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Oxygenation rate during Fe redox-cycling affects humid tropical forest soil metatranscriptome
dataset
posted on 2024-06-11, 05:42 authored by University of Georgia, University of Georgia, Miller Plant SciencesSoils were collected from the Bisley Watershed, Luquillo Critical Zone Observatory, Puerto Rico. These humid tropical forest soils are hypothesized to impact global carbon and greenhouse gas cycling through Fe biogeochemical reactions during redox-oscillating conditions. This study used a laboratory incubation of these soils to investigate the effects of oxygenation rate on iron mineral transformations and microbial iron(III)-reducer gene expression (RNAseq) during alternating anoxic:oxic conditions.
Funding
U.S. Department of Agriculture, 2009-65107-05830
National Science Foundation, DEB-1457761
National Science Foundation, EAR-1053470
National Science Foundation, EAR-1331841
National Science Foundation, EAR-1451508
History
Data contact name
BioProject Curation StaffData contact email
bioprojecthelp@ncbi.nlm.nih.govPublisher
National Center for Biotechnology InformationTemporal Extent Start Date
2017-04-01Theme
- Non-geospatial
ISO Topic Category
- biota
National Agricultural Library Thesaurus terms
sequence analysisPending citation
- No
Public Access Level
- Public