期刊
WETLANDS
卷 29, 期 1, 页码 277-287出版社
SOC WETLAND SCIENTISTS
DOI: 10.1672/08-86.1
关键词
bacterial community structure; enzyme activity; nitrogen; phosphorus
资金
- U.S. Environmental Protection Agency
To evaluate the effects of saltwater intrusion and nutrient enrichment oil wetland microbial communities. we measured changes in sediment microbial structure and function in response to increased salinity and nutrients. Sediments were collected from a cypress-tupelo swamp near Lake Pontchartrain, Louisiana. USA, and maintained in microcosms treated with elevated salinity, nitrogen (N). or phosphorus (P). Impacts oil bacterial Community diversity and composition were determined via Molecular techniques, while effects on function were assessed through measurement of extracellular enzyme activity. Salinity increased bacterial diversity, P had no effect, while N reduced diversity. Deltaproteobacteria dominated all treatments, although their representation, along with that of the Alphaproteobacteria and Planctomycetes, was reduced following N addition. P addition reduced the proportion of Alphaproteobacteria, while salinity increased the proportion of Bet a proteobacteria. Exposure to elevated salinity also decreased phosphatase and N-acetlyglucosaminidase activity by almost 20%. with less effect oil beta-glucosidase. P addition had no impact oil extracellular enzyme activity. Overall, exposure to elevated salinity depresses microbial function and changes the sediment microbial assemblage. These wetlands are likely N-limited, and while N additions may regenerate plant Communities, they also change the Structure of the sediment microbial community, decreasing diversity and impacting the mineralization of other nutrients.
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