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2020 - Cities Adaptation Actions
| Row number | Year Reported to CDP | Account Number | Organization | City | Country | CDP Region | Access | Climate hazard | Adaptation action | Action title | Status of action | Means of implementation | Co-benefit area | Sectors/areas adaptation action applies to | Action description and implementation progress | Finance status | Majority funding source | Currency used for reported financial information | Total cost of project | Total cost provided by the local government | Total cost provided by majority funding source | Web link | Population | Population Year | City Location | Last update |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 3201 | 2020 | 68290 | Wyndham City Council | Australia | Southeast Asia and Oceania | public | Extreme Precipitation > Rain storm | Flood mapping | Stormwater Management Plan and Water Action Plan | Implementation | Assessment and evaluation activities | Disaster preparedness; Disaster Risk Reduction; Enhanced climate change adaptation; Enhanced resilience; Improved access to data for informed decision-making | Building and Infrastructure; Public Health and Safety; Spatial Planning; Transport (Mobility) | Plans developed and actions are under implementation. | Finance secured | AUD Australian Dollar | https://www.wyndham.vic.gov.au/stormwater-management-plan-2015 https://www.wyndham.vic.gov.au/water-action-plan-2015-2020 | 255322 | 2018 | 2021-07-16T02:13:47.203 | ||||||
| 3202 | 2020 | 834374 | Tagum City | Philippines | Southeast Asia and Oceania | public | Extreme hot temperature > Extreme hot days | Biodiversity monitoring | Installation of Solar Pest Light Trap | Implementation | Disaster Risk Reduction; Economic growth; Enhanced climate change adaptation; Enhanced resilience; Improved resource efficiency (e.g. food, water, energy); Improved resource security (e.g. food, water, energy); Reduced GHG emissions; Social inclusion, social justice | 1. Installed 3 units of Solar Pest Light Trap at the demo farm in Mandapaan, Brgy. New Balamban, Tagum City2. Promote the use of the technology through information dessimination to educate especially our local farmers.3. Reduces the risk on pest and insect infestation in the farm using renewable energythough monitoring the effectivity and efficiency of the technology. | Finance secured | Local | PHP Philippine Peso | 100000 | 100000 | 259444 | 2015 | 2021-07-16T02:13:47.203 | ||||||
| 3203 | 2020 | 35475 | City of Calgary | Calgary | Canada | North America | public | Flood and sea level rise > River flood | Flood defences – development and operation & storage | Eau Claire Promenade Flood Barrier Construction | Implementation | Infrastructure development | Disaster preparedness; Enhanced climate change adaptation; Enhanced resilience; Improved access to and quality of mobility services and infrastructure | Building and Infrastructure; Public Health and Safety; Water | Building flood resilience remains a top priority for The City of Calgary. The City’s Flood Resilience Plan includes a combination of upstream, community, and property-level flood mitigation to ensure that Calgary becomes more resilient to flooding, considering climate uncertainty and continued urban development.In 2019, construction of the Eau Claire Promenade continued, incorporating the downtown flood barrier and connecting with flood barriers in West Eau Claire Park and the Centre Street Bridge to provide an increased level of protection to Calgary's downtown. | Finance secured | Local | CAD Canadian Dollar | 1285711 | 2019 | {"type"=>"Point", "coordinates"=>[-114.071, 51.0486]} | 2021-07-16T02:13:47.203 | ||||
| 3204 | 2020 | 843399 | Wandsworth Council | United Kingdom of Great Britain and Northern Ireland | Europe | public | Extreme hot temperature > Heat wave | Shading in public spaces, markets | Promote urban cooling and public shady outdoor space through place making and the Local Plan | Implementation | Assessment and evaluation activities; Policy and regulation; Stakeholder engagement | Enhanced climate change adaptation; Enhanced resilience; Improved public health | Building and Infrastructure; Spatial Planning | Seek to promote the borough’s green infrastructure network as a key component of place making, including the multiple benefits of providing habitats for species (biodiversity) as well as supporting healthy living environments through providing, for example, urban cooling, and local access to shady outdoor space.This also includes a continued protection of existing green spaces to ensure these are not lost as a result of development proposals as set out in the National Planning Policy Framework.Through decision making on planning applications, promote and encourage development to be fully resilient to the future impacts of climate change in order to minimise vulnerability of people and propertyPromote green infrastructure as playing a critical role in increasing London’s capacity to adapt to climate change, (e.g. during droughts, heatwaves, heavy rainfall events etc) and adopt new approaches to the design and management of green space (i.e. drought resistant vs native plants etc.)See also Local Plan (which is currently being refreshed):The Council will require new development to achieve the higher optional national technical standards for housing and BREEAM or other nationally recognised standards that replace them as set out in DMPD Policy DMS3 unless demonstrated that it would not be technically feasible or economically viable. New buildings should be designed for the climate they will experience over their lifetime. | Finance secured | Local | GBP Pound Sterling | Cost to be met from existing budgets. https://democracy.wandsworth.gov.uk/documents/s71802/Appendix%201%20Paper%20No.%2020-27.pdf see pages 17, 24 and 25Local Plan: https://www.wandsworth.gov.uk/planning-and-building-control/planning-policy/local-plan/ | 332500 | 2020 | 2021-07-16T02:13:47.203 | |||||
