AUTHOR=Breuker Anja , Koeweker Gerrit , Blazejak Anna , Schippers Axel 

TITLE=The Deep Biosphere in Terrestrial Sediments in the Chesapeake Bay Area, Virginia, USA

JOURNAL=Frontiers in Microbiology

VOLUME=2

YEAR=2011

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2011.00156

DOI=10.3389/fmicb.2011.00156

ISSN=1664-302X

ABSTRACT=<p>For the first time quantitative data on the abundance of <italic>Bacteria, Archaea</italic>, and <italic>Eukarya</italic> in deep terrestrial sediments are provided using multiple methods (total cell counting, quantitative real-time PCR, Q-PCR and catalyzed reporter deposition–fluorescence <italic>in situ</italic> hybridization, CARD–FISH). The oligotrophic (organic carbon content of ∼0.2%) deep terrestrial sediments in the Chesapeake Bay area at Eyreville, Virginia, USA, were drilled and sampled up to a depth of 140 m in 2006. The possibility of contamination during drilling was checked using fluorescent microspheres. Total cell counts decreased from 10<sup>9</sup> to 10<sup>6</sup> cells/g dry weight within the uppermost 20 m, and did not further decrease with depth below. Within the top 7 m, a significant proportion of the total cell counts could be detected with CARD–FISH. The CARD–FISH numbers for <italic>Bacteria</italic> were about an order of magnitude higher than those for <italic>Archaea</italic>. The dominance of <italic>Bacteria</italic> over <italic>Archaea</italic> was confirmed by Q-PCR. The down core quantitative distribution of prokaryotic and eukaryotic small subunit ribosomal RNA genes as well as functional genes involved in different biogeochemical processes was revealed by Q-PCR for the uppermost 10 m and for 80–140 m depth. <italic>Eukarya</italic> and the Fe(III)- and Mn(IV)-reducing bacterial group <italic>Geobacteriaceae</italic> were almost exclusively found in the uppermost meter (arable soil), where reactive iron was detected in higher amounts. The bacterial candidate division JS-1 and the classes <italic>Anaerolineae</italic> and <italic>Caldilineae</italic> of the phylum <italic>Chloroflexi</italic>, highly abundant in marine sediments, were found up to the maximum sampling depth in high copy numbers at this terrestrial site as well. A similar high abundance of the functional gene <italic>cbbL</italic> encoding for the large subunit of RubisCO suggests that autotrophic microorganisms could be relevant in addition to heterotrophs. The functional gene <italic>aprA</italic> of sulfate reducing bacteria was found within distinct layers up to ca. 100 m depth in low copy numbers. The gene <italic>mcrA</italic> of methanogens was not detectable. Cloning and sequencing data of 16S rRNA genes revealed sequences of typical soil <italic>Bacteria</italic>. The closest relatives of the archaeal sequences were <italic>Archaea</italic> recovered from terrestrial and marine environments. Phylogenetic analysis of the <italic>Crenarchaeota</italic> and <italic>Euryarchaeota</italic> revealed new members of the uncultured South African Gold Mine Group, Deep Sea Hydrothermal Vent Euryarchaeotal Group 6, and Miscellaneous Crenarcheotic Group clusters.</p>