En-en adult card 21 temperature rise: Difference between revisions
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* [[En-en_adult_card_32_decline_agricultural_yields|Decline Agricultural Yields]] | * [[En-en_adult_card_32_decline_agricultural_yields|Decline Agricultural Yields]] | ||
* [[En-en_adult_card_36_heat_waves|Heat Waves]] | * [[En-en_adult_card_36_heat_waves|Heat Waves]] | ||
* [[En-en_adult_card_38_human_health|Human Health]] | |||
* [[En-en_adult_card_41_permafrost|Permafrost]] | * [[En-en_adult_card_41_permafrost|Permafrost]] | ||
Revision as of 11:47, 5 April 2021
Card #21: Temperature Rise
Causes | Consequences | |
Here we are referring to the average temperature of air above the ground on Earth.
It has increased by 1°C since 1900. Depending on the scenarios, the rise in temperature could reach 2°C to 5°C by 2100.
At the end of the last ice age years, the average temperature was only 5°C lower than today... and deglaciation took 10,000 years!
Correction
Causes
Consequences
- Disruption Water Cycle
- Terrestrial Biodiversity
- Decline Agricultural Yields
- Heat Waves
- Human Health
- Permafrost
Explanation
This card can play two roles:
- Either it's the temperature of the air, and therefore of the atmosphere. This is how it should be interpreted when you have kept cards 10, 14 and 15. In this case, the previous card is 14.
- Either it represents the temperature of the Earth (and this is good because the definition of the temperature of the Earth is precisely the temperature of the air, at ground level, on average at the surface of the Earth). In this case, the previous card is 13 and we can link to cards 16, 17, 18 and 19.
At the current rate of warming, 0.2°C per decade, the warming will reach 1.5°C between 2030 and 2050.
Other possible links
Other consequences
Vectors of disease The vectors of disease card is generally linked to the Terrestrial Biodiversity card because disease vectors are a sub-part of biodiversity, but it can also be linked to the same causes as the biodiversity card, i.e. Disruption of the Water Cycle and Temperature Rise.
To go further
Additional data
The ocean absorbs 93% of the excess energy on earth. How is it that it only warms up by a tenth of a degree at the surface and even less under water? This is because it is much more massive than the atmosphere and has a much greater calorific capacity. To measure this, we have to remember that the ocean covers 71% of the earth's surface and that it has a depth of 4000m on average. The atmosphere has a greater thickness, but if we bring it back to the same density as water, it is only 10m thick (this is why we gain one atmosphere of pressure every 10 m when we dive).
At the current rate of warming, 0.2°C per decade, warming will reach 1.5°C between 2030 and 2050.
The current level of ambition to slowly reduce the rate of greenhouse gas emissions would lead to a global warming of more than 3°C by 2100 and would therefore not respect the objective of the Paris Agreement.
Limiting global warming to well below 2°C would imply reducing CO2 emissions by 25% by 2030 and reaching a net zero rate by 2070.
Limiting global warming to 1.5°C would imply reducing CO2 emissions by 50% by 2030 and reaching a net zero level by 2050. This would require rapid, profound and unprecedented transitions in energy systems, land use, urban, industrial and infrastructure systems, using a range of technologies and behavioural changes.