Sentences with phrase «dioxide emission mitigation»

Long - term climate implications of twenty - first century options for carbon dioxide emission mitigation.

Given the global economic implications of carbon dioxide emission mitigation and the fact that geopolitical strategising tends not to be shared with the public at large, it seems inevitable that any attempt to answer your question will be denounced as a conspiracy theory.

Lacking improvements in fuel efficiency combined with a comprehensive mitigation policy, the report finds that transport emissions could double by 2050 from 6.7 gigatons of emitted carbon dioxide in 2010, which represents 22 percent of the world's total.

The targets for lower emissions of carbon dioxide from Europe's basic industries are out of reach, without urgent introduction of innovative carbon dioxide mitigation technologies.

He points to mitigation efforts discussed at Copenhagen, such as REDD (reduced emissions from forest deforestation and forest degradation), which would encourage forest preservation, thereby both helping to put the brakes on carbon dioxide levels and providing more room for many species to move — a plan he calls a «win - win situation.»

If we embark on a path that is equivalent to setting emissions to zero now (say by having a period of negative emissions in the 2035 to 2050 time frame), and call the sequestration we accomplish mitigation then mitigation can arrest climate change, make adaptation unneeded and bring us to a safe concentration of carbon dioxide in the atmosphere as Hansen has pointed out.

This is now possible thanks to the recently published major carbon producers analysis by Richard Heede of the Climate Mitigation Service, Tracing anthropogenic carbon dioxide and methane emissions to fossil fuel and cement producers, 1854 - 2010.

His work has shown that limiting cumulative emissions of carbon dioxide may be a more robust approach to climate change mitigation policy than attempting to define a «safe» stabilization level for atmospheric greenhouse gases.

The committee said it would be «irrational and irresponsible» to implement sustained albedo modification without also pursuing emissions mitigation, carbon dioxide removal, or both.

«As a society, we need to better understand the potential cost and performance of CDR strategies for the same reason that we need to better understand the cost and performance of emission mitigation strategies — they may be important parts of a portfolio of options to stabilize and reduce atmospheric concentrations of carbon dioxide»

The accurate monitoring and reporting of carbon dioxide and other greenhouse gases is essential for countries participating in climate mitigation schemes, such as reduced emissions from deforestation and degradation (REDD +)-- a scheme that pays developing countries for the carbon stored in trees and soils.

It holds that countries that historically caused the recent atmospheric carbon dioxide build - up must lead in cutting their emissions, while helping developing countries eventually do likewise, by pouring trillions of dollars in cash and free technology into the Green Climate Fund for supposed climate change adaptation, mitigation and compensation.

Moreover, in a new publication, Opportunities to Enhance Non-Carbon Dioxide Greenhouse Gas Mitigation in China, WRI researchers find that these emissions could nearly double by 2030 (relative to 2005 levels) if China doesn't take additional measures to curb them.

Mitigation scenarios that achieve the ambitious targets included in the Paris Agreement typically rely on greenhouse gas emission reductions combined with net carbon dioxide removal (CDR) from the...

