<HashMap><database>ENA</database><file_versions><headers><Content-Type>application/xml</Content-Type></headers><body><files><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566759/ERR566759_2.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566756/ERR566756_2.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566758/ERR566758_1.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566757/ERR566757_1.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566757/ERR566757_2.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566754/ERR566754_2.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566755/ERR566755_1.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566759/ERR566759_1.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566756/ERR566756_1.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566755/ERR566755_2.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566758/ERR566758_2.fastq.gz</Fastqsanger.gz><Fastqsanger.gz>ftp://ftp.sra.ebi.ac.uk/vol1/fastq/ERR566/ERR566754/ERR566754_1.fastq.gz</Fastqsanger.gz></files><type>primary</type></body><statusCodeValue>200</statusCodeValue><statusCode>OK</statusCode></file_versions><scores/><additional><omics_type>Genomics</omics_type><center_name>UU</center_name><center_name>Uppsala University</center_name><full_dataset_link>https://www.ebi.ac.uk/ena/browser/view/PRJEB6746</full_dataset_link><long_description>High PAH loads in the sediment are a strong environmental filter selecting for particular bacterial types. We show how the composition of bacterial community shift along a gradient from pristine lake sediment, tar contaminated lake site and a site downstream, which might be effected by transport processes and bacterial dispersal downstream of the contaminated site.</long_description><repository>ENA</repository><name_synonyms>bacteria, TAR, RBM8B, Eubacteria, not Bacteria Haeckel 1894, eubacteria, ZNRP, C1DELq21.1, Monera, RBM8, Bacteria Woese et al. 2024, Bacteria (ex Cavalier-Smith 1987), thrombocytopenia absent radius syndrome, MDS014., Bacteria &lt;bacteria>, DEL1q21.1, Prokaryotae, prokaryote, ZRNP1, prokaryotes, BOV-1A, Procaryotae, fungi, Tar syndrome, BOV-1B, Bacteriobiota, thrombocytopenia absent radii, BOV-1C, chromosome 1Q21.1 deletion syndrome, absent radii and thrombocytopenia, Prokaryota, Y14, 200-Kb</name_synonyms><description_synonyms>INSDC_qualifier:unknown, assay, determination, chemical analysis, MiSeq.</description_synonyms></additional><is_claimable>false</is_claimable><name>Bacteria colonising Tar sediment</name><description>Lake sediment was sampled for chemical analysis in combination with targeting the diversity by 16S rRNA sequencing with Illumina paired MiSeq Sequencing</description><dates><last_updated>2016-05-20</last_updated><first_public>2014-11-27</first_public></dates><accession>PRJEB6746</accession><cross_references/></HashMap>