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Applied and Environmental Microbiology, April 2006, p. 2400-2406, Vol. 72, No. 4
0099-2240/06/$08.00+0     doi:10.1128/AEM.72.4.2400-2406.2006
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

Fatty Acid-Oxidizing Consortia along a Nutrient Gradient in the Florida Everglades

Ashvini Chauhan and Andrew Ogram^*

Soil and Water Science Department, University of Florida, P.O. Box 110290, Gainesville, Florida 32611-0290

Received 13 September 2005/ Accepted 16 January 2006

The Florida Everglades is one of the largest freshwater marshes in North America and has been subject to eutrophication for decades. A gradient in P concentrations extends for several kilometers into the interior of the northern regions of the marsh, and the structure and function of soil microbial communities vary along the gradient. In this study, stable isotope probing was employed to investigate the fate of carbon from the fermentation products propionate and butyrate in soils from three sites along the nutrient gradient. For propionate microcosms, 16S rRNA gene clone libraries from eutrophic and transition sites were dominated by sequences related to previously described propionate oxidizers, such as Pelotomaculum spp. and Syntrophobacter spp. Significant representation was also observed for sequences related to Smithella propionica, which dismutates propionate to butyrate. Sequences of dominant phylotypes from oligotrophic samples did not cluster with known syntrophs but with sulfate-reducing prokaryotes (SRP) and Pelobacter spp. In butyrate microcosms, sequences clustering with Syntrophospora spp. and Syntrophomonas spp. dominated eutrophic microcosms, and sequences related to Pelospora dominated the transition microcosm. Sequences related to Pelospora spp. and SRP dominated clone libraries from oligotrophic microcosms. Sequences from diverse bacterial phyla and primary fermenters were also present in most libraries. Archaeal sequences from eutrophic microcosms included sequences characteristic of Methanomicrobiaceae, Methanospirillaceae, and Methanosaetaceae. Oligotrophic microcosms were dominated by acetotrophs, including sequences related to Methanosarcina, suggesting accumulation of acetate.

Supplemental material for this article may be found at http://aem.asm.org/.

Present address: Molecular Microbial Ecology Laboratory, Environmental Sciences Institute, 1515 S. MLK Blvd., Florida A&M University, Tallahassee, FL 32307.

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