CDR Verification Framework Documentation
Docs: Component
Mineral dispersal into ocean
Uncertainty
If alkalinity is added to the ocean directly in the form of mineral or a semi-solid form (e.g. Mg(OH)₂ or olivine), the total useful alkalinity released in the surface ocean is a function of particle size, dissolution rates, and sinking rates. Larger particle sizes may reduce dissolution rates or result in material sinking to depth or buried in sediment, complicating the assessment of alkalinity released.
Applicable pathways
Pathway
VCL
Ocean Alkalinity Enhancement (Mineral)
1-3
Revision history
Apr 10 2023
Edited component to reflect the differentiation between different types of mineral additions. This edit was made as part of a broader update to the OAE-mineral pathway, described here.
Sep 19 2022
First release.
Mineral dispersal into ocean
Uncertainty
If alkalinity is added to the ocean directly in the form of mineral or a semi-solid form (e.g. Mg(OH)₂ or olivine), the total useful alkalinity released in the surface ocean is a function of particle size, dissolution rates, and sinking rates. Larger particle sizes may reduce dissolution rates or result in material sinking to depth or buried in sediment, complicating the assessment of alkalinity released.
Applicable pathways
Pathway
VCL
Ocean Alkalinity Enhancement (Mineral)
1-3
Revision history
Apr 10 2023
Edited component to reflect the differentiation between different types of mineral additions. This edit was made as part of a broader update to the OAE-mineral pathway, described here.
Sep 19 2022
First release.