| 3205 | 2020 | 31173 | Comune di Milano | Milano | Italy | Europe | public | Extreme hot temperature > Heat wave | Heat mapping and thermal imaging | Paesaggi a Prova di Clima - Climate-proof Landscapes | Implementation | Assessment and evaluation activities; Monitor activities | Enhanced climate change adaptation; Enhanced resilience; Improved access to data for informed decision-making; Improved public health | Public Health and Safety; Spatial Planning | The project, funded by the Cariplo Foundation, takes into consideration the territory of Milan and of some Municipalities of the southern periurban belt to analyze the effect of heat islands and runoffs risk with the aim of elaborating targeted solutions.The project is structured in 5 phases: the first one consists of the environmental and spatial analysis, with particular attention given to the construction of a vulnerability map. The map also considers the socio-demographic structure in order to intersect socio-demographic data with environmental and territorial data. The second phase proposes participatory and engagement activities on the territory through the co-design of actions (Green & blue site-specific) to adapt to climate change.The third phase proposes pilot projects, combining bottom-up activities of co-design and top-down approaches of mapping and climate planning, with the aim of improving adaptation, urban comfort and well-being at the same time.The fourth phase aims to feed the local debate on climate change and outline an operational proposal for new forms of governance for climate planning at the metropolitan level in order to obtain a more effective response and limit the dispersion of economic and human resources.The fifth phase promotes the theme of adaptation at a territorial level, through awareness-raising activities for citizens and technical training for professionals and municipal employees.The process's impact is not limited to the improvement of the urban micro-climate, but, thanks to the preliminary analysis, it will also provide a geo-database with climate data on the territory of Milan. | Finance secured | Local | EUR Euro | 142854 | 15000 | 91928 | 1404431 | 2019 | {"type"=>"Point", "coordinates"=>[9.08635, 45.8026]} | 2021-07-16T02:13:47.203 | |
| 3206 | 2020 | 848128 | Ocú | Panama | Latin America | public | Storm and wind > Lightning / thunderstorm | Diversifying power/energy supply | INSTALACIÓN DE SISTEMA SOLAR FOLTOVOLTAICO INTERCONECTADO A LA RED DE DISTRIBUCIÓN ELÉCTRICA | Pre-feasibility study/impact assessment | Assessment and evaluation activities; Capacity building and training activities; Development and implementation of action plan; Financial mechanism; Infrastructure development; Monitor activities; Stakeholder engagement; Verification activities | Enhanced climate change adaptation; Enhanced resilience; Greening the economy; Improved access to and quality of mobility services and infrastructure; Improved resource efficiency (e.g. food, water, energy); Reduced GHG emissions; Shift to more sustainable behaviours | Building and Infrastructure; Energy; Social Services | El Municipio de Ocú gasta anualmente más de 14,400.00 en pago de luz eléctrica, razón por la que se está optando por la INSTALACIÓN DE SISTEMA SOLAR FOLTOVOLTAICO INTERCONECTADO A LA RED DE DISTRIBUCIÓN ELÉCTRICA que ayude al acercamiento de un equilibrio ambiental. Aunado a un plan de Evaluación de Impacto e Incidencia de rayos / tormentas eléctricas en nuestra región. | Pre-feasibility/impact assessment study status | USD US Dollar | El proyecto está en estado preliminar y está por definir los costos y la fuente de financiamiento. | 15539 | 2010 | 2021-07-16T02:13:47.203 | ||||||
| 3207 | 2020 | 46514 | City of Porto | Porto | Portugal | Europe | public | Mass movement > Landslide | Restrict development in at risk areas | Implementation | Disaster Risk Reduction; Enhanced resilience | Development of a Special Plan for Natural Hazards to protect people, property and natural heritage, withh risk mapping production | EUR Euro | 237591 | 2011 | {"type"=>"Point", "coordinates"=>[-8.6291, 41.1579]} | 2021-07-16T02:13:47.203 | |||||||||
| 3208 | 2020 | 60273 | Prefeitura de Extrema | Extrema | Brazil | Latin America | public | Wild fire > Forest fire | Community engagement/education | Educação Ambiental e Brigada de Incêndio | Implementation | Awareness raising program or campaign; Capacity building and training activities | Improved public health; Improved resource quality (e.g. air, water); Improved resource security (e.g. food, water, energy); Reduced GHG emissions; Shift to more sustainable behaviours | Agriculture and Forestry; Public Health and Safety | O município de Extrema executa ações de conscientização e educação ambiental da população para a não realização de queimadas para limpeza de terrenos e/ou quaisquer outros atos que iniciem ou possam iniciar incêndio em formações vegetais em todo seu território. A cidade mantém brigada contra incêndios florestais própria, atuando em parceria com o Corpo de Bombeiros Militar. | Finance secured | Local | BRL Brazilian Real | 36225 | 2019 | {"type"=>"Point", "coordinates"=>[-46.328, -22.8403]} | 2021-07-16T02:13:47.203 | ||||
| 3209 | 2020 | 50578 | City of Windsor | Windsor | Canada | North America | public | Extreme hot temperature > Extreme hot days | Tree planting and/or creation of green space | Enhance linkages between and among natural heritage features | Pre-implementation | Education; Infrastructure development; Monitor activities; Policy and regulation; Stakeholder engagement | Ecosystem preservation and biodiversity improvement; Enhanced resilience | Agriculture and Forestry; Building and Infrastructure; Spatial Planning | Evaluate and prioritize natural heritage restoration opportunities; Increase implementation of natural heritage restoration and maintenance; Ensure land retention of natural heritage linkages, Investigate increased land connectivity options including land acquisition and landscaped or below grade Eco passages to enhance natural areas linkages. | CAD Canadian Dollar | https://www.citywindsor.ca/residents/environment/Environmental-Master-Plan/Goal-C-Responsible-Land-Use/Pages/Increase-Connectivity-Between-Parks-and-Natural-Areas.aspx | 233763 | 2018 | {"type"=>"Point", "coordinates"=>[-83.0364, 42.3149]} | 2021-07-16T02:13:47.203 | |||||
| 3210 | 2020 | 60385 | Alcaldía de Villavicencio | Colombia | Latin America | public | Cooling systems for critical infrastructure | Implantación de sistemas de refrigeración de distrito | Pre-feasibility study/impact assessment | Enhanced climate change adaptation; Reduced GHG emissions | Las ciudades representan más del 70% del consumo mundial de energía y del 40 a 50% de las emisiones de gases de efecto invernadero en todo el mundo. En las ciudades, la calefacción y refrigeración puede representar hasta la mitad del consumo de energía local.Cualquier solución para la transición climática y energética debe abordar explícitamente la calefacción y refrigeración sostenible urbana, así como la electricidad. Uno de los sistemas más eficaces en la reducción de emisiones y la demanda de energía primaria es el desarrollo de la energía de distrito en las ciudades, una alternativa resiliente al clima y con una baja emisión de carbono.En Villavicencio, el consumo eléctrico debido a aires acondicionados representa una parte importante sobre el total y varía según el estrato socioeconómico. En el sector residencial para estratos altos el uso de aires acondicionados es mayor, mientras que