Go back to the interactive dataset
2015 - Cities Emissions Reduction Targets
| Row number | Organization | Account No | Country | City Short Name | C40 | Reporting Year | Baseline Year | Baseline Emissions (metric tonnes CO2e) | Percentage Reduction Target | Relevant GHG Sources | Target Date | Target Description | GHG sources to which the target applies | Comment | Target Date Category | City Location | Country Location |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 101 | Glasgow City Council | 31055 | United Kingdom | Glasgow | 2015 | 2006 | 39873000 | 30.00 | 2020 | Short term | (55.859272°, -4.212783°) | (55.378051°, -3.435973°) | |||||
| 102 | City of Aspen and Pitkin County | 52897 | USA | Aspen and Pitkin County | 2015 | 2004 | 762829 | 30.00 | Scope 1 Scope 2 Scope 3 | 2020 | Scope 1 Scope 2 Scope 3 | Short term | (39.195°, -106.837°) | (37.09024°, -95.712891°) | |||
| 103 | New York City | 3417 | USA | New York | C40 | 2015 | 2006 | 59180000 | 30.00 | Buildings and streetlights Fugitive Emissions Transportation | 2030 | NEW YORK—Mayor de Blasio announced today that New York City is committing to reducing its greenhouse gas emissions by 80 percent over 2005 levels by 2050, starting with One City, Built to Last: Transforming New York City’s Buildings for a Low-Carbon Future – a sweeping plan to retrofit public and private buildings to dramatically reduce the city’s contributions to climate change, while spurring major cost savings and creating thousands of new jobs for New Yorkers who most need them. This makes New York the largest city to commit to the 80 percent reduction by 2050, and charts a long-term path for investment in renewable sources of energy and a total transition from fossil fuels. Nearly three quarters of New York City’s greenhouse gas emissions come from energy used to heat, cool, and power buildings, making building retrofits a central component of any plan to dramatically reduce emissions. The City is poised to make direct investments to increase the efficiency of its public buildings, including schools and public housing, reducing the government’s contribution to climate change and generating operational savings for New York City taxpayers. Every single city-owned building with any significant energy use – approximately 3,000 buildings – will be retrofitted within the next ten years, by 2025, with interim goals along the way. | Buildings and streetlights Fugitive Emissions Transportation | NEW YORK—Mayor de Blasio announced today that New York City is committing to reducing its greenhouse gas emissions by 80 percent over 2005 levels by 2050, starting with One City, Built to Last: Transforming New York City’s Buildings for a Low-Carbon Future – a sweeping plan to retrofit public and private buildings to dramatically reduce the city’s contributions to climate change, while spurring major cost savings and creating thousands of new jobs for New Yorkers who most need them. This makes New York the largest city to commit to the 80 percent reduction by 2050, and charts a long-term path for investment in renewable sources of energy and a total transition from fossil fuels. Nearly three quarters of New York City’s greenhouse gas emissions come from energy used to heat, cool, and power buildings, making building retrofits a central component of any plan to dramatically reduce emissions. The City is poised to make direct investments to increase the efficiency of its public buildings, including schools and public housing, reducing the government’s contribution to climate change and generating operational savings for New York City taxpayers. Every single city-owned building with any significant energy use – approximately 3,000 buildings – will be retrofitted within the next ten years, by 2025, with interim goals along the way. | Short term | (40.7127837°, -74.0059413°) | (37.09024°, -95.712891°) |
| 104 | City of Minneapolis | 35879 | USA | Minneapolis | 2015 | 2006 | 5700000 | 30.00 | scope 1, scope 2 and some scope 3 | 2020 | scope 1, scope 2 and some scope 3 | 2025 target date | Short term | (44.983334°, -93.26667°) | (37.09024°, -95.712891°) | ||
