climate change 2017 the nature of the challenge
TRANSCRIPT
Climate Change 2017The Nature of the Challenge
Will SteffenEmeritus Professor, Australian National University
Senior Fellow, Stockholm Resilience Centre
Outline of Talk
1. Basic climate science and impacts
2. Implications for New Zealand
3. Climate change and the Earth System:Nature of the challenge
The climate is warming rapidly
NOAA 2017
Global Average Temperature Anomaly, 1900-2016
Enhanced Greenhouse Effect
Climate Change: Worsening Extreme Weather
Decline and Death of Coral Reefs
Increase in coral bleaching events: 1960-2010
Source: Donner et al. 2017
Time period Number of bleaching events
Pre-1980 121980s 2361990s 18742000s 5094
Implications of Climate Change for New Zealand
Photos: Net Zero in New Zealand, Vivid Economics
NZ: Emission Reduction Challenge
Comparison of Paris pledges
The Climate Institute 2015
Stabilising the Climate:The Carbon Budget
Source: IPCC AR5 2013
The Paris 2oC Target: Can We Meet It?
The total carbon budget from 1870 is about 1,000 Gt C for a 66%probability of meeting the 2oC target.
Cumulative human emissions (fossil fuels, cement, land use) from 1870 through 2016 were about 565 Gt C, leaving 435 Gt C in thebudget.
Accounting for non-CO2 gases (e.g. CH4, N2O) reduces the C budgetby 210 Gt C.
The remaining budget is 225 Gt C in total.
At current rates 10 Gt C per year at current rates, the budget would last a little more than two decades.
Sources; IPCC AR5 WGI SPM; GCP 2016
The Paris 2oC Target: Can We Meet It?
The total carbon budget from 1870 is about 1,000 Gt C for a 66%probability of meeting the 2oC target.
Cumulative human emissions (fossil fuels, cement, land use) from 1870 through 2016 were about 565 Gt C, leaving 435 Gt C in thebudget.
Accounting for non-CO2 gases (e.g. CH4, N2O) reduces the C budget by 210 Gt C.
The remaining budget is 225 Gt C in total.
At current rates 10 Gt C per year at current rates, the budget would last a little more than two decades.
Sources; IPCC AR5 WGI SPM; GCP 2016
Non-CO2 Greenhouse Gas Emissions
IPCC 2013
Agriculture is main source of emissionsCH4: Cattle; rice cultivationN2O: Fertiliser use
Changes in the Global Carbon Cycle
Le Quéré et al. 2015
Climate Council 2016
Land v. Fossil Carbon
Vulnerability of Land Carbon to Reversal
Climate Council 2016
• Natural disturbances such as bushfires, insect plaguesand droughts can all lead to loss of land carbon. Thesedisturbances are being influence by climate change.
• Increase in soil respiration as temperature rises
• Changes in land-clearing policies
Australia 2016:Bushfires in Tasmania’s World Heritage forests
“This is bigger than us. This is whatclimate change looks like, this is whatscientists have been telling people,this is system collapse.
Professor David Bowman, fire ecologist
Land Carbon: The Bottom Line
• Effective climate change policy must focus on rapidand deep reductions in fossil fuel emissions.
• Storing carbon in land is also useful, but it is fundamentally different from, and much less important than, reducing fossil fuel emissions.
• There should be no “offsetting” of fossil fuel emissionsby increasing land carbon storage. There should beseparate reporting of fossil fuel emissions and landcarbon uptake and loss.
Climate Council 2016
NZ: Follow the Swedish Model?
Significant carbon tax: Currently 100 USD per tonne CO2
emitted; proposal to raise tax to 200 USD per tonne.
Promotion of wind and solar (!!!) renewable energygeneration.
Use of large forestry industry for C-neutral power andheat generation.
Bio-aviation fuels (C-neutral) plan for Swedish domesticflights.
BI-PARTISAN POLITICAL SUPPORT FOR CLIMATE ACTION
Image: NASA
Climate Change in a Broader ContextThe Earth: Patterns of a Complex System
The Nature of the Challenge:Bottom Line
1. MAGNITUDE
2. URGENCY
Climate Change as a Threat Multiplier
IPCC AR5 WG1 Report 2013
The patterns of where and when we canproduce food will be massively disrupted
in a +2oC world. Millions of humans will beaffected. Starvation, migration, conflict are
the likely outcomes.
The Syrian Crisis
• Iraqi refugees
• Weak government
• Worst drought in record history -millions flood into cities
The Security Risk:
The Defence Force View
The atmosphere is warming
NOAA 2017
Global Average Temperature Anomaly, 1900-2016
What does this temperature trendmean from an Earth System
science perspective?
Temperature rise: Beyond the envelope of natural variability!
Summerhayes 2015
Human influence
2000 years of Holocene variability
Rates of Change
Rate of increase in ocean acidification is unparalleled forat least the last 300 million years.
Rate of atmospheric CO2 increase over the past twodecades is about 100 times the maximum rate duringthe last deglaciation.
Since 1970 the global average temperature has risen ata rate about 170 times the background rate over the past 7,000 years of the Holocene, and in the oppositedirection.
De Vos et al. 2014; Wolff 2011; Marcott et al. 2013; NOAA 2016; Canfield et al. 2010
Implications of accelerating climate changeIPCC temperature projections
IPCC 2013
2
4
3
5
6
1
0
Glo
bal
Tem
per
atu
re (
°C)
IPCC Projections2100 AD
Earth System moves to a new state? Severe challenge tocontemporary civilisation. Possible collapse?
Summerhayes 2015
Committed
Return towards aHolocene-like state?
Tipping Point?
Transition to a new, muchhotter state of the
Earth System?
Implications of the Anthropocene
Tipping Elements in the Earth System
Huber, Lenton, and Schellnhuber, in Richardson et al. 2011
10 years of C storage
lost in 2005 and 2010
droughts50 to 250 Gt C lost by 2100
from thawing permafrost
Schellnhuber et al. 2016
Tipping elements and global average temperature
Tipping Cascades
Steffen et al. 2017
The Earth System Perspective:Irreversibility
Clark et al. 2016
RCP8.5 (BAU) for 2100
RCP8.5 (BAU) for 2300
Source: Figueres et al. 2017
Crunch time: Only 3 years away
Is a 4oC world inhabitable?
Most of the tropics and subtropics will be toohot for human habitation.
Changing temperature & rainfall patterns may makecurrent large agricultural zones unproductive.
Sea-level rise of 20-40 m ultimately likely, drowningcoastal cities, agricultural areas and infrastructure.
Maximum carrying capacity of ~1 billion humans(today’s population is 7.4 billion)
The Real Nature of Climate Change?
What is the difference between a 2oCand a 4oC world?
“Human Civilisation”
Prof John SchellnhuberDirector, Potsdam Institute for Climate Impact Research (PIK)
The Nature of the ChallengeBottom Line
1. MAGNITUDE
2. URGENCY
A worst-case scenario could collapse modern civilisation.
We have 3 years left to get our act together. Delay rapidly increases
risk of collapse.