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Metagenomes from Experimental Hydrologic Manipulation of Restored Coastal Plain Wetland Soils (Tyrell County, North Carolina)

Hydrologic changes modify microbial community structure and ecosystem functions, especially in wetland systems. Here, we present 24 metagenomes from a coastal freshwater wetland experiment in which we manipulated hydrologic conditions and plant presence. These wetland soil metagenomes will deepen ou...

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Bibliographic Details
Published in:Microbiology resource announcements 2020-10, Vol.9 (41)
Main Authors: Peralta, Ariane L., Bledsoe, Regina B., Muscarella, Mario E., Huntemann, Marcel, Clum, Alicia, Foster, Brian, Foster, Bryce, Roux, Simon, Palaniappan, Krishnaveni, Varghese, Neha, Mukherjee, Supratim, Reddy, T. B. K., Daum, Chris, Copeland, Alex, Chen, I-Min A., Ivanova, Natalia N., Kyrpides, Nikos C., Glavina del Rio, Tijana, Eloe-Fadrosh, Emiley A.
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Language:English
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Summary:Hydrologic changes modify microbial community structure and ecosystem functions, especially in wetland systems. Here, we present 24 metagenomes from a coastal freshwater wetland experiment in which we manipulated hydrologic conditions and plant presence. These wetland soil metagenomes will deepen our understanding of how hydrology and vegetation influence microbial functional diversity. Hydrologic changes modify microbial community structure and ecosystem functions, especially in wetland systems. Here, we present 24 metagenomes from a coastal freshwater wetland experiment in which we manipulated hydrologic conditions and plant presence. These wetland soil metagenomes will deepen our understanding of how hydrology and vegetation influence microbial functional diversity.
ISSN:2576-098X
2576-098X
DOI:10.1128/MRA.00882-20