C40 Cities Climate Leadership Group, 12 California, 7, 68, 102, 128, 169 - 170, 187, 196, 232 - 234, 245 California Energy Commission, 232 Cambridge Media Environment Programme (CMEP), 167 - 168 Cambridge University, 102 Cameron, David, 11, 24, 218 Cameroon, 25 Campbell, Philip, 165 Canada, 22, 32, 64, 111, 115, 130, 134, 137, 156 - 157, 166, 169, 177, 211, 222, 224 - 226, 230, 236, 243 Canadian Meteorological and Oceanographic Society (CMOS), 15 Cap - and - trade, 20, 28, 40 - 41, 44, 170, 175 allowances (permits), 41 - 42, 176, 243 Capitalism, 34 - 35, 45 Capps, Lois, 135 Car (see vehicle) Carbon, 98, 130 Carbon Capture and Storage (CCS), 192 Carbon Capture and Storage Association, 164 Carbon credits (offsets), 28 - 29, 42 - 43, 45 Carbon Cycle, 80 - 82 Carbon dioxide (CO2), 9, 18, 23, 49 - 51, 53, 55, 66 - 67, 72 - 89, 91, 98 - 99, 110, 112, 115, 118, 128 - 132, 137, 139, 141 - 144, 152, 240 emissions, 12, 18 - 25, 28 - 30, 32 - 33, 36 - 38, 41 - 44, 47, 49, 53, 55, 71 - 72, 74, 77 - 78, 81 - 82, 108 - 109, 115, 132, 139, 169, 186, 199 - 201, 203 - 204, 209 - 211, 214, 217, 219, 224, 230 - 231, 238, 241, 243 - 244 Carbon Dioxide Analysis Center, 19 Carbon Expo, 42 Carbon, footprint, 3, 13, 29, 35, 41, 45, 110, 132 tax, 20, 44, 170 trading, 13, 20, 40, 43, 44, 176, 182 Carbon monoxide (CO), 120 Carbon Reduction Commitment (CRC), 44 Carlin, George, 17 Carter, Bob, 63 Carter, Jimmy, 186, 188 Cato Institute, 179 CBS, 141, 146 Center for Disease Control, 174 Center for the Study of Carbon Dioxide and Global Change, 62, 139 Centre for Policy Studies, 219 CERN (European Organization for Nuclear Research), 96 Chavez, Hugo, 34 Chicago Tribune, 146 China, 29, 32 - 33, 60 - 62, 120, 169, 176, 187 - 188, 211, 216, 225 - 226, 242 - 243 China's National Population and Planning Commission, 33 Chinese Academy of Sciences, 60 Chirac, Jacques, 36 Chlorofluorocarbons, 42 - 43, 50 Choi, Yong - Sang, 88 Christy, John, 105 Churchill, Winston, 214, 220 Chu, Steven, 187 Citibank (Citigroup), 40, 176 Clean Air Act, 85, 128 - 129 Clean Development Mechanism, 42 Climate Action Partnership, 14 Climate alarm, 4, 13, 21, 32, 35, 38, 56, 102 - 103, 115 - 117, 120, 137, 156, 168, 173, 182 Climate Audit, 66 Climate change, adaptation, 39, 110, 112 mitigation, 16, 39, 110 Climate Change and the Failure of Democracy, 34 Climate Change: Picturing the Science, 121 Climate Change Reconsidered, 242 Climate conference, 38 Cancun, 18, 29, 36 - 37, 124 - 125, 242 Copenhagen, 33, 36, 109, 125, 156, 158, 175, 241 - 242 Durban, 13, 36 - 37, 166, 242 - 243 Climategate, 2, 67, 152, 158 - 170, 180, 182, 242 Climate Protection Agreement, 12 Climate Research Unit (CRU), 48, 67, 120, 147, 152 - 153, 158 - 160, 162 - 163, 165 - 167, 169 Climate Science Register, 142 Climatism, definition, 2, 7 Clinton, Bill, 176, 178 Clinton Global Initiative, 176 CLOUD project, 96 Club of Rome, 21, 186 CO2Science, 59, 61 - 