carbon in the earth system: dynamics and vulnerabilities · the response of the global carbon...
TRANSCRIPT
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Carbon in the Earth System: Dynamics and Vulnerabilities
ESSP Global Carbon Project
(Presenter: Michael Raupach)
Earth System Science Partnership Open Science Conference"Global Environmental Change: Regional Challenges", Beijing, 9-12 November 2006
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Two nested ecologies
Ecology of the biosphere• Life is a complex adaptive system (CAS)• Imports (solar) energy, exports entropy, stores information• Evolves by sieving information (genome) about organisms (phenome)• Genomes and phenomes are both carbon-based
Ecology of the anthroposphere• New evolutionary trick: use of exogenous (non-biotic) energy• Easiest energy source: detrital carbon from the biosphere• CAS with biological, technological, social, cultural levels
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Signs of Trouble
Now: accelerating CO2 emissions
Future:Emissions GapInertiaVulnerability
The global carbon cycle in the anthropocene
Response
Dimensions:TechnicalPolicyEconomicCultural
Systems approach
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Global atmospheric CO2 budgetPep Canadell, Corinne LeQuere, Mike Raupach, Gregg Marland, Skee Houghton, Tom Conway, Philippe Ciais
Atmospheric accumulation = FFoss + FLUC + FLandAir + FOceanAir
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CO2 emissionsfrom fossil fuels
D3 = least developed nationsD2 = other developing nationsIndiaChinaRussia + other FSUD1 = other developed nationsJapanEuropeUSA
1/6
2/3
1/6
Fossil-fuel emissions [MtC/y]
0
1000
2000
3000
4000
5000
6000
7000
8000
1970
1973
1976
1979
1982
1985
1988
1991
1994
1997
2000
2003
D3D2IndiaChinaFSUD1JapanEUUSA
Fossil-fuel emissions (MtC/y)
Unpublished data: please do not cite or quote without permission
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Fossil-fuel CO2 emissions in 2005:• 7.9 PgC
Growth rate in fossil-fuel CO2 emissions:• 1990 to 1999: 0.8% per year• 2000 to 2005: 3.2% per year
The emissions story from current data
Unpublished data: please do not cite or quote without permission
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Drivers of emissions (global)
Kaya Identity World
0.50.60.70.80.9
11.11.21.31.41.5
1980 1985 1990 1995 2000 2005
F (emissions)P (population)g = G/Ph = F/G
GG
P FFP
= × ×
Fossil-fuel emission
Population
Per-capita GDP
Fossil-fuel intensity of GDP
Unpublished data: please do not cite or quote without permission
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Drivers of emissions (regional)
2003 emissions:• USA: 23%• D2: 19%• China: 16%• Europe:15%• Others: 27%
USA
00.20.40.60.8
11.21.41.61.8
2
1980 1985 1990 1995 2000 2005
F (emissions)P (population)g = G/Ph = F/G
GG
P FFP
= × ×
China
00.20.40.60.8
11.21.41.61.8
2
1980 1985 1990 1995 2000 2005
F (emissions)P (population)g = G/Ph = F/G
Unpublished data: please do not cite or quote without permission
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Who contributes to fossil-fuel carbon?Depends on whether we look at stock, flux or growth rate
2003
0%
20%
40%
60%
80%
100%
Stock Flux Growth
D3D2IndiaChinaFSUD1JapanEUUSA
1/6
1/6
2/3
D3 = least developedD2 = other developingIndiaChinaRussia + other FSUD1 = other developedJapanEuropeUSA
Unpublished data: please do not cite or quote without permission
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Signs of Trouble
Now: accelerating CO2 emissions
Future:Emissions GapInertiaVulnerability
The global carbon cycle in the anthropocene
Response
Dimensions:TechnicalPolicyEconomicCultural
Systems approach
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Emissions gapEmissions scenario (eg SRES A1B): storyline for global developmentStabilisation trajectory: emissions consistent with stabilision at given CO2
0
2
4
6
8
10
12
14
16
18
1850 1900 1950 2000 2050 2100
Foss
il Fu
el E
mis
sion
(GtC
/y
historic emissionsprojected emissions (A1B)to stabilise at 450 ppmto stabilise at 650 ppm
emissions gap
1980 2000 2020
