|28 Aug. 2013
GSA Release No. 13-36
GSA Today Science: Biofilms, MISS, and Stromatolites
Boulder, Colorado, USA – In the September issue of GSA Today, Nora Noffke of Old Dominion University and Stan Awramik of the University of California, Santa Barbara, describe the interaction of carpet-like communities of benthic microorganisms (biofilms) with sediment dynamics at the sediment-water interface to form distinctive sedimentary structures called microbialites.
The best known microbialite structures are stromatolites — multilayered microbialites up to meters in thickness, built up by repetitive binding, biostabilization, baffling, and trapping of sediment particles by microorganisms, coupled with carbonate precipitation. In the absence of such precipitation, however, these processes result in the formation of very characteristic microbially induced sedimentary structures, or "MISS," best seen on sediment surfaces.
Both stromatolites and MISS are first found in the early Archean, more than three billion years ago, recording highly evolved microbial activity quite early in Earth's history. Whereas the stromatolites show enormous morphologic and taxonomic variation, MISS have remained essentially unchanged with time. MISS may be the older relative, but due to the paucity of well-preserved sedimentary rocks older than three billion years, the origin of both stromatolites and MISS remains uncertain.
Stromatolites and MISS—Differences between relatives
N. Noffke, Old Dominion University, Dept. of Ocean, Earth & Atmospheric Sciences, Norfolk, Virginia, 23529, USA, email@example.com; and S.M. Awramik, University of California, Dept. of Earth Science, Santa Barbara, California 93106, USA, firstname.lastname@example.org. v. 23, no. 9, p. 4–9, doi: 10.1130/GSATG187A.1; open access online.
GSA Today articles are posted online; for a print copy, please contact Kea Giles. Please discuss articles of interest with the authors before publishing stories on their work, and please make reference to GSA Today in articles published.