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3.8. Scenarios of the 21st Century
This section summarizes recent developments that are likely to affect the construction
of scenarios over the coming few years. One of these developments is construction
of the new SRES emission scenarios. Some features of these scenarios and their
implications for atmospheric composition, global climate, and sea level are
described below. In addition, a brief review of possible regional climate changes
during the 21st century is presented, followed by discussions of stabilization
scenarios and changes in climate variability and extreme events—key issues
in constructing scenarios for policy-relevant impact and adaptation assessments.
3.8.1. SRES Storylines and Emissions Scenarios
Development of the SRES scenarios (Nakicenovic et al., 2000) is outlined
in Section 3.2.4.1. The 40 scenarios, 35 of which are
fully quantified, are based on four different narrative storylines and associated
scenario families. Each storyline describes a different world evolving through
the 21st century, and each may lead to quite different GHG emissions trajectories.
Four of the scenarios are designated as "markers," each characterizing
one of four "scenario families"; two additional scenarios illustrate
alternative energy developments in one of the families. The storylines and scenario
families are as follows:
- A1: A future world of very rapid economic growth, global population
that peaks mid-century and declines thereafter, and rapid introduction of
new and more efficient technologies. Major underlying themes are economic
and cultural convergence and capacity-building, with a substantial reduction
in regional differences in per capita income. The A1 scenario family develops
into three groups that describe alternative directions of technological change
in the energy system: fossil-intensive (A1FI), nonfossil energy sources (A1T),
and a balance across all sources (A1B).
- A2: A differentiated world. The underlying theme is self-reliance
and preservation of local identities. Fertility patterns across regions converge
very slowly, resulting in continuously increasing population. Economic development
is primarily regionally orientated, and per capita economic growth and technological
change are more fragmented and slower than other storylines.
- B1: A convergent world with rapid change in economic structures toward
a service and information economy, reductions in material intensity, and introduction
of clean technologies. The emphasis is on global solutions to economic, social,
and environmental sustainability, including improving equity, but without
additional climate change policies.
- B2: A world in which the emphasis is on local solutions to economic,
social, and environmental sustainability. This is a world with continuously
increasing global population at a lower rate than in scenario A2, intermediate
levels of economic development, and less rapid and more diverse technological
change than in the A1 and B1 storylines. Although this scenario also is orientated
toward environmental protection and social equity, it focuses on the local
and regional levels.
Measures of global population, economic development (expressed in annual GDP),
and equity (per capita income ratio) for 2050 and 2100 that are implied under
the SRES scenarios are shown in Table 3-9, alongside
the IS92a scenario and estimates for the present day. Attempts are underway
to "downscale" aspects of these global scenarios for use in regional
impact assessment (e.g., Lorenzoni et al., 2000).
| Table 3-10: Examples of impacts resulting from projected
changes in extreme climate events. |
 |
Projected Changes during the
21 st Century in Extreme Climate
Phenomena and their Likelihooda |
Representative Examples of Projected Impactsb
(all high confidence of occurrence in some areasc) |
| |
| Simple Extremes |
|
| |
Higher maximum temperatures; more hot
days and heat wavesd over nearly all land
areas (Very Likelya) |
- Increased incidence of death and serious illness in older age groups
and urban poor
- Increased heat stress in livestock and wildlife
- Shift in tourist destinations
- Increased risk of damage to a number of crops
- Increased electric cooling demand and reduced energy supply reliability
|
| |
Higher (increasing) minimum temperatures;
fewer cold days, frost days, and cold
wavesdover nearly all land areas
(Very Likelya) |
- Decreased cold-related human morbidity and mortality
- Decreased risk of damage to a number of crops, and increased risk
to others
- Extended range and activity of some pest and disease vectors
- Reduced heating energy demand
|
| |
More intense precipitation events
(Very Likelya over many areas) |
- Increased flood, landslide, avalanche, and mudslide damage
- Increased soil erosion
- Increased flood runoff could increase recharge of some floodplain
aquifers
- Increased pressure on government and private flood insurance systems
and
disaster relief
|
| |
| Complex Extremes |
|
| |
Increased summer drying over most
mid-latitude continental interiors and
associated risk of drought (Likelya) |
- Decreased crop yields
- Increased damage to building foundations caused by ground shrinkage
- Decreased water resource quantity and quality
- Increased risk of forest fire
|
| |
Increase in tropical cyclone peak wind
intensities, mean and peak precipitation
intensities (Likelya over some areas)e |
- Increased risks to human life, risk of infectious disease epidemics,
and many
other risks
- Increased coastal erosion and damage to coastal buildings and infrastructure
- Increased damage to coastal ecosystems such as coral reefs and mangroves
|
| |
Intensified droughts and floods associated
with El Niño events in many different
regions (Likelya)
(see also under droughts and intense
precipitation events) |
- Decreased agricultural and rangeland productivity in drought- and
flood-prone
regions
- Decreased hydro-power potential in drought-prone regions
|
| |
Increased Asian summer monsoon
precipitation variability (Likelya) |
- Increase in flood and drought magnitude and damages in temperate and
tropical Asia
|
| |
Increased intensity of mid-latitude storms
(little agreement between current models)d |
- Increased risks to human life and health
- Increased property and infrastructure losses
- Increased damage to coastal ecosystems
|
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