Unpublished data: please do not cite or quote without permission
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Inertia in carbon-climate-human interactionsComponents
Recognition of climate change
Negotiation of agreements
Deploying technologies
Land and ocean system inertia
Implication
Start now (or sooner)
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Vulnerability of carbon pools
C4MIP = Coupled Climate Carbon Cycle Model Intercomparison Expt(Friedlingstein et al. 2006)
Intercomparison of 11 coupled climate-carbon cycle models
For all models, feedbacks =>• increased CO2• more warming (by 0.1-1.5 deg)• higher AF (by 0.02-0.22)
Main carbon-climate feedbacks:• ocean CO2 uptake• CO2 fertilisation of land NPP• climate effects on carbon
release from land pools
NOW
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Vulnerable C pools (not in C4MIP) => additional 100 to >200 ppm CO2 (Gruber et al. 2004)
Vulnerability of carbon pools
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The response of the global carbon cycle:the airborne fraction of anthropogenic CO2
AF = (Atmospheric accumulation) / (Emissions from fossil fuels + LUC)AF fluctuates greatly through climate variability (ENSO) and volcanoesSmoothed AF has been nearly steady (0.4 to 0.5) for over 100 yearsAF will increase over decades because of carbon-climate vulnerability
AF
1900 1950 2000 2050 2100
0.2
0.4
0.6
0.8
1
?
?C4MIP
Extra vulnerabilities
Unpublished data: please do not cite or quote without permission
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Estimating the cap on cumulative emissions with AF
Find the cumulative release of anthropogenic C up to stabilisation
Numbers:• Cumulative C release from 2000 (to 550 ppm): < 750 GtC• Anthropogenic C release from 1750 to present: ~ 480 GtC• Anthropogenic C release 2000-2100 (for A1B): ~ 1200 GtC
Future anthropogenic C release is a finite, non-renewable resource
( ) ( )stab nowCumulative anthropogenic C release
average AFA AC C−
=
Unpublished data: please do not cite or quote without permission
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Signs of Trouble
Now: accelerating CO2 emissions
Future:Emissions GapInertiaVulnerability
The global carbon cycle in the anthropocene
Response
Dimensions:TechnicalPolicyEconomicCultural
Systems approach
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1. Technical: many options
Broad portfolio:• Non fossil-fuel energy (renewables ...)• Cleaner fossil fuel energy• Conservation
Both supply-side and demand-side focus
A systems approach to meet multiple criteria (greenhouse, economic, social, other environmental ...)
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2. Economic: solutions we can afford
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3. Policy: cap, price signal
0
2
4
6
8
10
12
14
16
18
1850 1900 1950 2000 2050 2100
Foss
il Fu
el E
mis
sion
(GtC
/y
historic emissionsprojected emissions (A1B)to stabilise at 450 ppmto stabilise at 650 ppm
emissions gap
• The policy challenges:• Global emissions cap (with equity)• Carbon price signal (with equity)
Unpublished data: please do not cite or quote without permission
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SummaryPresent signs of trouble in carbon-climate-human interactions
• Fossil-fuel emissions have accelerated since Y2000• Current emissions exceed stabilisation trajectories• Airborne fraction of CO2 emissions (AF) is presently holding at 0.45
Signs of trouble in the future• Inertia: recognition, agreements, technologies, land-ocean systems• The emissions gap is increasing• Vulnerability: land and ocean carbon pools
human responses (failure to protect commons)
Responses: four critical dimensions• Technical, economic, policy• Cultural
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Culture and ethics in the carbon cycle
Our ethical imperatives:• protect global commons• use finite resources wisely• separate quality of life
from consumption
We are starstuffbillion-year-old carbon
We are goldencaught in the devil's bargain
And we got to get ourselves back to the garden
(Joni Mitchell, Woodstock)