para estratos bajos el uso de energía eléctrica para cocción de alimentos y calentamiento de agua es significativamente mayor.Es por ello que en esta acción se plantea desarrollar una red de refrigeración urbana mediante una alianza público privada, de forma que los hogares y comercios puedan acceder a refrigeración de forma similar a como se accede a la electricidad. Al menos en los barrios más densos. Realizar una prueba piloto en un barrio.La implantación de un sistema de refrigeración de distrito comenzará con una prueba piloto en un determinado barrio. Se recomienda que se aplique a los barrios más densos, donde se sitúen edificios multifamiliares de más de tres pisos y en zonas de grandes crecimientos demográficos para conseguir una gran reducción de costes.En un sistema de refrigeración de distrito, el agua enfriada es producida por plantas de producción y distribuida por un sistema de tuberías de agua (red de distribución) para edificios equipados con estaciones de transferencia de energía (sub-estaciones) para la refrigeración de las instalaciones de dicho edificio.Por lo tanto, un sistema de refrigeración de distrito incluye tres componentes fundamentales: las plantas de producción, la red de distribución y las estaciones de transferencia de energía. | Pre-feasibility/impact assessment study status | Climate finance (carbon credits) | COP Colombian Peso | 4507959 | 545302 | 2020 | 2021-07-16T02:13:47.203 | ||||||||
| 3211 | 2020 | 59644 | City of Culver City, CA | Culver City | United States of America | North America | public | Chemical change > Atmospheric CO2 concentrations | Incorporating climate change into long-term planning documents | General Plan Update | Pre-implementation | Verification activities | Disaster Risk Reduction; Enhanced climate change adaptation; Enhanced resilience; Improved resource quality (e.g. air, water); Reduced GHG emissions | Building and Infrastructure; Energy; Industry; Transport (Mobility) | Culver City has a long-standing and active commitment to sustainability leadership, from its early adoption of the Solar Photovoltaic Systems Ordinance to its membership in the Clean Power Alliance. The City is currently comprehensively updating its General Plan. The update will integrate sustainability principles as a lens and will improve environmental, economic, and social outcomes through policies and actions. Policies and actions could address more efficiently using existing resources; enhancing the quality of life; improving air quality, water quality, urban heat island impacts, and other positive environmental outcomes; increasing energy independence; increasing the use of renewables; identifying public sector investments to contribute to public benefits; ameliorating any existing regulations or practices that perpetuate inequitable outcomes; analyzing the sustainability of municipal infrastructure systems; and identifying sustainable infrastructure projects and improvements. Policies, actions, projects, etc. will strive to offer multiple benefits that touch on various elements of the General Plan, such as Recreation, Conservation, Health, and Economy. | Finance secured | Local | USD US Dollar | 2192010 | 2109510 | 2109510 | www.pictureculvercity.com | 39295 | 2018 | {"type"=>"Point", "coordinates"=>[-118.4, 34.02]} | 2021-07-16T02:13:47.203 |
| 3212 | 2020 | 32550 | City of Denver | Denver | United States of America | North America | public | Extreme hot temperature > Extreme hot days | Other, please specify: Smart Leasing | Smart Leasing | Implementation | Capacity building and training activities; Stakeholder engagement | Improved resource efficiency (e.g. food, water, energy); Reduced GHG emissions | Building and Infrastructure; Energy | The Smart Leasing program provides tools, training, and resources to better align the interests of tenants and landlord to achieve healthy, high-performance, energy-efficient buildings. Tenants experience better employee productivity and retention as well as lower utility costs. Landlords and property managers experience improved net operating income (NOI), tenant satisfaction and retention. Brokers win work by aligning with clients' desire to lease space in healthy, high performing buildings. Attorneys win work and stay current by integrating clients' sustainability goals into leases. And architects, designers and space planners win work by demonstrating the value of energy efficiency. Denver is currently interested in developing case studies to recognize how program participants have integrated smart leasing principles into business practices. | USD US Dollar | https://www.denvergov.org/content/denvergov/en/climate-sustainability/programs-services/smart-leasing-program.html | 716492 | 2018 | {"type"=>"Point", "coordinates"=>[-104.985, 39.7376]} | 2021-07-16T02:13:47.203 | |||||
| 3213 | 2020 | 54611 | Alcaldia de Manizales | Manizales | Colombia | Latin America | public | Biological hazards > Vector-borne disease | Testing/vaccination programmes for vector-borne disease | Follow-up to ETV | Monitoring and reporting | Improved public health | Follow-up of cases presented by ETV, delivery of mosquito nets to prevent diseases, collection of waste in the sector, communication and dissemination on tank brushing | Finance secured | Local | COP Colombian Peso | 400136 | 2019 | 2021-07-16T02:13:47.203 | |||||||
| 3214 | 2020 | 49339 | City and County of Honolulu | Honolulu | United States of America | North America | public | Water Scarcity > Drought | Hazard resistant infrastructure design and construction | Increase setbacks from property lines near wildland fire areas and require fire lanes and vegetation control | USD US Dollar | 974563 | 2019 | {"type"=>"Point", "coordinates"=>[157.59, 21.28]} | 2021-07-16T02:13:47.203 | |||||||||||
| 3215 | 2020 | 36159 | City of Lisbon | Lisbon | Portugal | Europe | public | Water Scarcity > Drought | Xeriscapes – low water landscaping design | Rainfed Biodiverse Meadows | Implementation | Enhanced resilience; Improved resource quality (e.g. air, water); Promote circular economy; Reduced GHG emissions; Resource conservation (e.g. soil, water); Shift to more sustainable behaviours | Water | Selection of species more resilient to climatic risks and introduction of 16 hectares of biodiverse meadows by 2021, integrated into the local action plan for biodiversity. | Feasibility finalized, and finance partially secured | Other, please specify: LIFE+ Climate Project - (LIFE18 CCA/PT/001170) | EUR Euro | 40000 | 40000 | https://life-lungs.lisboa.pt/ | 547733 | 2011 | {"type"=>"Point", "coordinates"=>[-9.13933, 38.7223]} | 2021-07-16T02:13:47.203 | ||
