Data from: Bark microbiota modulate climate-active gas fluxes in Australian forests
Data files
Jan 08, 2026 version files 135.55 MB
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Fig_2B._Treethane.bac120.user_msa.fasta
575.25 KB
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Fig_2B._Treethane.bac120.user_msa.treefile
14.25 KB
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Fig_3A._NiFe_hydrogenase_MAG_only_mafft_linsi.fasta
181.91 KB
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Fig_3A._NiFe_hydrogenase_MAG_only_mafft_linsi.fasta.contree
11.56 KB
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Fig_3B._FeFe_hydrogenase_MAG_with_contig_mafft_linsi.fasta
275.59 KB
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Fig_3B._FeFe_hydrogenase_MAG_with_contig_mafft_linsi.fasta.contree
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Fig_3C._PmoA_with_ref_mafft_linsi.fasta
8.27 KB
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Fig_3C._PmoA_with_ref_mafft_linsi.fasta.contree
1.45 KB
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Fig_3D._SDIMO97_with_ref_mafft_linsi.fasta
180.72 KB
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Fig_3D._SDIMO97_with_ref_mafft_linsi.fasta.contree
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Fig_3E._McrA_with_ref2_mafft_linsi.fasta
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Fig_3E._McrA_with_ref2_mafft_linsi.fasta.contree
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Fig_S5._NiFe_hydrogenase_MAG_and_contig_mafft_linsi.fasta
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Fig_S5._NiFe_hydrogenase_MAG_and_contig_mafft_linsi.fasta.contree
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Fig_S6._CoxL_with_ref_mafft_linsi.fasta
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Fig_S6._CoxL_with_ref_mafft_linsi.fasta.contree
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MAGs_114.tar.gz
133.44 MB
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README.md
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Abstract
The global surface area of tree bark is approximately equal to the total global land surface area. Though recent studies suggest microbes inhabit tree bark, little is known about their identities, functions, and environmental roles. Here, we reveal, through genome-resolved metagenomics, that tree bark hosts abundant and specialized microbial communities. The predominant bacteria are hydrogen-cycling facultative anaerobes adapted to dynamic redox and substrate conditions. Furthermore, bark-associated methanotrophs are abundant and can coexist with hydrogenotrophic methanogens. Microcosm experiments demonstrated that bark microorganisms rapidly aerobically consume methane, hydrogen, and carbon monoxide at in planta concentrations, but can produce these gases under anoxia. Combined with in situ field measurements, we show tree-dwelling microbiota process multiple climate-active gases at significant rates within tree stems, highlighting an important research frontier within global atmospheric cycles.
Dataset DOI: 10.5061/dryad.ttdz08m9w
Description of the data and file structure
The data includes all multiple sequence alignment and maximum likelihood phylogenetic tree files reported in the Science publication "Bark microbiota modulate climate-active gas fluxes in Australian forests".
Files and variables
File: Fig_3E._McrA_with_ref2_mafft_linsi.fasta
Description: Multiple sequence alignment of methyl-CoM reductase (McrA) sequences from unbinned contigs dereplicated at 97% identity and aligned using MAFFT-L-INS-i v7.505. This file was used to produce Fig. 3E.
File: Fig_3E._McrA_with_ref2_mafft_linsi.fasta.contree
Description: Maximum likelihood phylogenetic tree of methyl-CoM reductase (McrA) constructed using IQTREE2 v2.2.0 (LG+I+G4 model; 1000 ultrafast bootstrap replicates, -bnni). This file was used to produce Fig. 3E.
File: Fig_3C._PmoA_with_ref_mafft_linsi.fasta
Description: Multiple sequence alignment of particulate CH4 monooxygenase (PmoA) sequences from metagenome-assembled genomes and unbinned contigs dereplicated at 97% identity and aligned using MAFFT-L-INS-i v7.505. This file was used to produce Fig. 3C.
File: Fig_3C._PmoA_with_ref_mafft_linsi.fasta.contree
Description: Maximum likelihood phylogenetic tree of particulate CH4 monooxygenase (PmoA) constructed using IQTREE2 v2.2.0 (LG+G4 model; 1000 ultrafast bootstrap replicates, -bnni). This file was used to produce Fig. 3C.
File: Fig_3D._SDIMO97_with_ref_mafft_linsi.fasta.contree
Description: Maximum likelihood phylogenetic tree of soluble diiron monooxygenase family (SDIMO) constructed using IQTREE2 v2.2.0 (Q.pfam+I+I+R5 model; 1000 ultrafast bootstrap replicates, -bnni). This file was used to produce Fig. 3D.
