Fire severity shapes plant colonization effects on bacterial community structure, microbial biomass, and soil enzyme activity in secondary succession of a burned forest

<p>Sequences associated with the study "Fire severity shapes plant colonization effects on bacterial community structure, microbial biomass, and soil enzyme activity in secondary succession of a burned forest"</p

Sequences: Soil bacterial community structure remains stable over a five-year chronosequence of insect-induced tree mortality

<p>Sequences as a fastq (stripped barcode, relabled with mapping file labels provided) file associated with analysis in "Soil bacterial community structure remains stable over a five-year chronosequence of insect-induced tree mortality."  S Ferrenberg, JE Knelman, JM Jones, SC Beals… DR Nemergut - Frontiers in Microbiology, 2014</p

Decreases in average bacterial community rRNA operon copy number during succession

<p>Sequencing and mapping file for </p> <p>"Decreases in average bacterial community rRNA</p> <p>operon copy number during succession" in the ISME Journal.</p> <p> </p

Root-associated bacteria- Mendenhall, Tongass Ntl Forest

Sequences associated with alder and spruce root-associated bacterial communitie

The coupling of soil resource environment and decomposition enzyme activity shifts across secondary succession: Sequences, mapping file, and metadata.

sequences in fastq format.<div>mapping file.</div><div>metadata.</div

Mapping file for sequences and metadata: Nutrient addition dramatically accelerates microbial community succession

<p>Mapping file for sequences and metadata</p> <p>Site description and details of study are available in the associated publication:</p> <p>Nutrient addition dramatically accelerates microbial community succession</p> <p>Joseph E. Knelman, Steven K. Schmidt, Ryan C. Lynch, John L. Darcy, Sarah C. Castle, Cory C. Cleveland, Diana R. Nemergut*</p

Sequences: Nutrient addition dramatically accelerates microbial community succession

<p>Mapping file for sequences and metadata</p> <p>Site description and details of study are available in the associated PLOS ONE publication :</p> <p>Nutrient addition dramatically accelerates microbial community succession</p> <p>Joseph E. Knelman, Steven K. Schmidt, Ryan C. Lynch, John L. Darcy, Sarah C. Castle, Cory C. Cleveland, Diana R. Nemergut*</p

Mendenhall 2014

Sequences, mapping file, taxa relative abundance