| 3216 | 2020 | 849023 | Uruapan | Mexico | Latin America | public | Extreme Precipitation > Rain storm | Flood mapping | Desasolve estratégico de drenajes | Operation | Assessment and evaluation activities; Infrastructure development | Disaster Risk Reduction; Enhanced climate change adaptation; Enhanced resilience; Improved access to data for informed decision-making | Building and Infrastructure; Public Health and Safety; Spatial Planning; Transport (Mobility); Water | De acuerdo al Atlas de Riesgo Municipal de Uruapan, el mapeo de inundaciones ha llevado a la actuación estratégica del municipio para aminorar los desastres ocasionados por las lluvias, como lo son las inundaciones en el área urbana. Al conocer la localización de las superficies de inundación, se puede atacar con mayor facilidad, la infraestructura con obstrucciones como las tuberías, alcantarillas y bocas de tormenta, de manera que pueda fluir el agua sin problema alguno. | Finance secured | Local | MXN Mexican Peso | 8904850.06 | 0 | 8904850.06 | https://transparenciauruapan.gob.mx/32-anrexo-3-relacion-de-obras-ejecutadas-durante-el-ejercicio-fiscal/ | 284264 | 2010 | 2021-07-16T02:13:47.203 | ||
| 3217 | 2020 | 49339 | City and County of Honolulu | Honolulu | United States of America | North America | public | Water Scarcity > Drought | Promoting and incentivizing water efficiency | Expand rebate program for new water-saving technologies | USD US Dollar | 974563 | 2019 | {"type"=>"Point", "coordinates"=>[157.59, 21.28]} | 2021-07-16T02:13:47.203 | |||||||||||
| 3218 | 2020 | 50208 | Adana Metropolitan Municipality | Adana | Turkey | Europe | public | TRY New Turkish Lira | 2200000 | 2020 | {"type"=>"Point", "coordinates"=>[35.334, 36.995]} | 2021-07-16T02:13:47.203 | ||||||||||||||
| 3219 | 2020 | 54348 | The Local Government of Quezon City | Quezon City | Philippines | Southeast Asia and Oceania | public | Flood and sea level rise > Flash / surface flood | Real time risk monitoring | Automated Water Level Monitoring System | Operation | Monitor activities | Disaster preparedness; Disaster Risk Reduction; Enhanced climate change adaptation; Enhanced resilience; Improved access to data for informed decision-making; Social inclusion, social justice | ICT (Information and Communication Technology); Public Health and Safety | The Automated Water Level Monitoring System are stations scattered across flood prone areas within Quezon City that uses ultrasonic sensors to measure the rate of water level in a specific area. This also integrated into a communication network to automate updates on water levels within the CIty's Operations Center.There are eleven (11) areas in Quezon City that have established WMS which provides vital information for the City's Disaster Risk Reduction and Management Office to issue timely localized advisories and necessary operationalization of emergency protocols depending on situation. | Finance secured | Local | PHP Philippine Peso | 3112436 | 2020 | {"type"=>"Point", "coordinates"=>[120.862, 15.6835]} | 2021-07-16T02:13:47.203 | ||||
| 3220 | 2020 | 60105 | Kirklees Council | Huddersfield | United Kingdom of Great Britain and Northern Ireland | Europe | public | Flood and sea level rise > Flash / surface flood | Flood mapping | Development and implementation of the Kirklees Local Flood Risk Management Strategy (2019) | Implementation | Development and implementation of action plan | Enhanced climate change adaptation; Enhanced resilience | Water | Seeking funding | (Sub)national | GBP Pound Sterling | (not yet publised online) | 437400 | 2017 | 2021-07-16T02:13:47.203 | |||||
| 3221 | 2020 | 54498 | Ayuntamiento de Murcia | Murcia | Spain | Europe | public | Water Scarcity > Drought | Community engagement/education | 3.1. Sensibilizar y formar a la adopción de comportamientos de uso del agua sostenibles | Pre-feasibility study/impact assessment | Awareness raising program or campaign; Capacity building and training activities | Improved resource efficiency (e.g. food, water, energy); Shift to more sustainable behaviours | Water | 3.1.1. Implementar un programa educativo para la Sociedad murciana sobre cambio climáticoSe creará e impartirá un programa de educación extraescolar específico de cambio climático, en el que seconsideren temas de mitigación y adaptación. El programa será impartido en los centros de educación infantil, primaria y secundaria y posteriormente a la población en general.Este curso se incluirá dentro de las actividades del programa educativo “Murcia, ecología de una ciudad”.Además, se podrían tomar como referencia y potenciar los actuales programas de educación ambiental en Murcia, tales como como el Programa Educativo ESenRed y Medioambientales.Se implementarán también otras iniciativas en Educación como la “Campaña escolar de cambio climático” promovida por la Red Española de Ciudades por el Clima.Respecto al ámbito del agua, no solamente se enfocará a su ahorro sino también a la generación de aguasgrises y los impactos que pueden causar los desechos vertidos a la alcantarilla en la calidad del agua y lasinfraestructuras de tratamiento (i.e. contaminantes emergentes, residuos no biodegradables, etc.).3.1.2. Desarrollar actividades lúdicas encomendadas a la conciencia del aguaSe diseñará un programa anual continuo de actividades lúdicas dirigidas a todo tipo de público, adicionales a la semana del agua y las exposiciones sobre los secretos del agua.3.1.3. Intensificar las campañas de concienciación y formación para la gestión del agua en sectores económicos estratégicosLas campañas estarán dirigidas, en un inicio, al sector estratégico de la industria agroalimentaria, grandesconsumidores del recurso. Posteriormente se ampliará a todas las empresas y sectores del municipio.Las campañas estarán enfocadas, por un lado, en el ahorro del agua (cálculo de huella hídrica) y por otro, en prácticas para evitar la contaminación del recurso (i.e. prácticas para evitar el vertido de desechos contaminantes en las aguas residuales, que afectan las infraestructuras de tratamiento y la calidad del agua).Se incluirán en estas campañas de concienciación y formación las conclusiones del proyecto Interreg de optimización del agua en el sector turístico de Murcia. | Feasibility undertaken | Local | EUR Euro | 148000 | 148000 | 453258 | 2019 | {"type"=>"Point", "coordinates"=>[-1.00495, 37.799]} | 2021-07-16T02:13:47.203 | ||