File: Fig_S5._NiFe_hydrogenase_MAG_and_contig_mafft_linsi.fasta.contree
Description: Maximum likelihood phylogenetic tree of the catalytic subunits of [NiFe]-hydrogenase from metagenome-assembled genomes and unbinned contigs constructed using IQTREE2 v2.2.0 (LG+F+I+I+R7 model; 1000 ultrafast bootstrap replicates, -bnni). This file was used to produce Fig. S5.
File: Fig_3D._SDIMO97_with_ref_mafft_linsi.fasta
Description: Multiple sequence alignment of soluble diiron monooxygenase family (SDIMO) sequences from metagenome-assembled genomes and unbinned contigs dereplicated at 97% identity and aligned using MAFFT-L-INS-i v7.505. This file was used to produce Fig. 3D.
File: Fig_3A._NiFe_hydrogenase_MAG_only_mafft_linsi.fasta.contree
Description: Maximum likelihood phylogenetic tree of the catalytic subunits of [NiFe]-hydrogenase from metagenome-assembled genomes constructed using IQTREE2 v2.2.0 (LG+F+I+I+R7 model; 1000 ultrafast bootstrap replicates, -bnni). This file was used to produce Fig. 3A.
File: Fig_2B._Treethane.bac120.user_msa.treefile
Description: A concatenated multiple protein sequence alignment was built using the 120 GTDB bacterial marker genes in all bacterial metagenome-assembled genomes by GTDB-Tk v2.3.2. This file was used to produce Fig. 2B.
File: Fig_S6._CoxL_with_ref_mafft_linsi.fasta.contree
Description: Maximum likelihood phylogenetic tree of the catalytic subunits of carbon monoxide dehydrogenase (CoxL) from metagenome-assembled genomes and unbinned contigs constructed using IQTREE2 v2.2.0 (LG+F+R5 model; 1000 ultrafast bootstrap replicates, -bnni). This file was used to produce Fig. S6.
File: Fig_3A._NiFe_hydrogenase_MAG_only_mafft_linsi.fasta
Description: Multiple sequence alignment of the catalytic subunits of [NiFe]-hydrogenase sequences from metagenome-assembled genomes aligned using MAFFT-L-INS-i v7.505. This file was used to produce Fig. 3A.
File: Fig_S5._NiFe_hydrogenase_MAG_and_contig_mafft_linsi.fasta
Description: Multiple sequence alignment of the catalytic subunits of [NiFe]-hydrogenase sequences from metagenome-assembled genomes and unbinned contigs dereplicated at 97% identity and aligned using MAFFT-L-INS-i v7.505. This file was used to produce Fig. S5.
File: Fig_S6._CoxL_with_ref_mafft_linsi.fasta
Description: Multiple sequence alignment of the catalytic subunits of carbon monoxide dehydrogenase (CoxL) sequences aligned using MAFFT-L-INS-i v7.505. This file was used to produce Fig. S6.
File: Fig_2B._Treethane.bac120.user_msa.fasta
Description: A maximum likelihood phylogenomic tree of all bacterial metagenome-assembled genomes constructed using IQTREE2 v2.2.0 (WAG+G20 model; 1000 ultrafast bootstrap replicates). This file was used to produce Fig. 2B.
File: Fig_3B._FeFe_hydrogenase_MAG_with_contig_mafft_linsi.fasta.contree
Description: Maximum likelihood phylogenetic tree of the catalytic subunits of [FeFe]-hydrogenase from metagenome-assembled genomes and unbinned contigs constructed using IQTREE2 v2.2.0 (Q.pfam+I+I+R5 model; 1000 ultrafast bootstrap replicates, -bnni). This file was used to produce Fig. 3B.
File: Fig_3B._FeFe_hydrogenase_MAG_with_contig_mafft_linsi.fasta
Description: Multiple sequence alignment of the catalytic subunits of [FeFe]-hydrogenase sequences from metagenome-assembled genomes and unbinned contigs dereplicated at 97% identity and aligned using MAFFT-L-INS-i v7.505. This file was used to produce Fig. 3B.
File: MAGs_114.tar.gz
Description: 114 metagenome-assembled genomes constructed tree bark.
Code/software
Multiple sequence alignment files can be viewed in any multiple sequence alignment viewers such as MEGA. The phylogenetic trees were visualized in iTOL v6.
Access information
Other publicly accessible locations of the data:
- None
Data was derived from the following sources:
- None