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15.7: Conclusion

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    42003

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    Successful mitigation of super pollutants, also known as SLCPs, will avoid up to 0.6ºC of warming by 2050 (with 0.1ºC of this from HFCs) and 1.2ºC by 2100 (with up to 0.5ºC from HFCs). The short lifetimes of SLCPs mean that fast action yields fast results, which is crucial in the near term because of the accelerating rate of warming we are experiencing. SLCP mitigation bends the curve almost immediately, limiting the warming that will take place during the decades that will pass before CO2 mitigation takes effect. This will reduce the risk of runaway climate change from self-reinforcing feedbacks that could lead to a “hot house” planet. SLCP mitigation also has co-benefits of reducing impacts to human health and crops from air pollution that is associated with black carbon and tropospheric ozone, which disproportionately affect the global poor.

    The direct and indirect impacts of black carbon can be mitigated through already available and deployable solutions in the transportation, residential, industrial, and agricultural sectors. Similarly, the powerful warming from methane—which also reacts in the atmosphere to produce tropospheric ozone, another SLCP—can be mitigated through measures implemented in the fossil fuel industry, waste management, and agriculture. HFCs have helped transition the world away from the CFCs and HCFCs that were destroying the ozone layer, but the climate impact from HFCs must now be eliminated. Fast implementation of the Kigali Amendment to the Montreal Protocol can avoid up to 0.5ºC of warming, and improvements in energy efficiency in cooling equipment can double this.

    This page titled 15.7: Conclusion is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by via source content that was edited to the style and standards of the LibreTexts platform.