| 105 | City of Victoria | 50571 | Canada | Victoria | 2015 | 2007 | 370167 | 33.00 | All community scope 1 and 2 emissions from buildings, transportation and solid waste | 2020 | The CIty of Victoria's Community Energy and EMissions Plan (CEEP) outlines the various strategies across the sectors of buildings, transportation and waste, and the reductions required by each strategy in order to achieve the community GHG reduction target of 33% by 2020. | All community scope 1 and 2 emissions from buildings, transportation and solid waste | The CIty of Victoria's Community Energy and EMissions Plan (CEEP) outlines the various strategies across the sectors of buildings, transportation and waste, and the reductions required by each strategy in order to achieve the community GHG reduction target of 33% by 2020. | Short term | (48.4284207°, -123.3656444°) | (56.130366°, -106.346771°) | |
| 106 | City of Vancouver | 20113 | Canada | Vancouver | C40 | 2015 | 2007 | 2805000 | 33.00 | All buildings, transportation and solid waste from the community | 2020 | See the Greenest City Action Plan for details. Baseline was calculated in 2014 due to change in GWP of CH4 per IPCC AR4 (2007). | All buildings, transportation and solid waste from the community | See the Greenest City Action Plan for details. Baseline was calculated in 2014 due to change in GWP of CH4 per IPCC AR4 (2007). | Short term | (49.261226°, -123.1139268°) | (56.130366°, -106.346771°) |
| 107 | Hongcheon county | 51105 | South Korea | Hongcheon-gun | 2015 | 2013 | 1143582 | 33.00 | Transportation | 2020 | Transportation | Short term | (37.696952°, 127.888683°) | (35.907757°, 127.766922°) | |||
| 108 | City of Lahti | 54402 | Finland | Lahti | 2015 | 1990 | 747000 | 35.00 | Energy production (electricity and heating) Waste treatment Residents's attitudes | 2020 | In the City strategy: -50% by 2015 (from 1990 level) | Energy production (electricity and heating) Waste treatment Residents's attitudes | In the City strategy: -50% by 2015 (from 1990 level) | Short term | (60.9833°, 25.65°) | (61.92411°, 25.748151°) | |
| 109 | City of Reykjavík | 54459 | Iceland | Reykjavik | 2015 | 2007 | 339990 | 35.00 | Transportation, land use and waste | 2020 | Transportation, land use and waste | Short term | (64.12652°, -21.81744°) | (64.963051°, -19.020835°) | |||
| 110 | Ayuntamiento de Madrid | 31171 | Spain | Madrid | C40 | 2015 | 2005 | 11527000 | 35.00 | Total | 2020 | Total | Short term | (40.1076253°, -3.3875673°) | (40.463667°, -3.74922°) | ||
| 111 | City of Hiroshima | 49386 | Japan | Hiroshima | 2015 | 1990 | 8525221 | 70.00 | 産業部門、運輸部門、家庭部門、業務部門 | 2050 | 産業部門、運輸部門、家庭部門、業務部門 | Long term | (34.3852029°, 132.4552927°) | (36.204824°, 138.252924°) | |||
| 112 | New York City | 3417 | USA | New York | C40 | 2015 | 2006 | 59180000 | 35.00 | Buildings and streetlights Fugitive Emissions Transportation | 2025 | NEW YORK—Mayor de Blasio announced today that New York City is committing to reducing its greenhouse gas emissions by 80 percent over 2005 levels by 2050, starting with One City, Built to Last: Transforming New York City’s Buildings for a Low-Carbon Future – a sweeping plan to retrofit public and private buildings to dramatically reduce the city’s contributions to climate change, while spurring major cost savings and creating thousands of new jobs for New Yorkers who most need them. This makes New York the largest city to commit to the 80 percent reduction by 2050, and charts a long-term path for investment in renewable sources of energy and a total transition from fossil fuels. Nearly three quarters of New York City’s greenhouse gas emissions come from energy used to heat, cool, and power buildings, making building retrofits a central component of any plan to dramatically reduce emissions. The City is poised to make direct investments to increase the efficiency of its public buildings, including schools and public housing, reducing the government’s contribution to climate change and generating operational savings for New York City taxpayers. Every single city-owned building with any significant energy use – approximately 3,000 buildings – will be retrofitted within the next ten years, by 2025, with interim goals along the way. | Buildings and streetlights Fugitive Emissions Transportation | Global climate change is the