A1

The A1 scenarios are of a more integrated world. The A1 family of scenarios is characterized by:

• Rapid economic growth.
• A global population that reaches 9 billion in 2050 and then gradually declines.
• The quick spread of new and efficient technologies.
• A convergent world - income and way of life converge between regions. Extensive social and cultural interactions worldwide.

There are subsets to the A1 family based on their technological emphasis:

• A1FI - An emphasis on fossil-fuels (Fossil Intensive).
• A1B - A balanced emphasis on all energy sources.
• A1T - Emphasis on non-fossil energy sources.....

A2

The A2 scenarios are of a more divided world. The A2 family of scenarios is characterized by:

• A world of independently operating, self-reliant nations.
• Continuously increasing population.
• Regionally oriented economic development.
• High emissions

B1

The B1 scenarios are of a world more integrated, and more ecologically friendly. The B1 scenarios are characterized by:

• Rapid economic growth as in A1, but with rapid changes towards a service and information economy.
• Population rising to 9 billion in 2050 and then declining as in A1.
• Reductions in material intensity and the introduction of clean and resource efficient technologies.
• An emphasis on global solutions to economic, social and environmental stability.

B2

The B2 scenarios are of a world more divided, but more ecologically friendly. The B2 scenarios are characterized by:

• Continuously increasing population, but at a slower rate than in A2.
• Emphasis on local rather than global solutions to economic, social and environmental stability.
• Intermediate levels of economic development.
• Less rapid and more fragmented technological change than in A1 and B1.

MER and PPP

The SRES scenarios were criticised by Ian Castles and David Henderson.^[22][23][24] The core of their critique was the use of market exchange rates (MER) for international comparison, in lieu of the theoretically favoured PPP exchange rate which corrects for differences in purchasing power.^[25] The IPCC rebutted this criticism.^[26][27][28]

The positions in the debate can be summarised as follows. Using MER, the SRES scenarios overstate income differences in past and present, and overestimate future economic growth in developing countries. This, Castles and Henderson originally argued, leads to an overestimate of future greenhouse gas emissions. The IPCC future climate change projections would have been overestimated.

However, the difference in economic growth is offset by a difference in energy intensity. Some say these two opposite effects fully cancel,^[29] some say this is only partial.^[30] Overall, the effect of a switch from MER to PPP is likely to have a minimal effect on carbon dioxide concentrations in the atmosphere.^[31] Castles and Henderson later accepted this and acknowledged that they were mistaken that future greenhouse gas emissions had been significantly overestimated.^[32]

But even though global climate change is not affected, it has been argued^[33] that the regional distribution of emissions and incomes is very different between an MER and a PPP scenario. This would influence the political debate: in a PPP scenario, China and India have a much smaller share of global emissions. It would also affect vulnerability to climate change: in a PPP scenario, poor countries grow more slowly and would face greater impacts.

Availability of fossil fuels

As part of the SRES, IPCC authors assessed the potential future availability of fossil fuels for energy use.^[34] SRES assumptions about availability of fossil fuels is largely based on a 1997 study done by Rogner, who goes to great lengths to claim that there are enough fossil resources, i.e. hydrocarbon molecules in the crust, to theoretically sustain production for an extended period of time.^[35][36]

The issue of whether or not the future availability of fossil fuels would limit future carbon emissions was considered in the Third Assessment Report;^[37] it concluded that limits on fossil fuel resources would not limit carbon emissions in the 21st century.^[37] Their estimate for conventional coal reserves was around 1,000 gigatonnes of carbon (GtC), with an upper estimate of between 3,500 and 4,000 GtC.^[38] This compares with cumulative carbon emissions up to the year 2100 of about 1,000 GtC for the SRES B1 scenario, and about 2,000 GtC for the SRES A1FI scenario.

The carbon in proven conventional oil and gas reserves was estimated to be much less than the cumulative carbon emissions associated with atmospheric stabilization of CO₂ concentrations at levels of 450 ppmv or higher.^[37] The Third Assessment Report suggested^[37] that the future makeup of the world's energy mix would determine whether or not greenhouse gas concentrations were stabilized in the 21st century. The future energy mix might be based more on the exploitation of unconventional oil and gas (e.g., oil sands, shale oil, tight oil, shale gas), or more on the use of non-fossil energy sources, like renewable energy.^[37] Total primary energy production from fossil fuels in the SRES outlooks range from a mere 50% increase from year 2010 in the B1 family to over 400% in the A1 family.^[39]

Select Committee report

In 2005, the UK Parliament's House of Lords Economics Affairs Select Committee produced a report on the economics of climate change.^[47] As part of their inquiry, they took evidence on criticisms of the SRES. Among those who gave evidence to the committee were Dr Ian Castles, a critic of the SRES scenarios,^[48] and Prof Nebojsa Nakicenovic, who co-edited the SRES.^[49] IPCC author Dr Chris Hope commented on the SRES A2 scenario, which is one of the higher emissions scenarios of the SRES.^[50] Hope assessed and compared the marginal damages of climate change using two versions of the A2 scenario. In one version of the A2 scenario, emissions were as the IPCC projected. In the other version of A2, Hope reduced the IPCC's projected emissions by a half (i.e., 50% of the original A2 scenario). In his integrated assessment model, both of these versions of the A2 scenario lead to almost identical estimates of marginal climate damages (the present-day value of emitting one tonne of CO₂ into the atmosphere). Based on this finding, Hope argued that present day climate policy was insensitive to whether or not you accepted the validity of the higher emission SRES scenarios.

IPCC author Prof Richard Tol commented on the strengths and weaknesses of the SRES scenarios.^[51] In his view, the A2 SRES marker scenario was, by far, the most realistic. UK Government departments Defra and HM Treasury argued that case for action on climate change was not undermined by the Castles and Henderson critique of the SRES scenarios.^[52] They also commented that unless effective action was taken to curb emissions growth, other bodies, like the International Energy Agency, expected greenhouse gas emissions to continue to rise into the future.

Comparison with a "no policy" scenario

In a report published by the MIT Joint Program on the Science and Policy of Global Change, Webster et al. (2008) compared the SRES scenarios with their own "no policy" scenario.^[53] Their no-policy scenario assumes that in the future, the world does nothing to limit greenhouse gas emissions. They found that most of the SRES scenarios were outside of the 90% probability range of their no-policy scenario (Webster et al., 2008, p. 1). Most of the SRES scenarios were consistent with efforts to stabilize greenhouse gas concentrations in the atmosphere. Webster et al. (2008, p. 54) noted that the SRES scenarios were designed to cover most of the range of future emission levels in the published scientific literature. Many such scenarios in the literature presumably assumed that future efforts would be made to stabilize greenhouse gas concentrations.