62, 66, 131 Coal, 19 - 20, 39 - 41, 80, 126, 128 - 129, 175, 185 - 186, 188 - 190, 192 - 196, 199 - 201, 209, 214, 217, 219, 222, 229 Coase, Ronald, 145 Coca - Cola, 138 Cogley, Graham, 156 Cohen, David, 220 Colorado State University, 117, 181 Columbia University, 7 Columbus, Christopher, 58 Computer models, 16, 51 - 53, 56, 67, 72, 74,77 - 79, 82, 87, 89 - 91, 94, 105, 110 - 111, 120, 124, 138 - 140, 168, 171,173, 181, 238, 240, 246 Conference on the Changing Atmosphere, 15 Consensus, scientific, 12 Copenhagen Business School, 134 Coral, 53 Corporate Average Fuel Economy, 22 - 23 Cosmic Rays, 72, 93 - 99, 180 Credit Suisse, 176 Crow, Cheryl, 30 Crowley, Tom, 167 Cuadrilla Resources, 224 - 225 Curry, Judith, 164, 167 Cycles, natural, 3, 16, 57, 62 - 63, 66 - 69, 72, 80, 99, 103, 138, 238, 240 Milankovich, 62, 67, 80 Cyprus, 134 Czech Republic,dioxide (CO2), 9, 18, 23, 49 - 51, 53, 55, 66 - 67, 72 - 89, 91, 98 - 99, 110, 112, 115, 118, 128 - 132, 137, 139, 141 - 144, 152, 240 emissions, 12, 18 - 25, 28 - 30, 32 - 33, 36 - 38, 41 - 44, 47, 49, 53, 55, 71 - 72, 74, 77 - 78, 81 - 82, 108 - 109, 115, 132, 139, 169, 186, 199 - 201, 203 - 204, 209 - 211, 214, 217, 219, 224, 230 - 231, 238, 241, 243 - 244 Carbon Dioxide Analysis Center, 19 Carbon Expo, 42 Carbon, footprint, 3, 13, 29, 35, 41, 45, 110, 132 tax, 20, 44, 170 trading, 13, 20, 40, 43, 44, 176, 182 Carbon monoxide (CO), 120 Carbon Reduction Commitment (CRC), 44 Carlin, George, 17 Carter, Bob, 63 Carter, Jimmy, 186, 188 Cato Institute, 179 CBS, 141, 146 Center for Disease Control, 174 Center for the Study of Carbon Dioxide and Global Change, 62, 139 Centre for Policy Studies, 219 CERN (European Organization for Nuclear Research), 96 Chavez, Hugo, 34 Chicago Tribune, 146 China, 29, 32 - 33, 60 - 62, 120, 169, 176, 187 - 188, 211, 216, 225 - 226, 242 - 243 China's National Population and Planning Commission, 33 Chinese Academy of Sciences, 60 Chirac, Jacques, 36 Chlorofluorocarbons, 42 - 43, 50 Choi, Yong - Sang, 88 Christy, John, 105 Churchill, Winston, 214, 220 Chu, Steven, 187 Citibank (Citigroup), 40, 176 Clean Air Act, 85, 128 - 129 Clean Development Mechanism, 42 Climate Action Partnership, 14 Climate alarm, 4, 13, 21, 32, 35, 38, 56, 102 - 103, 115 - 117, 120, 137, 156, 168, 173, 182 Climate Audit, 66 Climate change, adaptation, 39, 110, 112 mitigation, 16, 39, 110 Climate Change and the Failure of Democracy, 34 Climate Change: Picturing the Science, 121 Climate Change Reconsidered, 242 Climate conference, 38 Cancun, 18, 29, 36 - 37, 124 - 125, 242 Copenhagen, 33, 36, 109, 125, 156, 158, 175, 241 - 242 Durban, 13, 36 - 37, 166, 242 - 243 Climategate, 2, 67, 152, 158 - 170, 180, 182, 242 Climate Protection Agreement, 12 Climate Research Unit (CRU), 48, 67, 120, 147, 152 - 153, 158 - 160, 162 - 163, 165 - 167, 169 Climate Science Register, 142 Climatism, definition, 2, 7 Clinton, Bill, 176, 178 Clinton