Driving forces for emission scenarios: Difference between revisions

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<onlyinclude>'''Driving forces for emission scenarios''' are the factors that influence how society will [[emission|emit]] [[greenhouse gases]] in the future.</onlyinclude> There are a few main driving forces for [[emission scenario]]s, each of which impact greenhouse gas emissions. Emission scenarios take into account each driving force in different ways, resulting in unique scenarios of the Earth's future.  
<onlyinclude>'''Driving forces for emission scenarios''' are the factors that influence how society will [[emission|emit]] [[greenhouse gases]] in the future.</onlyinclude> There are a few main driving forces for [[emission scenario]]s, each of which impact greenhouse gas emissions. Emission scenarios take into account each driving force in different ways, resulting in unique scenarios of the Earth's future.


These driving forces are also factors in the [[Kaya identity]], a metric used to determine carbon emissions.
These driving forces are also factors in the [[Kaya identity]], a metric used to determine carbon emissions. The driving forces are:<ref name="ipcc1">IPCC. (Accessed May 9, 2016). "IPCC Special Report on Emissions Scenarios" [Online], Available: https://www.ipcc.ch/pdf/special-reports/spm/sres-en.pdf</ref><ref>Population Connection (2026). (Accessed June 26, 2026). ''Ten Ways Population Growth Impacts the Environment'' [Online]. Available: https://populationconnection.org/blog/world-environment-day/</ref>


The driving forces are:<ref name=ipcc1>IPCC. (Accessed May 9, 2016). "IPCC Special Report on Emissions Scenarios" [Online], Available: https://www.ipcc.ch/pdf/special-reports/spm/sres-en.pdf</ref>  
# '''Energy use''' - Currently the world gets most of its [[energy]] from [[fossil fuel]]s, with a smaller mix of [[nuclear power]] and [[renewable energy]]. Different [[emission scenario#Storyline Approach|emission storylines]] follow the path of high fossil fuel use, while others assume minimal fossil fuel use.
# '''Economic development''' - The [[economy]] fluctuates on a daily basis, however general assumptions can be made for the long term future. One of which that is used in the scenarios is the narrowing of income differences among the world's regions. Since energy-use worldwide is affected largely by the economy, [[greenhouse gas|GHG]] emissions are as well.
# '''Technological development''' - Within the next 100 years there is no telling where [[technology]] will be. Technological advancements increase [[efficiency]] of processes, and could potentially result in lower GHG emissions depending on other factors.
# '''Population growth''' - There are many models of the world's future [[world population|population]], varying from 8 billion people to over 15 billion people by the year 2100. The most widely accepted models place the world population at just above 10 billion people by this time. In Figure 1: while per capita emissions (t CO<sub>2</sub> eq) are relatively stable, total emissions (Mt CO<sub>2</sub> eq) are on a steady rise because of global population growth. To learn more about scenarios, see ''[[emission scenario]]''.[[File:Global total greenhouse gas emissions.png|center|thumb|750x750px|Figure 1. Global total greenhouse gas emissions and per capita greenhouse gas emissions, 1990 to 2022. Between 2005 and 2022, global GHG emissions increased by 24.2%, from 39,300 to 48,824 megatonnes of carbon dioxide equivalent.<ref>Government of Canada (2026). (Accessed June 26, 2026). ''Global greenhouse gas emissions'' [Online]. Available: https://www.canada.ca/en/environment-climate-change/services/environmental-indicators/global-greenhouse-gas-emissions.html</ref>]]


*'''Energy use''' - Currently the world gets most of its [[energy]] from [[fossil fuel]]s, with a smaller mix of [[nuclear power]] and [[renewable energy]]. Different [[emission scenario#Storyline Approach|emission storylines]] follow the path of high fossil fuel use, while others assume minimal fossil fuel use.
== For Further Reading ==
 
*'''Economic development''' - The [[economy]] fluctuates on a daily basis, however general assumptions can be made for the long term future. One of which that is used in the scenarios is the narrowing of income differences among the world's regions. Since energy-use worldwide is affected largely by the economy, [[greenhouse gas|GHG]] emissions are as well.
 
