areas.Poor health, poverty as well as environmental factors increase the vulnerability of low income individuals.3Cities-4.0a-C3-ImpactDescription3
476CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.0aCities-7.0a-GHGReductionCPrimarily applies to electricity generation. All of Cape Town's electricity is supplied through the national energy utility, Eskom. 95% of Eskom's electricity is coal-generated. The City therefore aims to decrease its emmisions by focussing on decreasing electricity consumption by 10% from 2007 baseline1Cities-7.0a-C4-GHGSource4
477CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionC3Cities-7.1-C2-AnticipatedEmissions2
478CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionC10Cities-7.1-C2-AnticipatedEmissions2
479CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCThe Smart Living Campaign is a comprehensive, ongoing sustainable lifestyle campaign aimed at Council staff, communities, businesses and schools in Cape Town. It focuses on waste energy, water and biodiversity. The Smart Living Campaign comes with a Smart Living Handbook which guides people in resource efficient, sustainable daily practices around water, waste, energy and biodiversity. The Smart Living Programme includes a Smart Building Handbook and Smart Office Toolkit.9Cities-7.1-C3-Comment3
480CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCThe Spatial Development Framework (SDF) was endorsed by Council in 2011 and has three key strategies. The first is to plan for employment and improve access to economic opportunities. The second is to manage urban growth and create a balance between urban development and environmental protection. The third is to build an inclusive integrated and vibrant city. The SDF is a long term (20 year) plan to manage growth and change in Cape Town. It provides a long term vision of the desired spatial form and structures of Cape Town and aligns the City's spatial development goals, strategies and policies with relevant national and provincial spatial principles and polices. It guides the proposals contained in the more detailed District Spatial Development Plan which cover a shorter planning time frame (10 year) and the preparation of Local Spatial Plans.6Cities-7.1-C3-Comment3
481CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCTransport > Transportation demand management3Cities-7.1-C1-EmissionsActivity1
482CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - Local Government OperationsNotRepeatable6.1Cities-6.1-GHGReductionLGOThe City is installing photovoltaic systems on specific administrative buildings.5Cities-6.1-C3-ActionDescription3
483CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - Local Government OperationsNotRepeatable6.1Cities-6.1-GHGReductionLGO28443Cities-6.1-C2-AnticipatedEmissions2
484CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - Local Government OperationsNotRepeatable6.1Cities-6.1-GHGReductionLGOCurrently most municipal buildings just have one meter for electricity use in the entire building. One project aims to install automatic meter reading (AMR) technology into all council buildings. The AMR's will allow the monitoring of electricity usage by each department and enable City employees to be more responsible for their use of electricity.1Cities-6.1-C3-ActionDescription3
485CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - Local Government OperationsNotRepeatable6.1Cities-6.1-GHGReductionLGOOther: Municipal Behaviour change program6Cities-6.1-C1-EmissionsReduction1
486CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionC8Cities-7.1-C2-AnticipatedEmissions2
487CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionC11Cities-7.1-C2-AnticipatedEmissions2
488CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCClimate Smart Cape Town (CSCT) is a programme which is activated when there is a relevent campaign/ event which is launched such as the Earth Hour City Challenge 2014. It helps to educate residents of Cape Town about climate change and how they can take action. It also informed them about the actions the City and other leading public and private sector organisations have already taken to mitigate and adapt to climate change.10Cities-7.1-C3-Comment3
489CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCOther: Energy and Climate Change Committee7Cities-7.1-C1-EmissionsActivity1
490CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - Local Government OperationsNotRepeatable6.1Cities-6.1-GHGReductionLGOOutdoor Lighting > LED / CFL / other luminaire technologies3Cities-6.1-C1-EmissionsReduction1
491CDP Cities 201435858City of Cape TownStrategyPlanningNotRepeatable8.1cCities-RenewableEnergyTarget101Cities-RenewableEnergyTarget-C3-Proportion3
492CDP Cities 201435858City of Cape TownStrategyPlanningNotRepeatable8.3Cities-8.3-PrivateSectorInvolvementThe Solar Water Heater (SWH) roll-out is a market transformation program that aims to increase incentive and financing options for consumers to purchase SWHs from businesses in the private sector.The City pioneered local government support for wind generation through its contract to purchase electricity produced by Darling Wind farm. Private sector companies can purchase this electricity and receive a Green Energy Certificate for supporting renewable energy generation. Small Scale embedded Generation of renewable energy.00
493CDP Cities 201435858City of Cape TownStrategyWater Supply AdaptationNotRepeatable9.1Cities-9.1-WaterOn-going monitoring and warning of impending disaster risks, with the help of the provincial weather and hydrological monitoring stations.Reducing the impacts of these natural hazards through infrastructural means, such as flood detention ponds and weirs.Increasing the flood event return period for which sufficient structures are designed.The on-going maintenance of storm-water drains to clear them of sand build-up and rubbish.The development of resilient infrastructure to include appropriately designed and constructed low-income homes, storm-water drainage and sewage treatment installations to cope with flash-floods.1Cities-TC-WaterAdaptation-Comment3
494CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCOther: Energy Efficiency Forum8Cities-7.1-C1-EmissionsActivity1
495CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCThe City is in the process of investigating the feasibility of using its closed and current land fill sites for methane capture and possible electricity generation/ flaring.4Cities-7.1-C3-Comment3
496CDP Cities 201435858City of Cape TownStrategyGHG Emissions Reduction - CommunityNotRepeatable7.1Cities-7.1-GHGReductionCThe City of Cape Town has established a range of institutional structures to facilitate implementation of its objectives including an Energy and Climate Change Committee (a political committee); a Green Economy Working Group; an Executive Management Team Sub-committee for Energy and Climate Change (administrative structures) and a range of work streams to ensure transversal coordination of projects. These institutional structures have allowed for cross-departmental coordination and integration of policy and projects, knowledge exchange between officials and the political stratum and increased engagement with energy and climate change issues across the City.7Cities-7.1-C3-Comment3
497CDP Cities 201435858City of Cape TownStrategyWater Supply RisksNotRepeatable9.0aCities-9.0a-WaterCape Town's water demand is growing rapidly as the city expands. Based on potential economic and population growth the city is expected to experience a water deficit by 2013. The region's water sources are characterised by variablity. Climate change is expected to change rainfall patterns, which will make the planning of infrastructure to effectively manage the city's water supply extremely difficult. It is expected to reduce rainfall and increase evaporation due to increased temperature.The region is known to experience droughts and climate change is likely to make these more intense and frequent.2Cities-9.0a-C4-RiskDescription4
498CDP Cities 201435858City of Cape TownStrategyWater Supply RisksNotRepeatable9.0aCities-9.0a-WaterFlooding1Cities-9.0a-C1-Risks1
499CDP Cities 201435858City of Cape TownStrategyWater Supply RisksNotRepeatable9.0aCities-9.0a-WaterIncreased water stress or scarcity2Cities-9.0a-C1-Risks1
500CDP Cities 201435858City of Cape TownStrategyWater Supply RisksNotRepeatable9.0aCities-9.0a-WaterShort-term2Cities-9.0a-C2-Timescale2

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Profile Picture Amy Bills

created Mar 3 2021

updated Mar 3 2021

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This dataset contains public responses to the CDP Cities 2014 questionnaire. If you have any questions about this dataset or how to use the data, please contact cities@cdp.net.

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