challenge of our generation. The stakes are high—for New Yorkers and for the world. In the coming years, New York City will face rising sea levels, increased temperatures and heat waves, and an increasing frequency of the most intense storms. These risks are not remote nor distant. They are here today. The damage caused by Hurricane Sandy in 2012 provided vivid evidence of these risks. Almost two years later, we are still recovering. Globally, climate change is having a devastating impact on people’s lives as rising sea levels flood coastlines, droughts disrupt livelihoods, and storms, hurricanes, and other extreme weather events threaten security and economic development. For this reason, New York City is committed to reducing its greenhouse gas (GHG) emissions by 80 percent by 2050—the level the United Nations projects is needed to avoid the most dangerous impacts of climate change—and will chart a long-term course for a total transition away from fossil fuels to renewable sources of energy. We have developed an action plan for our buildings sector to reach a 35% energy reduction by 2025. | Short term | (40.7127837°, -74.0059413°) | (37.09024°, -95.712891°) |
| 113 | City of Oakland | 50560 | USA | Oakland | 2015 | 2005 | 1988265 | 36.00 | Transportation & Land Use Energy Use Material Consumption & Waste | 2020 | Transportation & Land Use Energy Use Material Consumption & Waste | Short term | (37.8044°, -122.2708°) | (37.09024°, -95.712891°) | |||
| 114 | City of Helsinki | 8242 | Finland | Helsinki | 2015 | 1990 | 3615000 | 39.00 | Energy consumption in the area, transport emissions, waste management, agriculture, industry | 2030 | City Council Strategy 2013-2016 | per capita emissions based on energy consumption, transport and waste management | Climate strategy for the metropolitan area. Target achieved in 2014. | Short term | (60.1733244°, 24.9410248°) | (61.92411°, 25.748151°) | |
| 115 | District of Columbia | 31090 | USA | Washington DC | C40 | 2015 | 2006 | 10101168 | 50.00 | Building energy use (residential, commercial, government), transportation (VMTs), solid waste, transit. | 2030 | Building energy use (residential, commercial, government), transportation (VMTs), solid waste, transit. | 2032 | Short term | (38.9071923°, -77.0368707°) | (37.09024°, -95.712891°) | |
| 116 | City of Lakewood | 54075 | USA | Lakewood | 2015 | 2007 | 2646593 | 50.00 | All | 2050 | All | Long term | (39.7047°, -105.0814°) | (37.09024°, -95.712891°) | |||
| 117 | City of Eugene | 54070 | USA | Eugene | 2015 | 2010 | 1884651 | 50.00 | Gasoline, Diesel, Natural Gas, Electricity | 2030 | Goal does not speak to the exact emission sources targeted, but these are the primary sources called out in the 2005 inventory - so would be the assummed target GHGs | In boundary fossil fuel use: Gasoline, Diesel, Natural Gas | Goal is silent on which fossil fuels. This could apply to aviation fuel as well, but the target is focused on community use. | Short term | (44.0519°, -123.0867°) | (37.09024°, -95.712891°) | |
| 118 | Comune di Venezia | 36254 | Italy | Venice | C40 | 2015 | 2005 | 381340 | 39.20 | Tertiary (non municipal) buildings, equipment/facilities | 2020 | SEAP action "free-01 - extimated CO2 reduction by 2020: 1072t" SEAP action "free-02 - extimated CO2 reduction by 2020: 292t" SEAP action "free-06 - extimated CO2 reduction by 2020: 997t" SEAP action "free-07 - extimated CO2 reduction by 2020: 22946t" SEAP action "free-08 - extimated CO2 reduction by 2020: 4347t" SEAP action "free-09 - extimated CO2 reduction by 2020: 97t" SEAP action "free-10 - extimated CO2 reduction by 2020: 772t" SEAP action "free-11 - extimated CO2 reduction by 2020: 132t" SEAP action "free-12 -extimated CO2 reduction by 2020: 166t" SEAP action "free-13 - extimated CO2 reduction by 2020: 477t" SEAP action "free-14 [1/2]- extimated CO2 reduction by 2020: 13702t" SEAP action "free-15 - extimated CO2 reduction by 2020: 3941t" SEAP action "free-16 - extimated CO2 reduction by 2020: 19020t" SEAP action "free-17 - extimated CO2 reduction by 2020: 168t" SEAP action "pure-03 - extimated CO2 reduction by 2020: 38238t" total extimated CO2 reduction by 2020: 106367t" | Private and Commercial Transport | SEAP action "move-01 - extimated CO2 reduction by 2020: 17022t" SEAP action "move-02 - extimated CO2 reduction by 2020: 7081t" SEAP action "move-03 - extimated CO2 reduction by 2020: 3559t" SEAP action "move-04 - extimated CO2 reduction by 2020: 62t" SEAP action "move-05 - extimated CO2 reduction by 2020: 3418t" SEAP action "move-06 - extimated CO2 reduction by 2020: 18844t" SEAP action "move-07 - extimated CO2 reduction by 2020: 2431t" SEAP action "move-08 - extimated CO2 reduction by 2020: 96412t" SEAP action "move-09 - extimated CO2 reduction by 2020: 600t" SEAP action "move-10 - extimated CO2 reduction by 2020: 37t" SEAP action "move-14 - extimated CO2 reduction by 2020: 68t" total extimated CO2 reduction by 2020: 149534t" | Short term | (45.4332515°, 12.3210704°) | (41.87194°, 12.56738°) |
| 119 | Canberra | 43928 | Australia | Canberra | 2015 | 1990 | 3185500 | 40.00 | all | 2020 | Baseline emissions subject to change should in event of methodology change | all | Baseline emissions subject to change should in event of methodology change | Short term | (-35.3075°, 149.1244°) | (-25.274398°, 133.775136°) | |
| 120 | Gobierno Municipal de León de los Aldamas | 50359 | Mexico | León de los Aldamas | 2015 | 2013 | 5012133 | 40.00 | Energía. | 2050 | Meta incluida dentro del Programa Municipal de Cambio Climático del Municipio de León. | Energía, Transporte, Residuos, Aguas Residuales domésticas e industriales, Residencial, Comercial, Agropecuario e industrial. | Meta incluida dentro del Programa Municipal de Cambio Climático del Municipio de León. La meta de reducción del 40% de las emisiones de GEI en el municipio de León estan pensadas a un peridodo de 40 años correspondientes a la publicación del PMCC | Long term | (21.132751°, -101.678184°) | (23.634501°, -102.552784°) | |
| 121 | City of Amsterdam | 31148 | Netherlands | Amsterdam | C40 | 2015 | 1990 | 4134000 | 40.00 | citizens, companies, transport, own organisation | 2025 | citizens, companies, transport, own organisation | Short term | (52.3702157°, 4.8951679°) | (52.132633°, 5.291266°) | ||
| 122 | Suwon city | 44185 | South Korea | Suwon | 2015 | 2005 | 601495 | 40.00 | Suwon total emissions | 2030 | Suwon total emissions | Short term | (37.2635727°, 127.0286009°) | (35.907757°, 127.766922°) | |||
| 123 | City of San Francisco | 31182 | USA | San Francisco | C40 | 2015 | 1990 | 6201949 | 40.00 | Residential, Commercial/Industrial, Transportation, Waste. | 2025 | The City of San Francisco has completed a third party emissions verification during January 2015. The City has met it's year 2012 emission reduction target by reducing it's community-wide emissions approximately 23.3% below 1990 levels. | Residential, Commercial/Industrial, Transportation, Waste. | Short term | (37.7749295°, -122.4194155°) | (37.09024°, -95.712891°) | |
| 124 | City of Cleveland | 35859 | USA | Cleveland | 2015 | 2010 | 12791996 | 40.00 | All sources included in GHG inventory | 2030 | The anticipated emissions reductions in 6.1 are for annual emission reductions in the year 2030. These are not cumulative emission reductions up to 2030. | All sources included in GHG inventory | The anticipated emissions reductions in 6.1 are for annual emission reductions in the year 2030. These are not cumulative emission reductions up to 2030. | Short term | (41.49932°, -81.6943605°) | (37.09024°, -95.712891°) | |
| 125 | Prefeitura de Florianópolis | 50384 | Brazil | Florianópolis | 2015 | 2013 | 2099020 | 42.00 | agriculture, livestock, residential and services, waste, transport, transverse | 2020 | low carbon agriculture, implementation of green infrastructure, reduction in energy, consumption, sanitation, reducing fuel consumption | agriculture, livestock, residential and services, waste, transport, transverse | low carbon agriculture, implementation of green infrastructure, reduction in energy, consumption, sanitation, reducing fuel consumption | Short term | (-27.5949884°, -48.5481743°) | (-14.235004°, -51.92528°) | |
