SRES-population scenarios on city level: Difference between revisions

The text on this page is taken from an equivalent page of the IEHIAS-project.

As part of the EU-funded INTARESE project, which contributed to the development of this Toolbox, a case study was carried out to assess the health impacts of exposure to heat and UV radiation under different climate change scenarios. As part of this study, projected population estimates had to be downscaled to city level.

Aim: To develop population scenarios for the three city-level study areas, under each of the climate change scenarios. Four scenarios developed by the Intergovernmental Panel on Climate Change (IPCC) were used in the assessment: the SRES-A2 and SRES-B1 scenarios (for UV radiation) and the SRES-B1 and SRES-A1 scenarios for heat. Population projections under these scenarios were required for:

• The cities of Rome, Greater London and Helsinki;
• Time horizons of 2001 (baseline), 2030 and 2050 (in line with SRES A2, A1 and B1).
• Population data stratified by 5-year age groups

Explanation of the method

Background information on the IPCC population scenarios

The IPCC (2000) SRES emissions scenarios (A1, A2, B1, B2) used population projections from both the United Nations (UN) and the International Institute for Applied Systems Analysis (IIASA) (Table 1).

NOTE: The SRES OECD region includes Canada, Guam, Puerto Rico, United States of America, Virgin Islands, Andorra, Austria, Azores, Belgium, Canary Islands, Channel Islands, Cyprus, Denmark, Faeroe Islands, Finland, France, Germany, Gibraltar, Greece, Greenland, Iceland, Ireland, Isle of Man, Italy, Liechtenstein, Luxembourg, Madeira, Malta, Monaco, the Netherlands, Norway, Portugal, Spain, Sweden, Switzerland, Turkey

Baseline population data

Baseline population data are available from:

• London: Office of National Statistics (ONS)
• Rome: the National Institute of Statistics, Italy (ISTAT)
• Helsinki: City of Helsinki Urban Facts

WP3.7 Methodology: downscaling SRES-population scenarios from OECD-level to the city-level

Figure 1 provides an illustration of our methodology.

A). First, we obtained the SRES population projections and the UN Population Prospects 2006 Revision’s projections for the OECD region.

• The SRES OECD projections are available for total population and 4 different scenarios (A1, A2, B1 and B2). The time horizon is 2100.
• The UN 2006 population projections provide population data for both sexes and 5-year age groups, for each year up to 2050, and for several variants such as medium, high and low population.

B). For each SRES population scenario for the OECD region (2050), the United Nations variant (medium, high or low) that was the closest to the SRES scenario was chosen as the starting point for the population downscaling:

• SRES- A1 (A1B Illustrative Marker with model AIM) was matched withthe UN 2006 medium variant. According to this UN-variant the OECD population in 2050 will be 1.08 billion whereas the SRES A1 scenario ( (estimated that population will be 1.08 7 billion in 2050 (UN 2006 medium variant= 100% *A1).
• SRES-A2(A2 Illustrative Marker with model ASF) was matched withthe UN 2006 high variant, as A2 is characterized by high population growth. According to this UN-variant, the OECD population in 2050 will be 1.25 billions where as the A2 scenario gives a population of 1.13 billion 2050. (UN 2006 high variant= 109% *A2).
• SRES-B1 (B1 Illustrative Marker with model IMAGE) was matched with UN 2006 medium variant. According to this UN variant the OECD population (minus Turkey and Cyprus) in 2050 will be 0.98 billion whereas the SRES B1 scenario estimated that population will be 1.00 billion in 2050 (UN 2006 medium variant= 98% *B1). We accounted fro the fact that the IMAGE model placed Turkey and Cyprus in the Middle East region, as opposed to OECD, as is typical with the other SRES marker models

Please note that the CIESIN made the same decisions based on the UN 2002 population revision data. Center for International Earth Science Information Network (CIESIN), 2002. Country-level Population and Downscaled Projections based on the B2 Scenario, 1990-2100, digital version. Palisades, NY: CIESIN, Columbia University.

C). For each city, we have accordingly translated the selected UN national population scenarios (UN Population Prospects 2006 Revision) to city-level population projections (2030, 2050) in the following steps:

• Step 1: Linking the selected UN 2006 projections with available national projections
  • We identified available population projections provided by national institutes.
  • For each UN 2006 scenario (national level), the national projection that was closest to the UN projection was identified.
• Step 2: Linking/downscaling selected national projections with/to city level population projections
  • We identified relevant - population projections (preferably city level).
  • For each national projection selected in step 1, we either a) selected the associated city-level projection (if available), or b) downscaled the associated sub-national projection to city level. Assuming that the population ratio of city\sub-national area remains the same to baseline year 2001.

The WP3.7-UVR full assessment report provides worksheets describing how this methodology has been applied to each of the three case studies (London, Rome, Helsinki).

References

• United Nations Population prospects 2006 Revision. Population database
• IPCC 2000 Special report on emission scenarios. Geneva: Intergovernmental Panel on Climate Change. Geneva.

See also

• Changing ambient UVR and future melanoma skin cancer
• Changing ambient UVR and future non-melanoma skin cancer