Global Initiative, 176 CLOUD project, 96 Club of Rome, 21, 186 CO2Science, 59, 61 - 62, 66, 131 Coal, 19 - 20, 39 - 41, 80, 126, 128 - 129, 175, 185 - 186, 188 - 190, 192 - 196, 199 - 201, 209, 214, 217, 219, 222, 229 Coase, Ronald, 145 Coca - Cola, 138 Cogley, Graham, 156 Cohen, David, 220 Colorado State University, 117, 181 Columbia University, 7 Columbus, Christopher, 58 Computer models, 16, 51 - 53, 56, 67, 72, 74,77 - 79, 82, 87, 89 - 91, 94, 105, 110 - 111, 120, 124, 138 - 140, 168, 171,173, 181, 238, 240, 246 Conference on the Changing Atmosphere, 15 Consensus, scientific, 12 Copenhagen Business School, 134 Coral, 53 Corporate Average Fuel Economy, 22 - 23 Cosmic Rays, 72, 93 - 99, 180 Credit Suisse, 176 Crow, Cheryl, 30 Crowley, Tom, 167 Cuadrilla Resources, 224 - 225 Curry, Judith, 164, 167 Cycles, natural, 3, 16, 57, 62 - 63, 66 - 69, 72, 80, 99, 103, 138, 238, 240 Milankovich, 62, 67, 80 Cyprus, 134 Czech Republic,Dioxide Analysis Center, 19 Carbon Expo, 42 Carbon, footprint, 3, 13, 29, 35, 41, 45, 110, 132 tax, 20, 44, 170 trading, 13, 20, 40, 43, 44, 176, 182 Carbon monoxide (CO), 120 Carbon Reduction Commitment (CRC), 44 Carlin, George, 17 Carter, Bob, 63 Carter, Jimmy, 186, 188 Cato Institute, 179 CBS, 141, 146 Center for Disease Control, 174 Center for the Study of Carbon Dioxide and Global Change, 62, 139 Centre for Policy Studies, 219 CERN (European Organization for Nuclear Research), 96 Chavez, Hugo, 34 Chicago Tribune, 146 China, 29, 32 - 33, 60 - 62, 120, 169, 176, 187 - 188, 211, 216, 225 - 226, 242 - 243 China's National Population and Planning Commission, 33 Chinese Academy of Sciences, 60 Chirac, Jacques, 36 Chlorofluorocarbons, 42 - 43, 50 Choi, Yong - Sang, 88 Christy, John, 105 Churchill, Winston, 214, 220 Chu, Steven, 187 Citibank (Citigroup), 40, 176 Clean Air Act, 85, 128 - 129 Clean Development Mechanism, 42 Climate Action Partnership, 14 Climate alarm, 4, 13, 21, 32, 35, 38, 56, 102 - 103, 115 - 117, 120, 137, 156, 168, 173, 182 Climate Audit, 66 Climate change, adaptation, 39, 110, 112 mitigation, 16, 39, 110 Climate Change and the Failure of Democracy, 34 Climate Change: Picturing the Science, 121 Climate Change Reconsidered, 242 Climate conference, 38 Cancun, 18, 29, 36 - 37, 124 - 125, 242 Copenhagen, 33, 36, 109, 125, 156, 158, 175, 241 - 242 Durban, 13, 36 - 37, 166, 242 - 243 Climategate, 2, 67, 152, 158 - 170, 180, 182, 242 Climate Protection Agreement, 12 Climate Research Unit (CRU), 48, 67, 120, 147, 152 - 153, 158 - 160, 162 - 163, 165 - 167, 169 Climate Science Register, 142 Climatism, definition, 2, 7 Clinton, Bill, 176, 178 Clinton Global Initiative, 176 CLOUD project, 96 Club of Rome, 21, 186 CO2Science, 59, 61 - 62, 66, 131 Coal, 19 - 20, 39 - 41, 80, 126, 128 - 129, 175, 185 - 186, 188 - 190, 192 - 196, 199 - 201, 209, 214, 217, 219, 222, 229 Coase, Ronald, 145 Coca - Cola, 138 Cogley, Graham, 156 Cohen, David, 220 