A Research Strategy for Ocean-Based Carbon Dioxide Removal and Sequestration
"As of 2021, atmospheric carbon dioxide levels have reached historically unprecedented levels, higher than at any time in the past 800,000 years. Worldwide efforts to reduce emissions by creating a more efficient, carbon-free energy system may not be enough to stabilize the climate and avoid th...
| Other Authors: | National Academies of Sciences, Engineering, and Medicine (U.S.). Ocean Studies Board, |
|---|---|
| Format: | Book |
| Language: | English |
| Published: |
Washington, DC :
The National Academies Press,
[2022]
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| Physical Description: |
xiii, 307 pages : illustrations (some color) ; 26 cm. |
| Series: |
Consensus study report.
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| Subjects: |
| Summary: |
"As of 2021, atmospheric carbon dioxide levels have reached historically unprecedented levels, higher than at any time in the past 800,000 years. Worldwide efforts to reduce emissions by creating a more efficient, carbon-free energy system may not be enough to stabilize the climate and avoid the worst impacts of climate change. Carbon dioxide removal (CDR) strategies, which remove and sequester carbon from the atmosphere, likely will be needed to meet global climate goals. The ocean, covering 70% of the Earth's surface, includes much of the global capacity for natural carbon sequestration; the ocean also holds great potential for uptake and longerterm sequestration of human-produced CO2. This report builds on previous work from the National Academies to assess what is currently known about the benefits, risks, and potential for responsible scale-up of six specific ocean-based CDR strategies as identified by the sponsor, ClimateWorks Foundation. It describes the research needed to advance understanding of those approaches and address knowledge gaps. The resulting research agenda is meant to provide an improved and unbiased knowledge base for the public, stakeholders, and policymakers to make informed decisions on the next steps for ocean CDR, as part of a larger climate mitigation strategy; it is not meant to lock in or advocate for any particular approach." -- |
|---|---|
| Item Description: |
Includes bibliographical references (pages 265-296). Summary -- Introduction -- Crosscutting Considerations on Ocean-based CDR R&D -- Nutrient Fertilization -- Artificial Upwelling and Downwelling -- Seaweed Cultivation -- Recovery of Marine Ecosystems -- Ocean Alkalinity Enhancement -- Electrochemical Engineering Approaches -- Synthesis and Research Strategy -- References -- Acronyms and Abbreviations -- Appendix A: Committee Biographies -- Appendix B: Workshop and Meeting Public Presentations to the Committee. "As of 2021, atmospheric carbon dioxide levels have reached historically unprecedented levels, higher than at any time in the past 800,000 years. Worldwide efforts to reduce emissions by creating a more efficient, carbon-free energy system may not be enough to stabilize the climate and avoid the worst impacts of climate change. Carbon dioxide removal (CDR) strategies, which remove and sequester carbon from the atmosphere, likely will be needed to meet global climate goals. The ocean, covering 70% of the Earth's surface, includes much of the global capacity for natural carbon sequestration; the ocean also holds great potential for uptake and longerterm sequestration of human-produced CO2. This report builds on previous work from the National Academies to assess what is currently known about the benefits, risks, and potential for responsible scale-up of six specific ocean-based CDR strategies as identified by the sponsor, ClimateWorks Foundation. It describes the research needed to advance understanding of those approaches and address knowledge gaps. The resulting research agenda is meant to provide an improved and unbiased knowledge base for the public, stakeholders, and policymakers to make informed decisions on the next steps for ocean CDR, as part of a larger climate mitigation strategy; it is not meant to lock in or advocate for any particular approach." -- Provided by publisher. |
| Physical Description: |
xiii, 307 pages : illustrations (some color) ; 26 cm. |
| Bibliography: |
Includes bibliographical references (pages 265-296). |
| ISBN: |
9780309087612 0309087619 |