| 126 | City of Porto | 46514 | Portugal | Porto | 2015 | 2004 | 1300000 | 45.00 | Community emissions | 2020 | Sustainable Energy Action Plan reduction target. Reductions from action at a local level (demand management) and national level (supply management). | Community emissions | Sustainable Energy Action Plan reduction target. Reductions from action at a local level (demand management) and national level (supply management). | Short term | (41.1579438°, -8.6291053°) | (39.399872°, -8.224454°) | |
| 127 | City of Los Angeles | 10894 | USA | Los Angeles | C40 | 2015 | 1990 | 54100000 | 45.00 | All | 2025 | 1990 baseline subject to revision to align with forthcoming national GHG accounting protocols. | All | 1990 baseline subject to revision to align with forthcoming national GHG accounting protocols. | Short term | (34.0522342°, -118.2436849°) | (37.09024°, -95.712891°) |
| 128 | Greater Manchester | 35898 | United Kingdom | Manchester | 2015 | 1990 | 21200 | 48.00 | Direct emissions from road transport and rail, and domestic and indistrial emissions from electricity (end user) gas, oil and solid fuels, as well as emissions from land use, land use change, and forestry | 2020 | See climate change implementation plan (attached for detailed actions. | Direct emissions from road transport and rail, and domestic and indistrial emissions from electricity (end user) gas, oil and solid fuels, as well as emissions from land use, land use change, and forestry | See climate change implementation plan (attached for detailed actions. | Short term | (53.4575955°, -2.1578377°) | (55.378051°, -3.435973°) | |
| 129 | City of Oslo | 14088 | Norway | Oslo | C40 | 2015 | 1991 | 1200000 | 50.00 | CO2, CH4, N2O, | 2030 | CO2, CH4, N2O, | Short term | (59.9138688°, 10.7522454°) | (60.472024°, 8.468946°) | ||
| 130 | City of Leicester | 54529 | United Kingdom | Leicester | 2015 | 1990 | 2388300 | 50.00 | 2025 | Short term | (52.6333°, -1.1333°) | (55.378051°, -3.435973°) | |||||
| 131 | Government of Hong Kong Special Administrative Region | 31169 | Hong Kong | Hong Kong | C40 | 2015 | 2005 | 42000000 | 55.00 | Energy (Electricity Generation, Transport, Other end use of fuel); Waste; Industrial Processes and Product Use; Agriculture, Forestry and Other Land Use | 2020 | Hong Kong has set out a carbon intensity reduction target of 50% - 60% by 2020 as compared with 2005 level. If the target is achieved, our carbon intensity level will be reduced to 0.012 - 0.015 kg CO2-e/HK dollar GDP in 2020. Hong Kong has been working with the international community in combating climate change. Alongside other member economies of the Asia-Pacific Economic Co-operation (APEC), Hong Kong adopted the 2011 APEC Leaders' Declaration, and is committed to achieving the APEC target to reduce energy intensity by at least 45% before 2035 (with 2005 as the base year). In May 2015, Hong Kong set a new target on energy intensity reduction by 40% by 2025 using 2005 as the base. | CO2 | Hong Kong has set out a carbon intensity reduction target of 50% - 60% by 2020 as compared with 2005 level. If the target is achieved, our carbon intensity level will be reduced to 0.012 - 0.015 kg CO2-e/HK dollar GDP in 2020. The GHG emissions level in Hong Kong is also expected to reduce from 42 million tonnes in 2005 to 28 to 34 million tonnes in 2020. Also, Hong Kong has been working with the international community in combating climate change. Alongside other member economies of the Asia-Pacific Economic Co-operation (APEC), Hong Kong adopted the 2011 APEC Leaders' Declaration, and is committed to achieving the APEC target to reduce energy intensity by at least 45% before 2035 (with 2005 as the base year). | Short term | (22.2880809°, 114.1398015°) | (22.396428°, 114.109497°) |
| 132 | Stadt Zürich | 35449 | Switzerland | Zurich | 2015 | 2005 | 2012808 | 55.00 | Baseline emissions: 5.5 tonnes CO2e per person per year (in the year 2005); according to 2000-Watt-methodology | 2035 | The baseline emission and the target emission are measured in tonnes CO2e per person per year. Target for 2050: 1.0 tonnes CO2e per person (18% of 2005) Target for 2035: 2.5 tonnes CO2e per person (45% of 2005) Target for 2020: 4.0 tonnes CO2e per person (72% of 2005) | All | Short term | (47.3686498°, 8.5391825°) | (46.818188°, 8.227512°) | ||
| 133 | Taipei City Government | 31446 | Taiwan | Taipei | 2015 | 1990 | 10362700 | 60.00 | Taipei City | 2050 | Taipei City | estimated emission for 1990 | Long term | (25.037525°, 121.563782°) | (23.69781°, 120.960515°) | ||
