Placing an upper limit on cryptic marine sulphur cycling

Johnston, D. T.; Gill, B. C.; Masterson, A.; Beirne, E.; Casciotti, K. L.; Knapp, A. N.; Berelson, W.

Placing an upper limit on cryptic marine sulphur cycling

D. T. Johnston (), B. C. Gill, A. Masterson, E. Beirne, K. L. Casciotti, A. N. Knapp and W. Berelson
Additional contact information
D. T. Johnston: Harvard University
B. C. Gill: Virginia Tech University
A. Masterson: Harvard University
E. Beirne: Harvard University
K. L. Casciotti: Stanford University
A. N. Knapp: Ocean and Atmospheric Sciences, Florida State University
W. Berelson: University of Southern California

Nature, 2014, vol. 513, issue 7519, 530-533

Abstract: The oxygen isotopic composition of seawater sulphate in oxygen-deficient waters records the degree of in situ sulphur cycling.

Date: 2014
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DOI: 10.1038/nature13698

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