Temporal Patterns in Bacterial Communities in Three Temperate Lakes of Different Trophic Status

Despite considerable attention in recent years, the composition and dynamics of lake bacterial communities over annual time scales are poorly understood. This study used automated ribosomal intergenic spacer analysis (ARISA) to explore the patterns of change in lake bacterial communities in three te...

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Bibliographic Details
Published in:Microbial ecology 2003-11, Vol.46 (4), p.391-405
Main Authors: A. C. Yannarell, A. D. Kent, G. H. Lauster, Kratz, T. K., E. W. Triplett
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Animal, plant and microbial ecology
Bacteria
Bacteria - genetics
Bacterioplankton
Biodiversity
Biological and medical sciences
Bogs
Communities
Community composition
Community structure
Datasets
DNA Primers
DNA, Ribosomal Spacer - genetics
Economic plant physiology
Electrophoresis
Eutrophic lakes
Eutrophication
Eutrophication - physiology
Fluorescence
Fresh Water - analysis
Freshwater
Fundamental and applied biological sciences. Psychology
Ice
Lakes
Limnology
Microbial ecology
Oligotrophic lakes
Seasons
Summer
Symbiosis (nodules, symbiotic nitrogen fixation, mycorrhiza...)
Time Factors
Trophic status
Various environments (extraatmospheric space, air, water)
Water Microbiology
Water temperature
Wisconsin
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Summary:Despite considerable attention in recent years, the composition and dynamics of lake bacterial communities over annual time scales are poorly understood. This study used automated ribosomal intergenic spacer analysis (ARISA) to explore the patterns of change in lake bacterial communities in three temperate lakes over 2 consecutive years. The study lakes included a humic lake, an oligotrophic lake, and a eutrophic lake, and the epilimnetic bacterial communities were sampled every 2 weeks. The patterns of change in bacterial communities indicated that seasonal forces were important in structuring the behavior of the bacterial communities in each lake. All three lakes had relatively stable community composition in spring and fall, but summer changes were dramatic. Summertime variability was often characterized by recurrent drops in bacterial diversity. Specific ARISA fragments derived from these lakes were not constant among lakes or from year to year, and those fragments that did recur in lakes in different years did not exhibit the same seasonal pattern of recurrence. Nonetheless, seasonal patterns observed in 2000 were fairly successful predictors of the rate of change in bacterial communities and in the degree of autocorrelation of bacterial communities in 2001. Thus, seasonal forces may be important structuring elements of these systems as a whole even if they are uncoupled from the dynamics of the individual system components.
ISSN:0095-3628
1432-184X
DOI:10.1007/s00248-003-1008-9