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 finds that temporary nature-based carbon removal can lower global peak warming levels but only if complemented by ambitious fossil fuel emission reductions. 

Nature-based climate solutions aim to preserve and enhance carbon storage in terrestrial or aquatic ecosystems and could be a potential contributor to Canada鈥檚 climate change mitigation strategy. 鈥淗owever, the risk is that carbon stored in ecosystems could be lost back to the atmosphere as a result of wildfires, insect outbreaks, deforestation or other human activities,鈥� says Kirsten Zickfeld, a distinguished professor of climate science in 大象传媒's Department of Geography who is on the research team.

The researchers used a global climate model to simulate temperature change through two scenarios ranging from weak to ambitious greenhouse gas emissions reductions. In the relatively weak emissions reduction scenario, carbon emissions continue through 2100. In the ambitious scenario carbon emissions reach net-zero by 2050.

In order to meet the Paris Agreement鈥檚 climate goals, the world will need to reach net-zero CO2 emissions around or before mid-century, according to the United Nations鈥� Intergovernmental Panel on Climate Change.

In both scenarios, it is assumed that carbon storage through nature-based climate solutions is temporary as forests are vulnerable to both natural and human disturbances. Therefore, nature-based climate solutions are anticipated to withdraw carbon from the atmosphere over the next 30 years then slowly release the carbon during the second half of the century.

The team found that in a scenario with carbon emissions decreasing rapidly to net-zero, temporary nature-based carbon storage can decrease the level of peak warming. However, in a scenario with continued carbon emissions temporary nature-based carbon storage would serve only to delay the temperature increase. 

鈥淥ur study shows that nature-based carbon storage, even if temporary, can have tangible climate benefits, but only if implemented alongside a rapid transition to zero fossil-fuel emissions,鈥� says Zickfeld. 

The findings are  

Zickfeld is also the lead author of the recent United Nations鈥� Intergovernmental Panel on Climate Change (IPCC) Working Group I contribution to the Sixth Assessment Report released in summer 2021, and the IPCC鈥檚 2018 special report on the global warming of 1.5 degrees.

The researchers also note that investing in protecting and restoring nature offers social and environmental benefits for local and Indigenous communities beyond storing carbon to mitigate climate change. They add that biodiversity, water and air quality are inherently valuable and that efforts to enhance these can also help to build community resilience to climate change.

AVAILABLE 大象传媒 EXPERTS

KIRSTEN ZICKFELD, professor of climate science and director of 大象传媒鈥檚 Climate Research Lab, geography  
 kzickfel@sfu.ca

CONTACT 

MELISSA SHAW, 大象传媒  Communications & Marketing 
236.880.3297 | melissa_shaw@sfu.ca

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778.782.3210

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As Canada鈥檚 engaged university, 大象传媒 works with communities, organizations and partners to create, share and embrace knowledge that improves life and generates real change. We deliver a world-class education with lifelong value that shapes change-makers, visionaries and problem-solvers. We connect research and innovation to entrepreneurship and industry to deliver sustainable, relevant solutions to today鈥檚 problems. With campuses in British Columbia鈥檚 three largest cities鈥擵ancouver, Burnaby and Surrey鈥敶笙蟠� has eight faculties that deliver 193 undergraduate degree programs and 144 graduate degree programs to more than 37,000 students. The university now boasts more than 170,000 alumni residing in 145+ countries.