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Iron cycling in the anoxic cryo-ecosystem of Antarctic Lake Vida

Citation

Proemse, BC and Murray, AE and Schallenberg, C and McKiernan, B and Glazer, BT and Young, SA and Ostrom, NE and Bowie, AR and Wieser, ME and Kenig, F and Doran, PT and Edwards, R, Iron cycling in the anoxic cryo-ecosystem of Antarctic Lake Vida, Biogeochemistry, 134, (1-2) pp. 17-27. ISSN 0168-2563 (2017) [Refereed Article]

Copyright Statement

Copyright 2017 Springer International Publishing Switzerland

DOI: doi:10.1007/s10533-017-0346-5

Abstract

Iron redox cycling in metal-rich, hypersaline, anoxic brines plays a central role in the biogeochemical evolution of life on Earth, and similar brines with the potential to harbor life are thought to exist elsewhere in the solar system. To investigate iron biogeochemical cycling in a terrestrial analog we determined the iron redox chemistry and isotopic signatures in the cryoencapsulated liquid brines found in frozen Lake Vida, East Antarctica. We used both in situ voltammetry and the spectrophotometric ferrozine method to determine iron speciation in Lake Vida brine (LVBr). Our results show that iron speciation in the anoxic LVBr was, unexpectedly, not free Fe(II). Iron isotope analysis revealed highly depleted values of −2.5 for the ferric iron of LVBr that are similar to iron isotopic signatures of Fe(II) produced by dissimilatory iron reduction. The presence of Fe(III) in LVBr therefore indicates dynamic iron redox cycling beyond iron reduction. Furthermore, extremely low δ18OSO42− values (−9.7) support microbial iron-sulfur cycling reactions. In combination with evidence for chemodenitrification resulting in iron oxidation, we conclude that coupled abiotic and biotic redox reactions are driving the iron cycle in Lake Vida brine. Our findings challenge the current state of knowledge of anoxic brine chemistry and may serve as an analogue for icy brines found in the outer reaches of the solar system.

Item Details

Item Type:Refereed Article
Keywords:Lake Vida, iron, redox, McMurdo dry valleys
Research Division:Earth Sciences
Research Group:Geochemistry
Research Field:Isotope Geochemistry
Objective Division:Environment
Objective Group:Flora, Fauna and Biodiversity
Objective Field:Antarctic and Sub-Antarctic Flora, Fauna and Biodiversity
Author:Proemse, BC (Dr Bernadette Proemse)
Author:Schallenberg, C (Dr Christina Schallenberg)
Author:Bowie, AR (Associate Professor Andrew Bowie)
ID Code:117120
Year Published:2017
Web of Science® Times Cited:1
Deposited By:CRC-Antarctic Climate & Ecosystems
Deposited On:2017-05-31
Last Modified:2018-04-20
Downloads:0

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