Exploring negative emission potential of biochar to achieve carbon neutrality goal in China
Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in ter...
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| Vydáno v: | Nature communications Ročník 15; číslo 1; s. 1085 - 11 |
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| Hlavní autoři: | , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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London
Nature Publishing Group UK
05.02.2024
Nature Publishing Group Nature Portfolio |
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| ISSN: | 2041-1723, 2041-1723 |
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| Abstract | Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO
2
per year with an average net cost of US$90 per ton of CO
2
in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China’s target of carbon neutrality by 2060.
Authors analyze the potential of biochar in China, revealing it could sequester up to 0.92 billion tons of CO
2
per year with an average net cost of US$90 per ton of CO
2
in a sustainable manner, supporting carbon neutrality goal by 2060. |
|---|---|
| AbstractList | Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO2 per year with an average net cost of US $90 per ton of CO2 in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China’s target of carbon neutrality by 2060. Authors analyze the potential of biochar in China, revealing it could sequester up to 0.92 billion tons of CO2 per year with an average net cost of US$ 90 per ton of CO2 in a sustainable manner, supporting carbon neutrality goal by 2060. Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO per year with an average net cost of US$90 per ton of CO in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China's target of carbon neutrality by 2060. Abstract Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO2 per year with an average net cost of US$90 per ton of CO2 in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China’s target of carbon neutrality by 2060. Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO 2 per year with an average net cost of US$90 per ton of CO 2 in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China’s target of carbon neutrality by 2060. Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO 2 per year with an average net cost of US$90 per ton of CO 2 in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China’s target of carbon neutrality by 2060. Authors analyze the potential of biochar in China, revealing it could sequester up to 0.92 billion tons of CO 2 per year with an average net cost of US$90 per ton of CO 2 in a sustainable manner, supporting carbon neutrality goal by 2060. Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO2 per year with an average net cost of US$90 per ton of CO2 in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China's target of carbon neutrality by 2060.Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on the key sustainable development goals. Biochar has been proposed as an established technology for carbon sequestration with co-benefits in terms of soil quality and crop yield. However, the considerable uncertainties that exist in the potential, cost, and deployment strategies of biochar systems at national level prevent its deployment in China. Here, we conduct a spatially explicit analysis to investigate the negative emission potential, economics, and priority deployment sites of biochar derived from multiple feedstocks in China. Results show that biochar has negative emission potential of up to 0.92 billion tons of CO2 per year with an average net cost of US$90 per ton of CO2 in a sustainable manner, which could satisfy the negative emission demands in most mitigation scenarios compatible with China's target of carbon neutrality by 2060. |
| ArticleNumber | 1085 |
| Author | Deng, Xu Li, Renqiang Wang, Pan Chen, Minpeng Du, Zhangliu Teng, Fei Wang, Bin |
| Author_xml | – sequence: 1 givenname: Xu orcidid: 0000-0002-8509-9614 surname: Deng fullname: Deng, Xu organization: Institute of Energy, Environment and Economy, Tsinghua University – sequence: 2 givenname: Fei orcidid: 0000-0003-0371-1142 surname: Teng fullname: Teng, Fei email: tengfei@tsinghua.edu.cn organization: Institute of Energy, Environment and Economy, Tsinghua University – sequence: 3 givenname: Minpeng orcidid: 0000-0001-6159-6213 surname: Chen fullname: Chen, Minpeng organization: School of Agricultural Economics and Rural Development, Renmin University of China – sequence: 4 givenname: Zhangliu surname: Du fullname: Du, Zhangliu organization: College of Resources and Environmental Sciences, China Agricultural University – sequence: 5 givenname: Bin surname: Wang fullname: Wang, Bin organization: Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences – sequence: 6 givenname: Renqiang surname: Li fullname: Li, Renqiang organization: Key Laboratory of Ecosystem Network Observation and Modelling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences – sequence: 7 givenname: Pan surname: Wang fullname: Wang, Pan organization: Key Laboratory of Ecosystem Network Observation and Modelling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38316787$$D View this record in MEDLINE/PubMed |
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| Snippet | Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse effects on... Abstract Limiting global warming to within 1.5 °C might require large-scale deployment of premature negative emission technologies with potentially adverse... |
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| SubjectTerms | 704/844/2175 704/844/682 Carbon Carbon - analysis Carbon dioxide Carbon Dioxide - analysis Carbon neutrality Carbon Sequestration Charcoal China Climate change Crop yield Economic analysis Emission analysis Emissions Global warming Goals Humanities and Social Sciences multidisciplinary Science Science (multidisciplinary) Soil Soil quality Sustainability Sustainable development |
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| Title | Exploring negative emission potential of biochar to achieve carbon neutrality goal in China |
| URI | https://link.springer.com/article/10.1038/s41467-024-45314-y https://www.ncbi.nlm.nih.gov/pubmed/38316787 https://www.proquest.com/docview/2922281428 https://www.proquest.com/docview/2922947771 https://pubmed.ncbi.nlm.nih.gov/PMC10844326 https://doaj.org/article/9e15499e94fb42bcaa756244cb2a7a42 |
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