| 3222 | 2020 | 31108 | City of Houston | Houston | United States of America | North America | public | Extreme hot temperature > Extreme hot days | Tree planting and/or creation of green space | Plant 4.6 million new native trees | Pre-implementation | Assessment and evaluation activities; Awareness raising program or campaign; Development and implementation of action plan; Financial mechanism; Infrastructure development; Monitor activities; Stakeholder engagement | Ecosystem preservation and biodiversity improvement; Enhanced climate change adaptation; Enhanced resilience; Improved access to data for informed decision-making; Improved public health; Reduced GHG emissions; Social inclusion, social justice | Agriculture and Forestry; Building and Infrastructure; Industry; Public Health and Safety; Spatial Planning | Houston's Resilient Houston and Climate Action Plan both include a new City tree planting target of 4.6 million new native trees by 2030. This target was established in 2020 to accelerate and increase tree planting in Houston to meet multiple resilience goals and actions. Public and private partners are working collaboratively to develop an action plan for being able to meet this 10-year goal. This work will include the evaluation of supply chain capacity for native trees, identification of potential locations for enhanced planting in coordination with climate/heat mapping. | Pre-feasibility/impact assessment study status | Other, please specify: Regular city operational budget | USD US Dollar | https://www.houstontx.gov/mayor/Resilient-Houston-20200518-single-page.pdf http://greenhoustontx.gov/climateactionplan/CAP-April2020.pdf | 2343365 | 2019 | {"type"=>"Point", "coordinates"=>[-95.3694, 29.7602]} | 2021-07-16T02:13:47.203 | |||
| 3223 | 2020 | 31176 | Prefeitura do Rio de Janeiro | Rio de Janeiro | Brazil | Latin America | public | Extreme hot temperature > Extreme hot days | Tree planting and/or creation of green space | Ilhas de Frescor Project | Scoping | Development and implementation of action plan | Enhanced resilience; Improved public health; Reduced GHG emissions | Agriculture and Forestry | "Ilhas de Frescor" Project - Planting 650 trees in Jacarepaguá squares to combat the Heat Islands with the goal of an "Ilha de Frescor" every 5 minutes of walking, until 2030. | Pre-feasibility/impact assessment study status | Local | BRL Brazilian Real | https://prefeitura.rio/cidade/projeto-ilhas-de-frescor-que-se-estendera-a-25-bairros-tera-plantio-de-650-arvores-em-jacarepagua/ | 6520266 | 2017 | {"type"=>"Point", "coordinates"=>[-43.5614, -22.9054]} | 2021-07-16T02:13:47.203 | |||
| 3224 | 2020 | 31148 | City of Amsterdam | Amsterdam | Netherlands | Europe | public | Flood and sea level rise > River flood | Incorporating climate change into long-term planning documents | Research study water safety | Pre-feasibility study/impact assessment | Awareness raising program or campaign; Development and implementation of action plan; Education; Policy and regulation | Disaster preparedness; Disaster Risk Reduction; Enhanced resilience | Spatial Planning; Water | Floods in Amsterdam can occur from the North Sea, the Lek, the Markermeer and the regional water systems. The limits in the water system are around the corner and there is not much flexibility left to accommodate extremes. Nevertheless, awareness of flood risks is very low and climate change is causing that the limits of the water system can be reached more quickly. Therefore a study was setup that aims to develop knowledge about which measures are necessary to limit the consequences when a flood occurs, based on insight into concrete risks in Amsterdam. As such the goal of the study is e.g. to develop planning and design principles that can be used in spatial planning and area development (including utilities). | Finance secured | Local | EUR Euro | 872380 | 2020 | {"type"=>"Point", "coordinates"=>[4.89516, 52.3702]} | 2021-07-16T02:13:47.203 | ||||
| 3225 | 2020 | 37261 | City of Pietermaritzburg | Pietermaritzburg | South Africa | Africa | public | Extreme hot temperature > Heat wave | Incorporating climate change into long-term planning documents | Tree planting policy for Msunduzi municipality | Implementation complete but not in operation | Enhanced climate change adaptation | Msundzui municipality has a tree planting and removal plan which aims at increased tree planting along main streets and busy areas within the CBD. This aims at greening areas and proving areas of shade. Msunduzi municipality also has a policy for the management of heat stress | Local | ZAR South African Rand | 618536 | 2011 | {"type"=>"Point", "coordinates"=>[30.3794, -29.6006]} | 2021-07-16T02:13:47.203 | |||||||
| 3226 | 2020 | 74594 | City of Boynton Beach | Boynton Beach | United States of America | North America | public | Water Scarcity > Drought | Maintenance/repair – leaking infrastructure | Operation | The City has one of the lowest unaccounted for water loss rates in the region at less than 2%. | Finance secured | Local | USD US Dollar | 77696 | 2019 | {"type"=>"Point", "coordinates"=>[-80.216, 26.4986]} | 2021-07-16T02:13:47.203 | ||||||||
| 3227 | 2020 | 36159 | City of Lisbon | Lisbon | Portugal | Europe | public | Flood and sea level rise > Flash / surface flood | Nature based solutions for water | NBS in public space | Operation | Infrastructure development | Enhanced climate change adaptation; Enhanced resilience | Spatial Planning | NBS in public space. Construction of retention basins and other retention solutions (10 interventions by 2021) with the objective of redesigning the landscape and enhancing the water cycle favoring retention and infiltration. | Finance secured | EUR Euro | 547733 | 2011 | {"type"=>"Point", "coordinates"=>[-9.13933, 38.7223]} | 2021-07-16T02:13:47.203 | |||||
| 3228 | 2020 | 74423 | City of Key West, FL | Key West | United States of America | North America | public | Flood and sea level rise > Permanent inundation | This would have been better as a list of "check all that apply" There are more things we have done, but I cannot keep doing this painful scrolling. | USD US Dollar | 24565 | 2018 | {"type"=>"Point", "coordinates"=>[24.5551, 81.78]} | 2021-07-16T02:13:47.203 | ||||||||||||
| 3229 | 2020 | 35874 | City of Phoenix | Phoenix | United States of America | North America | public | Extreme hot temperature > Extreme hot days | Tree planting and/or creation of green space | Tree Planting | Implementation | Assessment and evaluation activities; Capacity building and training activities; Infrastructure development | Enhanced resilience; Improved public health; Improved resource quality (e.g. air, water); Shift to more sustainable behaviours | Building and Infrastructure | The City is ramping up tree plantings efforts city-wide with plans to double the tree canopy of City land and right-of-ways by 2030 as articulated in the City's tree and shade master plan that includes increasing canopy along right of ways and within parks. https://www.phoenix.gov/parks/parks/urban-forest/tree-and-shade The Urban Heat Island / Tree and Shade Subcommittee of the City of Phoenix Environmental Quality and Sustainability Commission was created in 2018 to develop recommendations to ensure Phoenix meets its goal of 25% canopy by year 2025. Recommendations from the Subcommittee are following the link https://www.phoenix.gov/oepsite/Documents/2019-12-16%20City%20of%20Phoenix%20Environmental%20Quality%20and%20Sustainability%20Commission%20Tree%20and%20Shade%20Memo%20and%20Recommendations.pdf | Finance secured | Local | USD US Dollar | 0 | https://www.phoenix.gov/oep/environment/climate/urban-heat-island-tree-and-shade-tree-subcommittee | 1660272 | 2018 | {"type"=>"Point", "coordinates"=>[-112.074, 33.4484]} | 2021-07-16T02:13:47.203 | ||
