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Clay mineral continental amplifier for marine carbon sequestration in a greenhouse ocean
Martin J. Kennedy
*
,
Thomas Wagner
*
Corresponding author for this work
School of Energy, Geoscience, Infrastructure and Society
Research output
:
Contribution to journal
›
Article
›
peer-review
126
Citations (Scopus)
Overview
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INIS
amplifiers
100%
minerals
100%
oceans
100%
clays
100%
carbon sequestration
100%
greenhouses
100%
carbon
75%
surface area
50%
surfaces
25%
sediments
25%
anoxia
25%
values
12%
comparative evaluations
12%
protection
12%
water
12%
loading
12%
drilling
12%
geochemistry
12%
continental margin
12%
cretaceous period
12%
black shales
12%
Earth and Planetary Sciences
Clay Mineral
100%
Carbon Sequestration
100%
Organic Carbon
100%
Mineral Surface
83%
Surface Area
66%
Water Column
16%
Continental Shelf
16%
Late Cretaceous
16%
Fine Grained Sediment
16%
Ocean Drilling Program
16%
Earth Surface
16%
Black Shale
16%
Mineral Property
16%
Timescale
16%