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How demand reduction, transition to bio based feedstocks and adopting circular economy principle can mitigate climate change? 


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The transition to bio-based feedstocks and the adoption of circular economy principles can help mitigate climate change by reducing demand, promoting sustainability, and maximizing resource efficiency. By fully integrating the organic chemical sector into the bioeconomy and partially integrating the energy sector, the conflict between feedstock demand and availability can be mitigated . Circular economy strategies in sectors such as the built environment, transport, food system, and clean energy can complement decarbonization measures and further reduce greenhouse gas (GHG) emissions . Implementing circular and cascading use of wood in forestry value-chains can increase carbon sequestration, reduce emissions, and enhance climate change mitigation . Circular economy strategies in the environmental sector, such as shifting towards green fuels and biofuels, can limit the impacts of rising energy demand and reduce CO2 and particulate matter emissions . Closing the loop in the flow of carbon, nutrients, and water between agriculture, the human diet, and sanitation services can deliver multiple benefits for public health, food security, and climate mitigation .

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The paper discusses how a circular economy of nutrients derived from human excreta can mitigate climate change by reducing greenhouse gas emissions from mineral fertilizer production and application. However, it does not specifically mention demand reduction, transition to bio-based feedstocks, or the adoption of circular economy principles in relation to climate change mitigation.
The paper states that implementing circular economy strategies, such as transitioning to bio-based feedstocks and reducing energy demand, can lead to a reduction in CO2 and particulate matter emissions, thereby mitigating climate change.
The paper discusses how adopting circular economy principles in forestry value-chains can reduce demand for virgin wood, increase carbon sequestration and storage, and reduce greenhouse gas emissions, thereby mitigating climate change.
Circular economy strategies, including demand reduction and transitioning to bio-based feedstocks, can mitigate climate change by reducing greenhouse gas emissions in the production phase of raw materials and new products. (No information on adopting circular economy principles)

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