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Sulfur isotope systematics of a euxinic, low-sulfate lake: Evaluating the importance of the reservoir effect in modern and ancient oceans
Maya L. Gomes, Matthew T. Hurtgen
Continental Scientific Drilling Facility
Research output
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Contribution to journal
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Article
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peer-review
105
Scopus citations
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Dive into the research topics of 'Sulfur isotope systematics of a euxinic, low-sulfate lake: Evaluating the importance of the reservoir effect in modern and ancient oceans'. Together they form a unique fingerprint.
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Keyphrases
Kinetic Isotope Effect
100%
Isotope Systematics
100%
Reservoir Effect
100%
Sulfur Isotopes
100%
Euxinic
100%
S Isotope
100%
Ancient Ocean
100%
Sulfate Concentration
66%
Microbial Sulfate Reduction
66%
Sulfur
33%
Sulfate Reduction
33%
Chemical Evolution
33%
Sulfide
33%
Sedimentary Rocks
33%
Earth Surface
33%
Rock Record
33%
Ocean-atmosphere System
33%
Pyrite Formation
33%
Redox History
33%
Earth History
33%
Marine Sulfate Concentration
33%
Isotope Composition
33%
Sulfide Phase
33%
Earth and Planetary Sciences
Isotope Effect
100%
Sulfur Isotopes
100%
Sulfide
66%
Experimental Study
33%
Precambrian
33%
Sedimentary Rock
33%
Chemical Evolution
33%
Earth Surface
33%
Atmosphere-Ocean System
33%