| 3230 | 2020 | 826427 | Município de Valongo | Valongo | Portugal | Europe | public | Extreme hot temperature > Heat wave | Air quality initiatives | Promoção do aumento e diversificação dos espaços verdes. | Scoping | Infrastructure development; Policy and regulation; Stakeholder engagement | Enhanced climate change adaptation; Improved public health; Shift to more sustainable behaviours | Building and Infrastructure | Promoção do aumento e diversificação dos espaços verdes, incluindo jardins verticais e telhados ajardinados, com o objetivo de reduzir a vulnerabilidade a eventos extremos e aumentar a capacidade de resposta. | EUR Euro | 97444 | 2019 | {"type"=>"Point", "coordinates"=>[-8.49835, 41.1887]} | 2021-07-16T02:13:47.203 | ||||||
| 3231 | 2020 | 31155 | City of Buenos Aires | Buenos Aires | Argentina | Latin America | public | Flood and sea level rise > River flood | Storm water capture systems | Infraestructura hidráulica- Mejora de la eficiencia hidráulica del Arroyo Medrano (2018-2020) | Implementation | Infrastructure development | Disaster Risk Reduction; Enhanced resilience | Public Health and Safety; Water | La obra consiste en la ejecución de tabiques entre columnas en el Arroyo entubado, específicamente en los tramos de 2 y 3 celdas. Estas mejoras aumentarían el caudal de conducción entre un 10% y un 20% y se disminuiría la acumulación de residuos, lo que impactaría positivamente en el porcentaje de mejora. | Finance secured | (Sub)national | ARS Argentine Peso | 131829885 | https://www.buenosaires.gob.ar/desarrollourbano/desarrollo/proyectos-y-obras/cuenca-medrano | 3063728 | 2017 | {"type"=>"Point", "coordinates"=>[-58.3816, -34.6037]} | 2021-07-16T02:13:47.203 | ||
| 3232 | 2020 | 1184 | City of Austin | Austin | United States of America | North America | public | Flood and sea level rise > Flash / surface flood | Flood mapping | Flood Mapping | Implementation | Assessment and evaluation activities; Financial mechanism; Monitor activities | Disaster preparedness; Disaster Risk Reduction; Enhanced climate change adaptation; Enhanced resilience; Shift to more sustainable behaviours; Social inclusion, social justice | Building and Infrastructure; Spatial Planning; Transport (Mobility) | Updating Citywide floodplain maps in accordance with new rainfall data from NOAA Atlas 14 study. | Pre-feasibility/impact assessment study status | Local | USD US Dollar | Report: http://www.austintexas.gov/sites/default/files/files/Sustainability/Climate_Resilience_Action_Plan.compressed.pdfInformation: http://www.austintexas.gov/atlas14 | 964254 | 2019 | {"type"=>"Point", "coordinates"=>[-97.7431, 30.2672]} | 2021-07-16T02:13:47.203 | |||
| 3233 | 2020 | 59535 | Town of Vail, CO | Vail | United States of America | North America | public | Flood and sea level rise > River flood | Hazard resistant infrastructure design and construction | 2010 Flood Assessment | Implementation | Assessment and evaluation activities; Development and implementation of action plan; Infrastructure development; Monitor activities | Disaster preparedness; Disaster Risk Reduction; Ecosystem preservation and biodiversity improvement; Enhanced resilience; Improved resource quality (e.g. air, water) | Building and Infrastructure; Fishery; ICT (Information and Communication Technology); Industry; Public Health and Safety; Water | The 2010 Flood Assessment identifies 58 locations impacted by severe flooding in 2010 and details infrastructure improvements proposed to mitigate impacts of flooding. This report identifies 58 locations that were compromised by the flooding. A geomorphic assessment was performed at each project location. The resulting flood damage was evaluated and potential impacts to habitat and any destabilized structures were also identified. General restoration measures and associated cost opinions were developed for each of the 58 sites for planning purposes. Six projects were recommended and work has been done on some of these. | Feasibility finalized, and finance partially secured | Local | USD US Dollar | 2000000 | 2000000 | 2000000 | http://www.vailgov.com/docs/dl_forms/FloodAssessmentReport_FINAL.pdf | 5434 | 2019 | {"type"=>"Point", "coordinates"=>[-106.374, 39.6403]} | 2021-07-16T02:13:47.203 |
| 3234 | 2020 | 43932 | Auckland Council | Auckland | New Zealand | Southeast Asia and Oceania | public | Flood and sea level rise > Flash / surface flood | Storm water capture systems | Resilient, enduring and integrated storm water solutions | Implementation | Infrastructure development; Monitor activities | Enhanced resilience | Building and Infrastructure; Public Health and Safety; Waste; Water | Delivery of Healthy Waters strategy and asset management planning to support growth, healthy waterways and safe communities. There is substantial investment in this work as business as usual but in light of climate change additional investment is required and being sought through our next 10 year budget. | Feasibility finalized, and finance partially secured | (Sub)national | NZD New Zealand Dollar | https://www.aucklandcouncil.govt.nz/environment/looking-after-aucklands-water/stormwater/docsassetmanagementplan/stormwater-asset-management-plan-summary-plan.pdf | 1618400 | 2018 | {"type"=>"Point", "coordinates"=>[174.742, -36.8153]} | 2021-07-16T02:13:47.203 | |||
| 3235 | 2020 | 840131 | Tiruchirappalli City Municipal Corporation | Tiruchirappalli | India | South and West Asia | public | INR Indian Rupee | 1045436 | 2020 | {"type"=>"Point", "coordinates"=>[78.68, 10.8]} | 2021-07-16T02:13:47.203 | ||||||||||||||
| 3236 | 2020 | 50381 | Municipio de Torreón | Torreón | Mexico | Latin America | public | Biological hazards > Water-borne disease | Water use audits | Operation | Two times per year analysis are performed to determine water arsenic levels | MXN Mexican Peso | 679288 | 2015 | {"type"=>"Point", "coordinates"=>[-103.407, 25.5428]} | 2021-07-16T02:13:47.203 | ||||||||||