Colorado State University, 117, 181 Columbia University, 7 Columbus, Christopher, 58 Computer models, 16, 51 - 53, 56, 67, 72, 74,77 - 79, 82, 87, 89 - 91, 94, 105, 110 - 111, 120, 124, 138 - 140, 168, 171,173, 181, 238, 240, 246 Conference on the Changing Atmosphere, 15 Consensus, scientific, 12 Copenhagen Business School, 134 Coral, 53 Corporate Average Fuel Economy, 22 - 23 Cosmic Rays, 72, 93 - 99, 180 Credit Suisse, 176 Crow, Cheryl, 30 Crowley, Tom, 167 Cuadrilla Resources, 224 - 225 Curry, Judith, 164, 167 Cycles, natural, 3, 16, 57, 62 - 63, 66 - 69, 72, 80, 99, 103, 138, 238, 240 Milankovich, 62, 67, 80 Cyprus, 134 Czech Republic,Dioxide and Global Change, 62, 139 Centre for Policy Studies, 219 CERN (European Organization for Nuclear Research), 96 Chavez, Hugo, 34 Chicago Tribune, 146 China, 29, 32 - 33, 60 - 62, 120, 169, 176, 187 - 188, 211, 216, 225 - 226, 242 - 243 China's National Population and Planning Commission, 33 Chinese Academy of Sciences, 60 Chirac, Jacques, 36 Chlorofluorocarbons, 42 - 43, 50 Choi, Yong - Sang, 88 Christy, John, 105 Churchill, Winston, 214, 220 Chu, Steven, 187 Citibank (Citigroup), 40, 176 Clean Air Act, 85, 128 - 129 Clean Development Mechanism, 42 Climate Action Partnership, 14 Climate alarm, 4, 13, 21, 32, 35, 38, 56, 102 - 103, 115 - 117, 120, 137, 156, 168, 173, 182 Climate Audit, 66 Climate change, adaptation, 39, 110, 112 mitigation, 16, 39, 110 Climate Change and the Failure of Democracy, 34 Climate Change: Picturing the Science, 121 Climate Change Reconsidered, 242 Climate conference, 38 Cancun, 18, 29, 36 - 37, 124 - 125, 242 Copenhagen, 33, 36, 109, 125, 156, 158, 175, 241 - 242 Durban, 13, 36 - 37, 166, 242 - 243 Climategate, 2, 67, 152, 158 - 170, 180, 182, 242 Climate Protection Agreement, 12 Climate Research Unit (CRU), 48, 67, 120, 147, 152 - 153, 158 - 160, 162 - 163, 165 - 167, 169 Climate Science Register, 142 Climatism, definition, 2, 7 Clinton, Bill, 176, 178 Clinton Global Initiative, 176 CLOUD project, 96 Club of Rome, 21, 186 CO2Science, 59, 61 - 62, 66, 131 Coal, 19 - 20, 39 - 41, 80, 126, 128 - 129, 175, 185 - 186, 188 - 190, 192 - 196, 199 - 201, 209, 214, 217, 219, 222, 229 Coase, Ronald, 145 Coca - Cola, 138 Cogley, Graham, 156 Cohen, David, 220 Colorado State University, 117, 181 Columbia University, 7 Columbus, Christopher, 58 Computer models, 16, 51 - 53, 56, 67, 72, 74,77 - 79, 82, 87, 89 - 91, 94, 105, 110 - 111, 120, 124, 138 - 140, 168, 171,173, 181, 238, 240, 246 Conference on the Changing Atmosphere, 15 Consensus, scientific, 12 Copenhagen Business School, 134 Coral, 53 Corporate Average Fuel Economy, 22 - 23 Cosmic Rays, 72, 93 - 99, 180 Credit Suisse, 176 Crow, Cheryl, 30 Crowley, Tom, 167 Cuadrilla Resources, 224 - 225 Curry, Judith, 164, 167 Cycles, natural, 3, 16, 57, 62 - 63, 66 - 69, 72, 80, 99, 103, 138, 238, 240 Milankovich, 62, 67, 80 Cyprus, 134 Czech Republic, 12, 37

