SUMMARY OF WORK PERFORMED:
MAIN RESULTS: The main results of this work are (1) the development of a method for the quantification of sulphide oxidation rates in sediments, (2) improved constraints on the isotopic signatures of sulphur cycling in sediments and natural environments. Please see below for a discussion of the significance of these results.
EXPLOITATION OF RESULTS:
The results of this project have been presented at multiple meetings and published in various scientific journals (full list below)
LIST OF PRESENTATIONS (only where the PI was the presenter):
Findlay A.J. Sulphide oxidation and intermediate turnover in the environment: Moving towards a more complete description of the environmental sulphur cycle. Invited Keynote presentation, Goldschmidt, August 2018.
Findlay A.J. Biogeochemistry of intermediate sulphur species. International Symposium on Microbial Sulfur Metabolism, April 2018.
This work was also presented by collaborators at Goldschmidt in 2017 and 2018, and by the PI at four departmental seminars at Aarhus University
LIST OF PUBLICATIONS
UNDER REVIEW:
Findlay A.J. Pellerin A., Laufer K., Jørgensen B.B. Quantification of sulphide oxidation rates in sediment. Submitted to Geochim Cosmochim Acta. In revision.
Michaud A., Laufer K., Findlay A.J. Pellerin A., Antler G., Turchyn A.V. Røy H., Jørgensen B.B. Sulfide oxidation in the glacially influenced fjords of western Spitsbergen, Svalbard. Submitted to Geochim Cosmochim Acta. In revision.
PUBLISHED:
Gartman A., Findlay A.J. Hannington M., Garbe-Schönberg D., Jamieson J.W. Kwasnitschka T. (in press) The role of nanoparticles in mediating element deposition and transport at hydrothermal vents. Geochim Cosmochim Acta
Pellerin A., Antler G., Holm S.A. Findlay A.J. Crockford P., Turchyn A., Jørgensen B., Finster K. (2019) Large sulfur isotope fractionation by bacterial sulfide oxidation. Science Advances. 5:eaaw1480
Findlay A.J. Boyko V., Pellerin A., Avetisyan K., Guo Q., Yang X., Kamyshny A. (2019). Sulfide oxidation affects the preservation of sulfur isotope signals. Geology. doi:10.1130/G46153.1
Findlay A.J. Estes E., Gartman A., Yücel M, Kamyshny Jr. A., Luther III G.W. (2019) Iron and sulfide (nano)particle formation and transport in nascent hydrothermal vent plumes. Nat Commun. 10:1597.
Jørgensen B.B. Findlay A.J. Pellerin A. (2019) The biogeochemical sulfur cycle of marine sediments. Frontiers Microbiol. doi:10.3389/fmicb.2019.00849
Wurgarft E., Findlay A.J. Viderovich H., Herut B., Sivan O. (2019) Sulfate reduction rates in the sediments of the Mediterranean continental shelf from combined dissolved inorganic carbon and total alkalinity profiles. Mar Chem. 211, 64-74.
Pellerin A., Antler G., Røy H., Findlay A.J. Beulig F., Turchyn A.V. Jørgensen B.B. (2018) Placing an upper limit on the cryptic sulfur cycle below the sulfate methane transition zone of Baltic Sea sediments. Geochim Cosmochim Acta 329, 74 – 89.