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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Climate restoration | 2/2 | https://en.wikipedia.org/wiki/Climate_restoration | reference | science, encyclopedia | 2026-05-05T07:17:33.592291+00:00 | kb-cron |
levels of climate forcing agents in the atmosphere, especially CO2 and methane for positive forcing and SO2 aerosol for negative forcing; global mean surface temperature (compared to some baseline) and its rate of increase; sea level and the rate that sea level is rising; pH and rate of ocean acidification. Ice levels of the polar ice caps. One of the principal goals for climate restoration is to bring the CO2 level down from current level of ~420 ppm (2022) towards its pre-industrial level of ~280 ppm. Not only will this reduce CO2's global warming effect but also its effect on ocean acidification. The removed carbon would be sequestered or used as a construction material.
== Climate restoration open letter == On November 13, 2020, an open letter, put together by the youth organisation Worldward, calling for climate restoration was published in the Guardian newspaper. The letter was signed by prominent scientists and activists, including: Michael E Mann, Dr James Hansen, George Monbiot, Hindou Oumarou Ibrahim, Dr Rowan Williams, Bella Lack, Will Attenborough, Mark Lynas, Chloe Ardijis, Dr Shahrar Ali, and many more. After its publication, the letter was opened up to general signatories, and the signatories published on Worldward's website.
== Climate Restoration publications ==
=== Climate Risk Management Letter in Science Magazine === Early scientific arguments for what is now called climate restoration—specifically, the use of negative emissions to reduce atmospheric CO₂ rather than merely stabilize it—appeared before such pathways became mainstream in IPCC assessments. In a 2001 Science letter, Obersteiner et al. criticized “static stabilization” as non-robust under uncertainty and reframed climate policy as anticipatory risk management, emphasizing the potential importance of technologies that can rapidly remove greenhouse gases from the atmosphere . They identified biomass energy with carbon capture and permanent geological storage as a plausible mechanism for “net removal of carbon from the atmosphere (negative emissions),” potentially at a scale large enough to neutralize historical fossil-fuel emissions.
=== Early Conceptualising Conference Paper === In a 2004 conference paper, former IPCC chair Bert Bolin with Michael Obersteiner, Kenneth Möllersten, and Christian Azar argue that prevailing climate policy frameworks may be insufficient when viewed through a risk management perspective under deep uncertainty. They contend that the only concentration policy fully consistent with the objectives of the UNFCCC would be to bring greenhouse gas concentrations back to the stable bounds within which they fluctuated over the past 420,000 years, implying restoring atmospheric concentrations toward the historically observed range prior to anthropogenic perturbation. The authors highlight the strategic importance of negative emission technologies, particularly bioenergy with carbon capture and storage (BECCS). In retrospect, the paper bears a clear resemblance to “climate restoration,” insofar as it articulates the objective of returning atmospheric greenhouse gas concentrations toward historically stable levels rather than merely stabilizing them at elevated concentrations.
=== White Paper === On September 17, 2019, the Foundation for Climate Restoration published a White Paper on existing Climate Restoration solutions and developing technologies. These solutions and technologies include proven, commercially viable projects, such as creating synthetic rock from carbon captured in the air for use in construction and paving, as well as emerging methods for removing and storing carbon, restoring oceans and fisheries. The White Paper also discusses Climate Restoration strategy and costs. A main goal of the Foundation for Climate Restoration is the reduction of atmospheric CO2 to below 300 ppm (i.e. near its pre-industrial level) by 2050.
=== Climate Restoration: The Only Future That Will Sustain the Human Race === Authored by Peter Fiekowsky and Carole Douglis, this book was published on April 21, 2022. It describes, among others, the criteria for climate restoration: Permanence —so the CO2 stays out of the atmosphere for at least 100 years; Scalability —the method must be able to remove at least 25 billion tons of CO2 a year; Financial viability—funding for at-scale carbon removal must be in place. It then describes four solutions that appear to fit the criteria: a) ocean fertilization; b) synthetic limestone; c) seaweed; d) enhanced atmospheric methane oxidation using iron chloride. It claims that the required technologies and finance are already available to restore a safe climate. Scale-up requires that the restoration goal be endorsed by the UN and large NGOs so that investors and philanthropists can justify funding the projects. The authors do not assume government funding will be forthcoming. The book is currently being revised for a second edition, to appear in 2025. The new version will emphasize ocean iron fertilization, as recent research shows that this solution is the most likely to scale to meet the challenge.
== Limitations == Not every aspect of the Earth System can be returned to a previous state: notably the warming of the deep sea or deep ocean and the associated sea level rise which has already taken place may be essentially irreversible this century. Conversely, there are certain aspects of the Earth System that need to be improved with respect to the recent past: notably food productivity, considering an increased global population by 2050 or 2100.
== Key organisations == The Foundation for Climate Restoration The Climate Restoration Alliance The Climate Restoration Program DeepGreen Solutions Worldward
== References ==