The Plausible Scenario results show a mitigation impact of 6.7 gigatons of carbon dioxide - equivalent emissions over the period 2020 - 2050.

Two new studies have warned that climate change mitigation efforts will fail by merely focusing on checking of carbon dioxide emissions.

Bio-energy with carbon capture and storage (BECCS) is a greenhouse gas mitigation technology which produces negative carbon dioxide emissions by combining biomass use with geologic carbon capture and storage.

Despite a growing number of climate change mitigation policies, annual GHG emissions grew on average by 1.0 gigatonne carbon dioxide equivalent (GtCO2eq)(2.2 %) per year from 2000 to 2010 compared to 0.4 GtCO2eq (1.3 %) per year from 1970 to 2000.

Options for mitigation of GHG emissions from industry fall into the following categories: energy efficiency, emissions efficiency (including fuel and feedstock switching, carbon dioxide capture and storage), material efficiency (for example through reduced yield losses in production), re ‐ use of materials and recycling of products, more intensive and longer use of products, and reduced demand for product services.

And it endorses the deployment of various carbon dioxide removal methods as relatively benign ways to counter human emissions, arguing that the decision on mitigation versus carbon dioxide removal is largely a question of cost.

The Intergovernmental Panel on Climate Change (IPCC) publication Climate Change 2014: Mitigation of Climate Change, Table 11.4, reports the impact of diet change and food waste reduction at 1.3 - 13.3 gigatons of carbon dioxide - equivalent emissions reductions by 2050.

The scenarios include: «business as usual» (BAU), which assumes no mitigation efforts are made («RCP8.5»); «mitigation», which assumes an intermediate level of emissions («RCP4.5») without negative emissions; «carbon dioxide removal» («CDR»), which assumes moderate emissions with long - term CO2 removal; and «solar radiation management» («SRM»), which is the same as the CDR pathway, but also includes enough SRM to limit temperatures to 1.5 C above pre-industrial levels by 2100.

Projected global average temperature rise above pre-industrial levels under a range of future scenarios, «business as usual» (BAU), which assumes no mitigation efforts are made (RCP8.5); «mitigation», which assumes moderate emissions (RCP4.5) without negative emissions, «carbon dioxide removal» (CDR), which assumes moderate emissions with long - term CO2 removal; and «solar radiation management» (SRM), which is the same as the CDR pathway but also includes enough SRM to limit temperatures to 1.5 C by 2100.

To cover this vast amount of ground, it discusses, at a high level, subjects ranging from observations of various parts of the climate system and climate modelling to the limits of economic assessments, the different pathways of greenhouse gas emissions considered, adaptation response strategies and methods of mitigation that include everything from from taxing greenhouse gas emissions to removing carbon dioxide directly from the atmosphere.

Ultimately, from the perspective of policy makers and the general public, the impacts of climate change and the required mitigation and adaptation efforts are largely the same in a world of 2 or 4 C per doubling of CO2 concentrations where carbon dioxide emissions are rising quickly.

Underground storage of carbon dioxide may trigger earthquakes which could allow the gas to seep back into the atmosphere, rendering the emissions mitigation approach ineffective, warns Stanford geophysicist Mark Zoback.

You may wonder why the government finds the need to pursue such action since 1) U.S. carbon dioxide emissions have already topped out and have generally been on the decline for the past 7 - 8 years or so (from technological advances in natural gas extraction and a slow economy more so than from already - enacted government regulations and subsidies); 2) greenhouse gases from the rest of the world (primarily driven by China) have been sky - rocketing over the same period, which lessens any impacts that our emissions reduction have); and 3) even in their totality, U.S. carbon dioxide emissions have a negligible influence on local / regional / global climate change (even a immediate and permanent cessation of all our carbon dioxide emissions would likely result in a mitigation of global temperature rise of less than one - quarter of a degree C by the end of the century).

Mitigation scenarios that achieve the ambitious targets included in the Paris Agreement typically rely on greenhouse gas emission reductions combined with net carbon dioxide removal (CDR) from the atmosphere, mostly accomplished through large - scale application of bioenergy with carbon capture and storage, and afforestation.

As a result, without effective mitigation, total energy - related carbon dioxide emissions (including transformations, own use and losses) will rise from 26.1 GtCO2 (7.2 GtC) in 2004 to around 37 — 40 GtCO2 (11.1 GtC) in 2030 (IEA, 2006b; Price and de la Rue du Can, 2006), possibly even higher (Fisher, 2006), assuming modest energy - efficiency improvements are made to technologies currently in use.

[I] t would be «irrational and irresponsible» to implement sustained albedo modification without also pursuing emissions mitigation, carbon dioxide removal, or both.

If we embark on a path that is equivalent to setting emissions to zero now (say by having a period of negative emissions in the 2035 to 2050 time frame), and call the sequestration we accomplish mitigation then mitigation can arrest climate change, make adaptation unneeded and bring us to a safe concentration of carbon dioxide in the atmosphere as Hansen has pointed out.

Because of the long atmospheric lifetime of some of the main greenhouse gases, such as carbon dioxide, there is a mismatch between the payoff from climate change mitigation, which involves reducing emissions of planet warming greenhouse gases to lessen to severity of climate change, and climate change adaptation, which refers to measures to better withstand the impacts of climate change.