| 134 | Greater London Authority | 3422 | United Kingdom | London | C40 | 2015 | 1990 | 45000000 | 60.00 | CO2 | 2025 | Interim targets are also in place for 2015 and 2020 | CO2 | Interim targets are also in place for 2015 and 2020 | Short term | (51.504858°, -0.078689°) | (55.378051°, -3.435973°) |
| 135 | City of Sydney | 31114 | Australia | Sydney | C40 | 2015 | 2006 | 52972 | 70.00 | Scope1-2 | 2030 | Cities have a critical role in reducing greenhouse gas emissions because although they cover only two per cent of the Earth’s land surface, they have more than 50 per cent of the population and cause 75 per cent of the world’s emissions. The City is working to reduce carbon emissions by 70 per cent by 2030, one of the most ambitious targets set by any government in Australia. We are: • installing energy efficient street and park lights • rolling out Australia’s largest building-mounted solar panel project • carrying out energy efficient retrofits of major buildings • reducing emissions and energy bills through energy efficiency programs • reducing emissions and energy bills through energy efficiency programs For more on the City’s plans visit www.cityofsydney.nsw.gov.au | Scope1-2 | Cities have a critical role in reducing greenhouse gas emissions because although they cover only two per cent of the Earth’s land surface, they have more than 50 per cent of the population and cause 75 per cent of the world’s emissions. The City is working to reduce carbon emissions by 70 per cent by 2030, one of the most ambitious targets set by any government in Australia. We are: • installing energy efficient street and park lights • rolling out Australia’s largest building-mounted solar panel project • carrying out energy efficient retrofits of major buildings • reducing emissions and energy bills through energy efficiency programs • reducing emissions and energy bills through energy efficiency programs For more on the City’s plans visit www.cityofsydney.nsw.gov.au | Short term | (-33.8674869°, 151.2069902°) | (-25.274398°, 133.775136°) |
| 136 | City of Eugene | 54070 | USA | Eugene | 2015 | 1990 | 911965 | 75.00 | Gasoline, Diesel, Natural Gas, Electricity | 2050 | Goal does not speak to the exact emission sources targeted, but these are the primary sources called out in the 2005 inventory - so would be the assummed target GHGs | Gasoline, Diesel, Natural Gas, Electricity | Goal does not speak to the exact emission sources targeted, but these are the primary sources called out in the 2005 inventory - so would be the assummed target GHGs | Long term | (44.0519°, -123.0867°) | (37.09024°, -95.712891°) | |
| 137 | City of Arlington, VA | 55799 | USA | Arlington | 2015 | 2007 | 13400000 | 76.00 | Community | 2050 | Arlington's community GHG emissions reduction target is to reach 3.0 metric tonnes CO2e per capita by 2050, from a 2007 baseline of 13.4. | Community | Arlington's community GHG emissions reduction target is to reach 3.0 metric tonnes CO2e per capita by 2050, from a 2007 baseline of 13.4. | Long term | (32.705°, -97.1228°) | (37.09024°, -95.712891°) | |
| 138 | Canberra | 43928 | Australia | Canberra | 2015 | 1990 | 3185500 | 80.00 | all | 2050 | Baseline emissions subject to change should in event of methodology change | all | Baseline emissions subject to change should in event of methodology change | Long term | (-35.3075°, 149.1244°) | (-25.274398°, 133.775136°) | |
| 139 | City of Toronto | 31117 | Canada | Toronto | C40 | 2015 | 1990 | 27051617 | 80.00 | Applies to all Toronto (community) electricity, natural gas, transportation and solid waste emissions | 2050 | 6% by 2012 and 30% by 2020 below 1990 levels for the urban area; we also baselined 2004 due to inherent inadequacy of some of the 1990 data. | Applies to all Toronto (community) electricity, natural gas, transportation and solid waste emissions | 6% by 2012 and 30% by 2020 below 1990 levels for the urban area; we also baselined 2004 due to inherent inadequacy of some of the 1990 data. | Long term | (43.653226°, -79.3831843°) | (56.130366°, -106.346771°) |
