Temporal Changes in Archaeal Diversity and Chemistry in a Mid-Ocean Ridge Subseafloor Habitat

doi:10.1128/AEM.68.4.1585-1594.2002

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Applied and Environmental Microbiology, April 2002, p. 1585-1594, Vol. 68, No. 4
0099-2240/02/$04.00+0 DOI: 10.1128/AEM.68.4.1585-1594.2002
Copyright © 2002, American Society for Microbiology. All Rights Reserved.

Temporal Changes in Archaeal Diversity and Chemistry in a Mid-Ocean Ridge Subseafloor Habitat

Julie A. Huber,¹^* David A. Butterfield,² and John A. Baross¹

School of Oceanography and Astrobiology Program,¹ Joint Institute for the Study of Atmosphere and Ocean, University of Washington, Seattle, Washington 98195²

Received 14 September 2001/ Accepted 9 January 2002

The temporal variation in archaeal diversity in vent fluidsfrom a midocean ridge subseafloor habitat was examined usingPCR-amplified 16S rRNA gene sequence analysis and most-probable-number(MPN) cultivation techniques targeting hyperthermophiles. Todetermine how variations in temperature and chemical characteristicsof subseafloor fluids affect the microbial communities, we performedmolecular phylogenetic and chemical analyses on diffuse-flowvent fluids from one site shortly after a volcanic eruptionin 1998 and again in 1999 and 2000. The archaeal populationwas divided into particle-attached (>3-µm-diametercells) and free-living fractions to test the hypothesis thatsubseafloor microorganisms associated with active hydrothermalsystems are adapted for a lifestyle that involves attachmentto solid surfaces and formation of biofilms. To delineate betweenentrained seawater archaea and the indigenous subseafloor microbialcommunity, a background seawater sample was also examined andfound to consist only of Group I Crenarchaeota and Group IIEuryarchaeota, both of which were also present in vent fluids.The indigenous subseafloor archaeal community consisted of clonesrelated to both mesophilic and hyperthermophilic Methanococcales,as well as many uncultured Euryarchaeota, some of which havebeen identified in other vent environments. The particle-attachedfraction consistently showed greater diversity than the free-livingfraction. The fluid and MPN counts indicate that while culturablehyperthermophiles represent less than 1% of the total microbialcommunity, the subseafloor at new eruption sites does supporta hyperthermophilic microbial community. The temperature andchemical indicators of the degree of subseafloor mixing appearto be the most important environmental parameters affectingcommunity diversity, and it is apparent that decreasing fluidtemperatures correlated with increased entrainment of seawater,decreased concentrations of hydrothermal chemical species, andincreased incidence of seawater archaeal sequences.

* Corresponding author. Mailing address: School of Oceanography, University of Washington, Box 357940, Seattle, WA 98195. Phone: (206) 543-4911. Fax: (206) 543-0275. E-mail: huberja{at}ocean.washington.edu.

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