3.7.2.3. Rarely Considered Interactions
Most scenarios emphasize systemic interactions within nonhuman components of
the climate system. These interactions are relatively well studied. The response
of society to changes in the climate system is much less well studied. Land-use
and land-cover change is an exception, but its treatment in climate scenarios
still is far from ideal (see Section 3.3). The difficulty
of including such interactions in scenario development is that many are not
precisely specified and act indirectly. For example, warmer climates would change
heating and cooling requirements of buildings. Such effects frequently are listed
as impacts but are not factored in as adjustments to energy use and thus emission
levels. Another example is population migration, which can be treated as an
impact of environmental or socioeconomic change while also serving as a scenario
of demographic change affecting future regional vulnerability (Döös,
1997).
A model that accounts for such societal interactions with the climate system
is TARGETS (Rotmans and de Vries, 1997), which evolved from the WORLD model
of Meadows et al. (1992). TARGETS is a highly aggregated model (only
two regions and few resource classes) with simple relationships between population,
economic development, and resource use; between environmental conditions and
population/health/wealth; and between emissions, concentrations, climate, and
impacts. The model generates globally averaged emissions and climate change
scenarios. The strength of the model is that different interactions—including
controversial ones, such as the effects of climate change on food availability
and health and their interactions with population—can be explored easily,
but its use for developing scenarios for impact assessment is limited.
Table 3-9: Some aspects of the SRES emissions scenarios
and their implications for CO2 concentration, global temperature
and sea-level rise by 2050 and 2100 compared to the IS92a emissions scenario
(Leggett et al., 1992). Data in columns 2-4 are taken from Nakicenovic
et al. (2000). Calculations in columns 6-7 are relative to 1990.  T
is change in mean annual temperature averaged across simple climate model
runs emulating results of seven AOGCMs with average climate sensitivity
of 2.8°C (Chapter 9, TAR WGI).
CO2 concentrations were estimated by using the same model runs
(data from S.C.B. Raper, Chapter 9, TAR
WGI). Sea-level rise estimates are based on temperature changes (Chapter
11, TAR WGI). SRES-min and SRES-max are minimum
and maximum estimates across all 40 SRES scenarios (35 fully quantified
scenarios for CO2, T,
and sea level). High and low estimates of CO2 concentration and
temperature change account for uncertainties in climate sensitivity (across
the range 1.7-4.2°C). Sea-level rise range also accounts for uncertainties
in model parameters for land ice, permafrost, and sediment deposition. Note
that scenario values are mutually consistent along all rows except for SRES-min
and SRES-max. |
 |
Emissions
Scenario |
Global
Population
(billions)
|
Global
GDPa
(1012 US$ a-1)
|
Per Capita
Income
Ratiob
|
CO2
Concentrationc
(ppm)
|
Global
T
(°C)
|
Global Sea-
Level Rise
(cm)
|
| |
| 1990 |
5.3
|
21
|
16.1
|
354
|
0
|
0
|
| |
|
|
|
|
|
|
| 2000 |
6.1-6.2
|
25-28d
|
12.3-14.2d
|
367e
|
0.2
|
2
|
| |
|
|
|
|
|
|
| 2050 |
|
|
|
|
|
|
|
- SRESA1FI
|
8.7 |
164 |
2.8 |
573 |
1.9 |
17 |
|
- SRESA1B
|
8.7 |
181 |
2.8 |
536 |
1.6 |
17 |
|
- SRESA1T
|
8.7 |
187 |
2.8 |
502 |
1.7 |
18 |
|
- SRESA2
|
11.3 |
82 |
6.6 |
536 |
1.4 |
16 |
|
- SRESB1
|
8.7 |
136 |
3.6 |
491 |
1.2 |
15 |
|
- SRESB2
|
9.3 |
110 |
4.0 |
478 |
1.4 |
16 |
|
- IS92a
|
10.0 |
92 |
9.6 |
512 |
1.0 |
— |
|
|
- SRES-min
|
8.4 |
59 |
2.4 |
463 |
0.8 |
5 |
|
- SRES-max
|
11.3 |
187 |
8.2 |
623 |
2.6 |
32 |
| |
|
|
|
|
|
|
| 2100 |
|
|
|
|
|
|
| - SRESA1FI |
7.1 |
525 |
1.5 |
976 |
4.5 |
49 |
| - SRESA1B |
7.1 |
529 |
1.6 |
711 |
2.9 |
39 |
| - SRESA1T |
7.1 |
550 |
1.6 |
569 |
2.5 |
37 |
| - SRESA2 |
15.1 |
243 |
4.2 |
857 |
3.8 |
42 |
| - SRESB1 |
7.0 |
328 |
1.8 |
538 |
2.0 |
31 |
| - SRESB2 |
10.4 |
235 |
3.0 |
615 |
2.7 |
36 |
| - IS92a |
11.3 |
243 |
4.8 |
721 |
2.4 |
— |
|
| - SRES-min |
7.0 |
197 |
1.4 |
478 |
1.4 |
9 |
| - SRES-max |
15.1 |
550 |
6.3 |
1099 |
5.8 |
88 |
| |
|