6533b7d9fe1ef96bd126c1ac
RESEARCH PRODUCT
Comprehensive dataset of shotgun metagenomes from oxygen stratified freshwater lakes and ponds
Gustavo A. Martínez-rodríguezSari PeuraStefan BertilssonJatta SaarenheimoJakob ZopfiSarahi L. GarciaSarahi L. GarciaLeyden FernándezGaëtan MartinMoritz Bucksubject
Water microbiologyData DescriptorMicrobial ecologyNutrientPhylogenyTotal organic carbonlammet0303 health sciencesEcologyMicrobiotahiilen kiertoQgenomiikkaMiljövetenskapSubarctic climateAnoxic waters6. Clean waterComputer Science ApplicationsOceanographydataFreshwater ecologyStatistics Probability and UncertaintyInformation SystemsStatistics and ProbabilityBiogeochemical cycleClimate ChangeScienceLibrary and Information SciencesjärvetCarbon CycleEducationCarbon cycleGreenhouse Gases03 medical and health sciencesparasitic diseasesEcosystem14. Life underwaterPonds030304 developmental biologyEkologiBacteria030306 microbiology15. Life on landArchaeaOxygenmikrobiekologiaLakesmikrobistoBoreal13. Climate actionMetagenomeEnvironmental scienceMetagenomicsEnvironmental Sciencesdescription
Stratified lakes and ponds featuring steep oxygen gradients are significant net sources of greenhouse gases and hotspots in the carbon cycle. Despite their significant biogeochemical roles, the microbial communities, especially in the oxygen depleted compartments, are poorly known. Here, we present a comprehensive dataset including 267 shotgun metagenomes from 41 stratified lakes and ponds mainly located in the boreal and subarctic regions, but also including one tropical reservoir and one temperate lake. For most lakes and ponds, the data includes a vertical sample set spanning from the oxic surface to the anoxic bottom layer. The majority of the samples were collected during the open water period, but also a total of 29 samples were collected from under the ice. In addition to the metagenomic sequences, the dataset includes environmental variables for the samples, such as oxygen, nutrient and organic carbon concentrations. The dataset is ideal for further exploring the microbial taxonomic and functional diversity in freshwater environments and potential climate change impacts on the functioning of these ecosystems.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-05-01 | Scientific Data |