Authors
Daniele Daffonchio, Sara Borin, Tullio Brusa, Lorenzo Brusetti, Paul WJJ van Der Wielen, Henk Bolhuis, Michail M Yakimov, Giuseppe d'Auria, Laura Giuliano, Danielle Marty, Christian Tamburini, Terry J McGenity, John E Hallsworth, Andrea M Sass, Kenneth N Timmis, Anastasios Tselepides, Gert J De Lange, Andreas Hübner, John Thomson, Soterios P Varnavas, Francesco Gasparoni, Hans W Gerber, Elisa Malinverno, Cesare Corselli, Biodeep Scientific Party Garcin Jean 14 McKew Boyd 15 Golyshin Peter N. 16 Lampadariou Nikolaos 17 Polymenakou Paraskevi 17 Calore Daniele 18 Cenedese Stefano 18 Zanon Fabio 18 Hoog Sven 19
Publication date
2006/3/9
Journal
Nature
Volume
440
Issue
7081
Pages
203-207
Publisher
Nature Publishing Group UK
Description
The chemical composition of the Bannock basin has been studied in some detail,. We recently showed that unusual microbial populations, including a new division of Archaea (MSBL1), inhabit the NaCl-rich hypersaline brine. High salinities tend to reduce biodiversity, but when brines come into contact with fresher water the natural haloclines formed frequently contain gradients of other chemicals, including permutations of electron donors and acceptors, that may enhance microbial diversity, activity and biogeochemical cycling,. Here we report a 2.5-m-thick chemocline with a steep NaCl gradient at 3.3 km within the water column betweeen Bannock anoxic hypersaline brine and overlying sea water. The chemocline supports some of the most biomass-rich and active microbial communities in the deep sea, dominated by Bacteria rather than Archaea, and including four major new divisions of Bacteria. Significantly …
Total citations
Scholar articles
D Daffonchio, S Borin, T Brusa, L Brusetti… - Nature, 2006