57 citations as recorded by crossref.

1. Sustained climate warming drives declining marine biological productivity J. Moore et al.
2. Potential climate engineering effectiveness and side effects during a high carbon dioxide-emission scenario D. Keller et al.
3. Identifying the Most (Cost‐)Efficient Regions for CO2 Removal With Iron Fertilization in the Southern Ocean L. Bach et al.
4. Carbon dioxide removal via macroalgae open-ocean mariculture and sinking: an Earth system modeling study J. Wu et al.
5. Comparative Assessment of Climate Engineering Scenarios in the Presence of Parametric Uncertainty G. Tran et al.
6. Toward a consensus framework to evaluate air–sea CO2 equilibration for marine CO2 removal L. Bach et al.
7. Contrasting carbon dioxide removal potential and nutrient feedbacks of simulated ocean alkalinity enhancement and macroalgae afforestation L. Kwiatkowski et al.
8. Oxygen utilization rate (OUR) underestimates ocean respiration: A model study W. Koeve & P. Kähler
9. Delivering the Aichi target 11: challenges and opportunities for marine areas beyond national jurisdiction J. Rochette et al.
10. Safeguarding the polar regions from dangerous geoengineering: a critical assessment of proposed concepts and future prospects M. Siegert et al.
11. A Code of Conduct Is Imperative for Ocean Carbon Dioxide Removal Research R. Loomis et al.
12. Ocean acidification in a geoengineering context P. Williamson & C. Turley
13. Southern Ocean biological impacts on global ocean oxygen D. Keller et al.
14. Developing a test-bed for robust research governance of geoengineering: the contribution of ocean iron biogeochemistry P. Boyd & M. Bressac
15. Techno-economic analysis of ocean iron fertilization C. Ward et al.
16. Taking Action Against Ocean Acidification: A Review of Management and Policy Options R. Billé et al.
17. CO2 Removal With Enhanced Weathering and Ocean Alkalinity Enhancement: Potential Risks and Co-benefits for Marine Pelagic Ecosystems L. Bach et al.
18. Potential risks of CO2 removal project based on carbonate pump to marine ecosystem L. Duan et al.
19. The case for ocean iron fertilization field trials K. Buesseler et al.
20. Next steps for assessing ocean iron fertilization for marine carbon dioxide removal K. Buesseler et al.
21. Ocean biogeochemical modelling K. Fennel et al.
22. Southern Ocean Iron Fertilization: An Argument Against Commercialization but for Continued Research Amidst Lingering Uncertainty T. Rohr
23. Carbon capture and storage: A comprehensive review on current trends, techniques, and future prospects in North America M. Seyyedattar & S. Zendehboudi
24. Simulated carbon cycle response to ocean iron fertilization and artificial ocean alkalinization X. Jin & L. Cao
25. Global teleconnections in the oceanic phosphorus cycle: Patterns, paths, and timescales M. Holzer & F. Primeau
26. Iron fertilisation and century-scale effects of open ocean dissolution of olivine in a simulated CO 2 removal experiment J. Hauck et al.
27. Can a Symbolic Mega-Unit of Radiative Forcing (RF) Improve Understanding and Assessment of Global Warming and of Mitigation Methods Using Albedo Enhancement from Algae, Cloud, and Land (AEfACL)? K. Lightburn
28. Marine methods for carbon dioxide removal: fundamentals and myth-busting for the wider community E. Rohling
29. Ocean fertilization for geoengineering: A review of effectiveness, environmental impacts and emerging governance P. Williamson et al.
30. The response of the ocean carbon cycle to artificial upwelling, ocean iron fertilization and the combination of both M. Jürchott et al.
31. How deep is deep enough? Ocean iron fertilization and carbon sequestration in the Southern Ocean J. Robinson et al.
32. Ocean-based negative emissions technologies: a governance framework review L. Röschel & B. Neumann
33. Southern Ocean Iron Limitation of Primary Production between Past Knowledge and Future Projections E. Bazzani et al.
34. Biogeochemical Equilibrium Responses to Maximal Productivity in High Nutrient Low Chlorophyll Regions W. Fu & W. Wang
35. Net-zero approaches must consider Earth system impacts to achieve climate goals K. Zickfeld et al.
36. The Effects of Carbon Dioxide Removal on the Carbon Cycle D. Keller et al.
37. Localizing the Southern Ocean Biogeochemical Divide Y. Xie et al.
38. Integrating Carbon Dioxide Removal Into European Emissions Trading W. Rickels et al.
39. Mineral-enhanced biological pump—A strategy based on mineral-microbe interactions for increasing carbon sink in water P. Yuan & D. Liu
40. Negative emissions—Part 3: Innovation and upscaling G. Nemet et al.
41. Feasibility study of ocean carbon dioxide removal (mCDR)－Key points from the National Academies of Science, Engineering, and Medicine report－ M. C. Honda
42. Indicators and metrics for the assessment of climate engineering A. Oschlies et al.
43. Research for assessment, not deployment, of Climate Engineering: The German Research Foundation's Priority Program SPP 1689 A. Oschlies & G. Klepper
44. Spinning carbon and sinking phosphorus: Misaligned cycles in the sea M. Church & K. Coates
45. Evaluating climate geoengineering proposals in the context of the Paris Agreement temperature goals M. Lawrence et al.
46. On the Origins of Open Ocean Oxygen Minimum Zones X. Davila et al.
47. Potential impacts of marine carbon dioxide removal on ocean oxygen A. Oschlies et al.
48. A new marine ecosystem model for the University of Victoria Earth System Climate Model D. Keller et al.
49. Dissolved greenhouse gases (nitrous oxide and methane) associated with the naturally iron-fertilized Kerguelen region (KEOPS 2 cruise) in the Southern Ocean L. Farías et al.
50. Perspectives and challenges of marine carbon dioxide removal A. Oschlies et al.
51. Potential use of engineered nanoparticles in ocean fertilization for large-scale atmospheric carbon dioxide removal P. Babakhani et al.
52. Direct cooling effect of artificial upwelling dominates over its marine carbon dioxide removal potential M. Jürchott et al.
53. The quiet crossing of ocean tipping points C. Heinze et al.
54. CMIP6 models agree on similar carbon cycle feedbacks between enhancing terrestrial and marine carbon sinks H. Wey et al.
55. Reviews and syntheses: Ocean iron fertilization experiments – past, present, and future looking to a future Korean Iron Fertilization Experiment in the Southern Ocean (KIFES) project J. Yoon et al.
56. The Potential for Ocean-Based Climate Action: Negative Emissions Technologies and Beyond J. Gattuso et al.
57. Ocean Solutions to Address Climate Change and Its Effects on Marine Ecosystems J. Gattuso et al.