| 3237 | 2020 | 35475 | City of Calgary | Calgary | Canada | North America | public | Biological hazards > Vector-borne disease | Community engagement/education | Natualization | Monitoring and reporting | Disaster Risk Reduction; Ecosystem preservation and biodiversity improvement; Enhanced climate change adaptation; Enhanced resilience; Greening the economy; Improved resource efficiency (e.g. food, water, energy); Reduced GHG emissions; Social community and labour improvements | Calgary's Biodiversity Strategy has been implemented. In the fall of 2016, The City of Calgary signed the Durban Commitment, becoming the third Canadian city, alongside the City of Edmonton and the City of Montreal to formally join an international program directed by Local Action for Biodiversity, a program representing local governments from across the world to improve biodiversity planning and management. This is also part of the climate adaptation - natural infrastructure program and is outlined in Calgary's 10-yearbiodiversity strategic plan, we aim to restore twenty per cent of Calgary’s open space by 2025. Naturalization is one of several tools we are using to achieve this target.Naturalization will increase the diversity of landscapes within our parks and green spaces. This will help control weeds, pests, and diseases; and also create sustainable landscapes that help support plant, animal and insect life (biodiversity). | Finance secured | Local | CAD Canadian Dollar | https://www.calgary.ca/CSPS/Parks/Pages/Planning-and-Operations/Naturalization-Initiative.aspx | 1285711 | 2019 | {"type"=>"Point", "coordinates"=>[-114.071, 51.0486]} | 2021-07-16T02:13:47.203 | |||||
| 3238 | 2020 | 74414 | Boulder County | Boulder County | United States of America | North America | public | Extreme Precipitation > Rain storm | Flood mapping | Updated flood plain maps | Operation | Assessment and evaluation activities; Development and implementation of action plan | Disaster preparedness; Disaster Risk Reduction; Enhanced climate change adaptation; Enhanced resilience; Improved public health; Resource conservation (e.g. soil, water) | Building and Infrastructure; Spatial Planning; Transport (Mobility) | After 2013 Flood, worked with State and FEMA to update flood plain maps | Finance secured | (Sub)national | USD US Dollar | https://www.bouldercounty.org/transportation/floodplain-mapping/ | 322226 | 2016 | {"type"=>"Point", "coordinates"=>[-105.5, 40.15]} | 2021-07-16T02:13:47.203 | |||
| 3239 | 2020 | 16581 | City of Seattle | Seattle | United States of America | North America | public | Flood and sea level rise > Flash / surface flood | Storm water capture systems | Green Stormwater Infrastructure | Implementation | Seattle is expanding green and grey stormwater detention capacity. | Local | USD US Dollar | 704352 | 2016 | {"type"=>"Point", "coordinates"=>[-122.332, 47.6062]} | 2021-07-16T02:13:47.203 | ||||||||
| 3240 | 2020 | 51079 | Guatemala City | Guatemala City | Guatemala | Latin America | public | Storm and wind > Tropical storm | Flood mapping | Identificación de zonas de inundación- Plan AVE | Scoping | Awareness raising program or campaign; Capacity building and training activities; Development and implementation of action plan | Disaster Risk Reduction | Spatial Planning | At the moment they are identifying the flood areas within the urban perimeter in order to create an action plan that allows strategies to use water and improve infrastructure. | GTQ Quetzal | 902522 | 2020 | {"type"=>"Point", "coordinates"=>[-90.5069, 14.6349]} | 2021-07-16T02:13:47.203 | ||||||
| 3241 | 2020 | 60318 | Prefeitura de Porto Velho | Porto Velho | Brazil | Latin America | public | Flood and sea level rise > Flash / surface flood | No action currently taken | BRL Brazilian Real | 494 | 2014 | {"type"=>"Point", "coordinates"=>[-40.3776, -20.3338]} | 2021-07-16T02:13:47.203 | ||||||||||||
| 3242 | 2020 | 35897 | Municipality of Campinas | Campinas | Brazil | Latin America | public | Wild fire > Land fire | Real time risk monitoring | Operação Estiagem | Operation | Development and implementation of action plan; Monitor activities; Stakeholder engagement | Disaster preparedness; Ecosystem preservation and biodiversity improvement; Enhanced resilience; Improved access to data for informed decision-making; Improved public health; Improved resource quality (e.g. air, water); Improved resource security (e.g. food, water, energy); Reduced GHG emissions; Resource conservation (e.g. soil, water); Shift to more sustainable behaviours | Public Health and Safety; Social Services | Monitoramento das queimadas através de parceria Defesa Civil, Secretaria do Verde, Meio Ambiente e Desenvolvimento Sustentável e Instituto de Pesquisas Espaciais, com o uso dos satélites deste último que reporta os locais de incidência de queimadas no município. Com base nestes dados é possível otimizar e planejar os trabalhos de campo.Não foi contabilizado custos do projeto visto que o monitoramento se dá através dos órgãos das duas esferas de governo (Federal e Municipal). | Finance secured | Other, please specify: Fontes federais e municipais. | BRL Brazilian Real | https://resiliente.campinas.sp.gov.br/ | 1204073 | 2019 | {"type"=>"Point", "coordinates"=>[-46.9372, -22.744]} | 2021-07-16T02:13:47.203 | |||
| 3243 | 2020 | 50540 | City of Albuquerque | United States of America | North America | public | Extreme hot temperature > Extreme hot days | Tree planting and/or creation of green space | City Tree Planting Efforts | Operation | Other, please specify: Removal of dead trees, active planting of suitable tree species to create new tree canopy in city | Reduced GHG emissions | Agriculture and Forestry | The City has an overarching goal of facilitating and encouraging the planting 100,000 trees across the city in the next 10 years. This goal involves multiple non-city partners, and it has no specific designated funding overall. The implementation of the large goal has begun but is still in it’s infancy; we are working with our partners on a branding effort planned to role out fall 2020. The City’s actual role in that will likely be largely informational and inspirational, as we have a limited capacity to site and plant that many trees on City-owned sites. The other is a more concrete goal of planting trees in public spaces this fiscal year using some specific funding that Parks and Recreation has now. The implementation of the FY21 goal has just begun, we are meeting next week to strategize how best to move that forward. Some of the funding available will need to be used for outreach efforts and much of it will be used to cover the cost of contracted tree planting. The FY21 effort should be seen as a subset of the 10-year goal. | Seeking funding | Public-private partnership | USD US Dollar | 300000 | 0 | 0 | no weblink yet | 560513 | 2019 | 2021-07-16T02:13:47.203 | ||
