shobakar dhakal
TRANSCRIPT
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© O
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rbis
Dr. Shobhakar Dhakal Associate Professor,
Asian Institute of Technology
Coordinating Lead Author, IPCC-WG III, AR5
Feasibility of 2⁰C world: Key Findings from IPCC AR 5 WG III
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1 Summary for Policymakers
1 Technical Summary
16 Chapters
235 Authors
900 Reviewers
More than 2000 pages
Close to 10,000 references
More than 38,000 comments
IPCC reports are the result of extensive work of many scientists from around the world
2 Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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• GHG emission growth have accelerated despite ongoing efforts
• There is a significant shift in emission structure in recent decades regionally, along income groups, and sectors
• Climate change mitigation, if unabated, may result into 3.7-4.8⁰C world
• While mitigation challenges exist, the low climate stabilization (2⁰C) mitigation pathways are possible
• The costs to economy from low climate stabilization scenarios would be nominal
• Delaying of mitigation would entail more costs and limit options
• But such pathways needs significant efforts from policies and institutions, investments and international cooperation
Summary Messages
3
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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GHG emissions growth between 2000 and 2010 has been larger than in the previous three decades
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Based on Figure 1.3
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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About half of cumulative anthropogenic CO2 emissions between 1750 and 2010 occurred in the last 40 years
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Based on Figure 5.3
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
While historically most emission growth has occurred in industrialized countries, most of the recent emission growth has been in emerging economies in Asia and Latin America
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Regional patterns of GHG emissions are shifting along with changes in the world economy
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Based on Figure 1.6
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Without additional mitigation, global mean surface temperature is projected to increase by 3.7 to 4.8°C over the 21st century
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Based on WGII AR5 Figure 19.4
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Stabilization of atmospheric concentrations requires moving away from the baseline – regardless of the mitigation goal
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Based on Figure 6.7
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Stabilization of atmospheric concentrations requires moving away from the baseline – regardless of the mitigation goal
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~3°C
Based on Figure 6.7
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Low climate mitigation scenario involves substantial upscaling of low-carbon energy
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• Rapid improvements of energy efficiency
• A tripling to nearly a quadrupling of the share of zero- and low-carbon energy supply from renewables, nuclear energy and fossil energy with carbon dioxide capture and storage (CCS), or bioenergy with CCS (BECCS) by the year 2050
• 2° scenarios typically rely on the availability and large-scale deployment of carbon dioxide removal technologies, but both are uncertain
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Delaying mitigation is estimated to increase the difficulty and narrow the options for limiting warming to 2°C
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„immediate action“
„delayed mitigation“
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Delaying mitigation is estimated to increase the difficulty and narrow the options for limiting warming to 2°C.
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Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Delaying mitigation is estimated to increase the difficulty and narrow the options for limiting warming to 2°C.
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Based on Figures 6.32 and 7.16
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Impacts of mitigation on GDP growth is nominal
(2⁰C climate stabilization)
2030 Time Current
GDP
GDP without
mitigation
GDP with stringent
mitigation (reaching ≈
450 ppm CO2eq in
2100)
Loss in global consumption in 2030: 1.7% (median)
Loss in global consumption in 2050: 3.4% (median)
Loss in global consumption in 2100: 4.8% (median)
2050 2100
Estimates do not include the benefits of reduced climate change as well as co-benefits and adverse side-effects of mitigation 14
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Mitigation can result in large co-benefits for human health and other societal goals
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Based on Figures 6.33 and 12.23
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Absence or limited availability of technology can greatly influence mitigation costs
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Based on Figure 6.24
• ‘Carbon capture and storage’ as well as ‘bioenergy’ strongly influence mitigation costs
• Limits on nuclear, solar and wind influence mitigation costs much less
2⁰C may not be achieved at all if mitigation is considerably delayed or key technologies are limitedly availability, such as bioenergy, CCS, and their combination (BECCS).
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Baseline scenarios suggest rising GHG emissions in all sectors, except for CO2 emissions in the land‐use sector
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Based on Figure TS.17
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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450 ppm mitigation requires changes throughout the economy. Systemic approaches are expected to be most effective
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Based on Figure TS.17 BECCS -ve emission
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Interdependencies: Mitigation efforts in one sector determine efforts in others
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Based on Figure TS.17 afforestation
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Full decarbonization of energy supply is a key requirement for limiting warming to 2°C
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Based on Figure 7.11 There is a lot of flexibility for doing so
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Energy demand reductions can provide flexibility, hedge against risks, avoid lock-in and provide co-benefits.
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Based on Figure 7.11
If we reduce energy demand • The more flexibility in our choice of low carbon technologies; • The better we can hedge against supply side risks; • The smaller infrastructure lock-in will be; and • The larger co-benefits will be.
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The wide-scale application of available best-practice low-GHG technologies could
lead to substantial emission reductions
IPCC WGIII 2014 Mitigation Report
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Effective mitigation will not be achieved if individual agents advance their own
interests independently.
IPCC WGIII 2014 Mitigation Report
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Substantial reductions in emissions would require large changes in investment patterns and appropriate policies.
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Based on Figure 16.3
• For comparison, global total annual investment in the energy system is presently about USD 1200 billion
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There has been a considerable increase in national and sub-national mitigation policies since AR4.
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Based on Figures 15.1 and 13.3
• In 2012, 67% of global GHG emissions were subject to national legislation or strategies; 45% in 2007
• Yet, no substantial deviation in global emissions from the past trend • Plans and strategies are in early stages of development and implementation in
countries
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Sector-specific policies have been more widely used than economy-wide policies.
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Based on Figure 10.15
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Climate change mitigation is a global commons problem that requires international cooperation across scales.
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Based on Figure 13.1
• International cooperation on climate change has become more institutionally diverse over the past decade
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Forms of international cooperation vary in their focus and degree of centralization and coordination.
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Effective mitigation will not be achieved if individual agents advance their own interests independently.
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Based on Figure 13.2
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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• GHG emission growth have accelerated despite ongoing efforts
• There is a significant shift in emission structure in recent decades regionally, along income groups, and sectors
• Climate change mitigation, if unabated, may result into 3.7-4.8⁰C world (which is undesirable)
• While mitigation challenges exist, the low climate stabilization (2⁰C) mitigation pathways are possible
• But such pathways needs significant efforts from policies and institutions, investments and international cooperation
• The costs to economy from low climate stabilization scenarios are nominal
• Delaying of mitigation would entail more costs and limit options
Summary Messages
30
Climate Change Mitigation 2014, WG3’s contribution to 5th Assessment Report of IPCC, 2014 April
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Key characteristics of the scenarios collected and assessed for WGIII AR5
For all parameters, the 10th to 90th percentile of the scenarios is shown
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GHG emissions rise with growth in GDP and population; long-standing trend of decarbonisation of energy reversed
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Based on Figure 1.7
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GHG emissions rise with growth in GDP and population; long-standing trend of decarbonisation of energy reversed
34
Based on Figure 1.7
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Examples from power supply: Many technologies exist to reduce GHG emissions, but do so to different degrees.
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Costs of many power supply technologies decreased substantially, some can already compete with conventional technologies.
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Based on Figure 7.7
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Example transport: several strategies exist to reduce emissions from transportation.
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Private costs of reducing emissions in transport vary widely. Societal costs remain uncertain.
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Based on Figure TS.21
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Global costs rise with the ambition of the mitigation goal but impact to GDP is nominal
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Based on Table SPM.2
2⁰C stabilization