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Applied and Environmental Microbiology, March 2008, p. 1856-1868, Vol. 74, No. 6
0099-2240/08/$08.00+0     doi:10.1128/AEM.01719-07
Copyright © 2008, American Society for Microbiology. All Rights Reserved.

Bacterial Community Structure of Acid-Impacted Lakes: What Controls Diversity? ^,

Sascha F. Percent,¹ Marc E. Frischer,² Paul A. Vescio,^1, Ellen B. Duffy,^1, Vincenzo Milano,^1, Maggie McLellan,^1,¶ Brett M. Stevens,^1,|| Charles W. Boylen,^1,3 and Sandra A. Nierzwicki-Bauer^1,3*

Darrin Fresh Water Institute, Rensselaer Polytechnic Institute, 5060 Lake Shore Drive, Bolton Landing, New York 12814,¹ Skidaway Institute of Oceanography, 10 Ocean Science Circle, Savannah, Georgia 31411,² Department of Biology, Rensselaer Polytechnic Institute, 110 8th Street, Troy, New York 12180³

Received 25 July 2007/ Accepted 23 January 2008

Although it is recognized that acidification of freshwater systems results in decreased overall species richness of plants and animals, little is known about the response of aquatic microbial communities to acidification. In this study we examined bacterioplankton community diversity and structure in 18 lakes located in the Adirondack Park (in the state of New York in the United States) that were affected to various degrees by acidic deposition and assessed correlations with 31 physical and chemical parameters. The pH of these lakes ranged from 4.9 to 7.8. These studies were conducted as a component of the Adirondack Effects Assessment Program supported by the U.S. Environmental Protection Agency. Thirty-one independent 16S rRNA gene libraries consisting of 2,135 clones were constructed from epilimnion and hypolimnion water samples. Bacterioplankton community composition was determined by sequencing and amplified ribosomal DNA restriction analysis of the clone libraries. Nineteen bacterial classes representing 95 subclasses were observed, but clone libraries were dominated by representatives of the Actinobacteria and Betaproteobacteria classes. Although the diversity and richness of bacterioplankton communities were positively correlated with pH, the overall community composition assessed by principal component analysis was not. The strongest correlations were observed between bacterioplankton communities and lake depth, hydraulic retention time, dissolved inorganic carbon, and nonlabile monomeric aluminum concentrations. While there was not an overall correlation between bacterioplankton community structure and pH, several bacterial classes, including the Alphaproteobacteria, were directly correlated with acidity. These results indicate that unlike more identifiable correlations between acidity and species richness for higher trophic levels, controls on bacterioplankton community structure are likely more complex, involving both direct and indirect processes.

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* Corresponding author. Mailing address: Darrin Fresh Water Institute, Rensselaer Polytechnic Institute, 5060 Lake Shore Drive, Bolton Landing, NY 12814. Phone: (518) 644-3541. Fax: (518) 644-3640. E-mail: nierzs{at}rpi.edu

Published ahead of print on 1 February 2008.

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

Present address: Molecular and Microbiology Department, Regeneron Pharmaceuticals, 81 Columbia, Turnpike, Rensselaer, NY 12144.

Present address: Albany Medical College, Center for Immunology and Microbial Disease, 47 New Scotland Ave., MC-151, Albany, NY 12208.

^¶ Present address: Department of Chemistry and Chemical Biology, Rensselaer Polytechnic Institute, 110 8th Street, Troy, NY 12180.

^|| Present address: Department of Pharmacology and Physiology, University of Rochester Medical Center, 601 Elmwood Ave., Box 633, Rochester, NY 14642.

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Applied and Environmental Microbiology, March 2008, p. 1856-1868, Vol. 74, No. 6
0099-2240/08/$08.00+0     doi:10.1128/AEM.01719-07
Copyright © 2008, American Society for Microbiology. All Rights Reserved.

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