| 3244 | 2020 | 54478 | Gemeente Nijmegen | Nijmegen | Netherlands | Europe | public | Extreme hot temperature > Extreme hot days | Heat mapping and thermal imaging | Operation | Assessment and evaluation activities; Stakeholder engagement | Disaster Risk Reduction; Improved public health | Building and Infrastructure; Public Health and Safety; Spatial Planning | We have made several night heat stress maps together with our neighbour city Arnhem in our Future Cities project. We have recently made day heat stress maps and distance-to-coolness maps. Together with the local health organisation (GGD) and a national climate organisation (Klimaatverbond) we are working on action programmes especially on the field of haet stress for vulnerable groups (elderly people). | Feasibility undertaken | Local | EUR Euro | https://www.klimaatverbond.nl/nieuws/klimaatverbond-nederland-roept-gemeenten-op-om-in-2020-lokale-hitteplannen https://ggdgelderlandzuid.nl/professionals/milieu-en-gezondheid/maatregelen-bij-hitte/ | 179000 | 2019 | {"type"=>"Point", "coordinates"=>[5.84282, 51.8449]} | 2021-07-16T02:13:47.203 | ||||
| 3245 | 2020 | 35449 | Stadt Zürich | Zürich | Switzerland | Europe | public | Water Scarcity > Drought | Biodiversity monitoring | Monitoring of urban green areas and forest state. Plantation of drought-resilient species. | Operation | Assessment and evaluation activities; Awareness raising program or campaign; Capacity building and training activities; Education; Infrastructure development; Policy and regulation; Stakeholder engagement | Disaster preparedness; Disaster Risk Reduction; Ecosystem preservation and biodiversity improvement; Enhanced climate change adaptation; Enhanced resilience; Improved access to data for informed decision-making; Improved public health; Improved resource efficiency (e.g. food, water, energy); Improved resource quality (e.g. air, water) | Agriculture and Forestry; Building and Infrastructure; Fishery; Water | Finance secured | Local | CHF Swiss Franc | https://www.stadt-zuerich.ch/ted/de/index/gsz.html | 434008 | 2019 | {"type"=>"Point", "coordinates"=>[8.53918, 47.3686]} | 2021-07-16T02:13:47.203 | ||||
| 3246 | 2020 | 35885 | Tel Aviv-Yafo Municipality | Tel Aviv-Yafo | Israel | Middle East | public | Extreme hot temperature > Heat wave | Community engagement/education | Ensuring quality of life and health in a changing climatic environment | Pre-feasibility study/impact assessment | Awareness raising program or campaign; Capacity building and training activities; Education; Infrastructure development; Stakeholder engagement | - Expanding the deployment of drinking water facilities- Implementing a healthy lifestyle in a warm environment- Adapting the beaches of Tel Aviv-Yafo for warm and changing environment | Local | ILS New Israeli Shekel | 443940 | 2017 | {"type"=>"Point", "coordinates"=>[34.7823, 32.0816]} | 2021-07-16T02:13:47.203 | |||||||
| 3247 | 2020 | 839668 | Municipio de Iztapa | Guatemala | Latin America | public | Storm and wind > Tropical storm | Flood mapping | programa de asistencia agrícola , programa de alimentación para personas de escasos recursos económicos , con énfasis en la mujer y atención a las personas de la tercera edad -POA- , Plan de Accion Climatica Municipal PACMUN | Implementation | Stakeholder engagement | Enhanced resilience | Agriculture and Forestry; Fishery; Public Health and Safety; Waste; Water | Producto ente rector (marn) población de municipios priorizados y/o vulnerables que cuentan con información capacitación, normativa e instrumentos con estándares nacional e internacionales de gestión de riesgo y reducción de desastres en cumplimiento del marco legal. (se-conred) Intervención de la municipalidad: Capacitación y formación sobre medidas de resiliencia y adaptación al cambio climático. Asi también como reuniones, llamadas y convenios con las diferentes instituciones con las cuales se trabajo | Pre-feasibility/impact assessment study status | (Sub)national | GTQ Quetzal | 100000 | 100000 | 11917 | 2019 | 2021-07-16T02:13:47.203 | ||||
| 3248 | 2020 | 50680 | Município de Cascais | Cascais | Portugal | Europe | public | Flood and sea level rise > River flood | Public preparedness (including practice exercises/drills) | Greens Corridors and River Renaturalization | Other, please specify: Several actions included under Measure 5 in the Action Plan for Climate Change Adaptation in Cascais. These actions have different status: some are being implemented, others have been implemented and are currently being monitored. | Development and implementation of action plan | Disaster Risk Reduction; Enhanced climate change adaptation; Enhanced resilience | Water | This measure includes priority actions to maintain the river beds through cleaning the streams and monitoring barriers along the river course. Additionally, other actions focus on the need to naturalize rivers in order to delay the water speed and reduce flooding risks. | EUR Euro | https://ambiente.cascais.pt/sites/default/files/anexos/relatorio_adaptacao_final_low.pdf | 212474 | 2018 | {"type"=>"Point", "coordinates"=>[-9.42229, 38.697]} | 2021-07-16T02:13:47.203 | |||||
| 3249 | 2020 | 60229 | Municipality of Arendal | Arendal | Norway | Europe | public | Flood and sea level rise > Coastal flood | Incorporating climate change into long-term planning documents | Improved reciliense. | Operation | Infrastructure development; Stakeholder engagement | Enhanced resilience; Resource conservation (e.g. soil, water) | Building and Infrastructure; Spatial Planning | limited Access to build in risk areas. | Feasibility undertaken | Local | NOK Norwegian Krone | 44999 | 2019 | {"type"=>"Point", "coordinates"=>[8.77245, 58.4618]} | 2021-07-16T02:13:47.203 | ||||
| 3250 | 2020 | 54110 | City of Santa Monica | Santa Monica | United States of America | North America | public | Chemical change > Salt water intrusion | Sea level rise modelling | Sustainable Water Master Plan | Pre-implementation | Enhanced resilience; Improved resource efficiency (e.g. food, water, energy); Improved resource quality (e.g. air, water); Improved resource security (e.g. food, water, energy) | Integrate climate change projections into Sustainable Yield Analysis | Feasibility undertaken | USD US Dollar | 91411 | 2018 | {"type"=>"Point", "coordinates"=>[-118.481, 34.0219]} | 2021-07-16T02:13:47.203 |
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This data is collected through the CDP-ICLEI Unified Reporting System. When using this data, please cite both organisations using the following wording: ‘This data was collected in partnership by CDP and ICLEI - Local Governments for Sustainability’.
The dataset contains all public data on cities' adaptation actions as reported by cities in 2020. View cities questionnaire guidance https://www.cdp.net/en/guidance/guidance-for-cities. Please contact cities@cdp.net if you have any questions.
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