Additional file 2: of Direct and indirect effects of a pH gradient bring insights into the mechanisms driving prokaryotic community structures
Daniel Lammel
Gabriel Barth
Otso Ovaskainen
Leonardo Cruz
Josileia Zanatta
Masahiro Ryo
Emanuel de Souza
Fábio Pedrosa
10.6084/m9.figshare.6488177.v1
https://springernature.figshare.com/articles/journal_contribution/Additional_file_2_of_Direct_and_indirect_effects_of_a_pH_gradient_bring_insights_into_the_mechanisms_driving_prokaryotic_community_structures/6488177
Land-use description and soil parameters. Table SI2A. Land-use history of the crop fields (all the experimental plots were managed identically, the only difference between the treatments was the lime doses that created the pH gradient). Table SI2B. Soil chemical parameters, and plant yield, and greenhouse gas fluxes according to different soil pH (CaCl2) ranges. Table SI2C. Soil chemical parameters, plant yield, and greenhouse gas fluxes according to the lime doses. (PDF 775 kb)
2018-06-11 05:00:00
pH
Sub-tropical soil
Microbial ecology
16S rRNA
Illumina sequencing
Soil chemistry
Bacteria
Archaea