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CO
2
storage and alkalinity trends in lakes
Abraham Lerman
*
, Werner Stumm
*
Corresponding author for this work
Earth, Environmental, and Planetary Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
33
Scopus citations
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2
storage and alkalinity trends in lakes'. Together they form a unique fingerprint.
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Keyphrases
Alkalinity
100%
CO2 Storage
100%
Atmospheric CO2
75%
Freshwater Lake
50%
Lake Water
25%
Lake Sediments
25%
Proton
25%
Chemical Base
25%
Reduction Reaction
25%
Iron-manganese
25%
Iron-sulfur
25%
Nitrogen Species
25%
Dissolved Carbonates
25%
Mineral Dissolution
25%
Carbonate Minerals
25%
Eutrophic Lake
25%
Iron Reduction
25%
CO2 Transfer
25%
Net Primary Productivity
25%
Scale Transfer
25%
Biological Efficiency
25%
Sulfur Species
25%
Reduced Methods
25%
Manganese Species
25%
Reaction in Water
25%
Iron Species
25%
Annual Increment
25%
High Alkalinity
25%
Oxidation Deposition
25%
Tropical Lake
25%
Carbonate Deposition
25%
Water Alkalinity
25%
Earth and Planetary Sciences
Alkalinity
100%
Carbon Dioxide
100%
Atmospherics
50%
Carbonate Mineral
16%
Lacustrine Deposit
16%
Base (Chemical)
16%
Lake Water
16%
Mineral Dissolution
16%
Iron
16%