| 140 | Halifax Regional Municipality | 50543 | Canada | Halifax | 2015 | 2002 | 6775289 | 80.00 | Electricity, Natural Gas, Fuel Oil, DIesel, Gasoline, Waste | 2050 | World Energy Cities Calgary CLimate Accord | World Energy Cities Calgary CLimate Accord | Long term | (44.6478°, -63.5714°) | (56.130366°, -106.346771°) | ||
| 141 | Free and Hanseatic City of Hamburg | 35868 | Germany | Hamburg | 2015 | 1990 | 20727000 | 80.00 | CO2 | 2050 | CO2 | Long term | (53.5510846°, 9.9936818°) | (51.165691°, 10.451526°) | |||
| 142 | Comune di Bolzano | 36261 | Italy | Bolzano | 2015 | 2012 | 1000000 | 80.00 | 2030 | Short term | (46.499681°, 11.356576°) | (41.87194°, 12.56738°) | |||||
| 143 | City of Yokohama | 31113 | Japan | Yokohama | C40 | 2015 | 2005 | 19540000 | 80.00 | all of greenhouse gas | 2050 | all of greenhouse gas | Long term | (35.4437078°, 139.6380256°) | (36.204824°, 138.252924°) | ||
| 144 | City of Santa Monica | 54110 | USA | Santa Monica | 2015 | 1990 | 924293 | 80.00 | Residential, Commercial, Industrial - electricity & natural gas; Transportation; Solid Waste | 2050 | Residential, Commercial, Industrial - electricity & natural gas; Transportation; Solid Waste | Long term | (34.0219°, -118.4814°) | (37.09024°, -95.712891°) | |||
| 145 | City of Richmond | 49334 | USA | Richmond | 2015 | 2008 | 3377616 | 80.00 | Total - Scope 1,2,3 | 2050 | 1.8% annually | Total - Scope 1,2,3 | 1.8% annually | Long term | (37.540725°, -77.436048°) | (37.09024°, -95.712891°) | |
| 146 | City of San Francisco | 31182 | USA | San Francisco | C40 | 2015 | 1990 | 6201949 | 80.00 | Residential, Commercial/Industrial, Transportation, Waste. | 2050 | The City of San Francisco has completed a third party emissions verification during January 2015. The City has met it's year 2012 emission reduction target by reducing it's community-wide emissions approximately 23.3% below 1990 levels. | Residential, Commercial/Industrial, Transportation, Waste. | Long term | (37.7749295°, -122.4194155°) | (37.09024°, -95.712891°) | |
| 147 | District of Columbia | 31090 | USA | Washington DC | C40 | 2015 | 2006 | 10101168 | 80.00 | Building energy use (residential, commercial, government), transportation (VMTs), solid waste, transit. | 2050 | Building energy use (residential, commercial, government), transportation (VMTs), solid waste, transit. | 2050 | Long term | (38.9071923°, -77.0368707°) | (37.09024°, -95.712891°) | |
| 148 | City of Aspen and Pitkin County | 52897 | USA | Aspen and Pitkin County | 2015 | 2004 | 762829 | 80.00 | Scope 1 Scope 2 Scope 3 | 2050 | Scope 1 Scope 2 Scope 3 | Long term | (39.195°, -106.837°) | (37.09024°, -95.712891°) | |||
| 149 | City of Boulder | 54104 | USA | Boulder | 2015 | 2005 | 1991998 | 80.00 | Electricity, natural gas, transportation, landfill | 2050 | Electricity, natural gas, transportation, landfill | Long term | (40.0274°, -105.2519°) | (37.09024°, -95.712891°) | |||
| 150 | City of Cleveland | 35859 | USA | Cleveland | 2015 | 2010 | 12791996 | 80.00 | All sources included in GHG inventory | 2050 | The anticipated emissions reductions in 6.1 are for annual emission reductions in the year 2030. These are not cumulative emission reductions up to 2030. | All sources included in GHG inventory | The anticipated emissions reductions in 6.1 are for annual emission reductions in the year 2030. These are not cumulative emission reductions up to 2030. | Long term | (41.49932°, -81.6943605°) | (37.09024°, -95.712891°) |
About
This information is now on Primer
All the information that is in this pane, and more, is now on Primer, in a more consumable and user friendly format. You can also edit metadata from this page.
Take me there!
Description
Emissions reduction targets for all reporting cities in 2015. Includes baseline emissions, baseline year, percentage reduction target, and other details. Some cities report multiple targets.
Activity
- Community Rating
-
Current value: 0 out of 5
- Raters
- 0
- Visits
- 653
- Downloads
- 249
- Comments
- 0
- Contributors
- 0
Meta
- Category
- Emissions
- Permissions
- Public
- Tags
- 2015, ghg emissions, cities, decarbonization
- Row Label
- Row
- SODA2 Only
- Yes
Licensing and Attribution
- Data Provided By
- CDP
- Source Link
- http://www.cdp.net
License Type
- License Type
- CDP Open Database License