*'''Technological development''' - Within the next 100 years there is no telling where [[technology]] will be. Technological advancements increase [[efficiency]] of processes, and could potentially result in lower GHG emissions depending on other factors.
 
*'''Population growth''' - There are many models of the world's future [[world population|population]], varying from 7 billion people to over 15 billion people by the year 2100. The most widely accepted models place the world population at just above 10 billion people by this time. The four families of scenarios (A1, A2, B1, B2) take different extremes into consideration, with lower population growth resulting in lower GHG emissions (see Figure 1 below). To learn more about the scenarios, see ''[[emission scenario]]''.
 
[[File:IPCCpop.gif|center|800px|thumb|Figure 1. A graph showing population models assumed by the different storylines. A1 and B1 assume lower limit growth, which follows lower fertility and mortality rates. B2 assumes the UN prediction of 10.6 billion people by 2100. A2 takes the highest fertility rate model which predicts a population of 15 billion by the year 2100.<ref>IPCC. (Accessed May 9, 2016). "IPCC SRES Ch.8" [Online], Available: http://www.grida.no/publications/other/ipcc_sr/?src=/climate/ipcc/emission/014.htm</ref>]]


* [[Emission scenario]]
* [[Energy use per person]]
* [[Economy]]
* [[Efficiency]]
* [[Population replacement rate]]
* Or explore a [[Special:Random|random page]]
==References==
==References==
{{reflist}}
{{reflist}}
[[Category: Uploaded]]

Latest revision as of 20:55, 2 July 2026

Driving forces for emission scenarios are the factors that influence how society will emit greenhouse gases in the future. There are a few main driving forces for emission scenarios, each of which impact greenhouse gas emissions. Emission scenarios take into account each driving force in different ways, resulting in unique scenarios of the Earth's future.

These driving forces are also factors in the Kaya identity, a metric used to determine carbon emissions. The driving forces are:[1][2]

  1. Energy use - Currently the world gets most of its energy from fossil fuels, with a smaller mix of nuclear power and renewable energy. Different emission storylines follow the path of high fossil fuel use, while others assume minimal fossil fuel use.
  2. Economic development - The economy fluctuates on a daily basis, however general assumptions can be made for the long term future. One of which that is used in the scenarios is the narrowing of income differences among the world's regions. Since energy-use worldwide is affected largely by the economy, GHG emissions are as well.
  3. Technological development - Within the next 100 years there is no telling where technology will be. Technological advancements increase efficiency of processes, and could potentially result in lower GHG emissions depending on other factors.
  4. Population growth - There are many models of the world's future population, varying from 8 billion people to over 15 billion people by the year 2100. The most widely accepted models place the world population at just above 10 billion people by this time. In Figure 1: while per capita emissions (t CO2 eq) are relatively stable, total emissions (Mt CO2 eq) are on a steady rise because of global population growth. To learn more about scenarios, see emission scenario.
    Figure 1. Global total greenhouse gas emissions and per capita greenhouse gas emissions, 1990 to 2022. Between 2005 and 2022, global GHG emissions increased by 24.2%, from 39,300 to 48,824 megatonnes of carbon dioxide equivalent.[3]

For Further Reading

References

  1. IPCC. (Accessed May 9, 2016). "IPCC Special Report on Emissions Scenarios" [Online], Available: https://www.ipcc.ch/pdf/special-reports/spm/sres-en.pdf
  2. Population Connection (2026). (Accessed June 26, 2026). Ten Ways Population Growth Impacts the Environment [Online]. Available: https://populationconnection.org/blog/world-environment-day/
  3. Government of Canada (2026). (Accessed June 26, 2026). Global greenhouse gas emissions [Online]. Available: https://www.canada.ca/en/environment-climate-change/services/environmental-indicators/global-greenhouse-gas-emissions.html