Mega-meta-analysis of many microbes...
Searching for global patterns of soil bacteria
Kelly S. Ramirez, Christopher G. Knight, Mattias de Hollander, Francis Q. Brearley, Bede Constantinides, Anne Cotton, Si Creer, Thomas W. Crowther, John Davison, Manuel Delgado-Baquerizo, Ellen Dorrepaal, David R. Elliott, Graeme Fox, Robert I. Griffiths, Chris Hale, Kyle Hartman, Ashley Houlden, David L. Jones, Eveline J. Krab, Fernando T. Maestre, Krista L. McGuire, Sylvain Monteux, Caroline H. Orr, Wim H. van der Putten, Ian S. Roberts, David A. Robinson, Jennifer D. Rocca, Jennifer Rowntree, Klaus Schlaeppi, Matthew Shepherd, Brajesh K. Singh, Angela L. Straathof, Jennifer M. Bhatnagar, Cécile Thion, Marcel G. A. van der Heijden & Franciska T. de Vries
The paper in Nature Microbiology is here: http://go.nature.com/2AhASzB
"It is well known that we live in a microbial world – with microbes all over our bodies, in our homes, in the air we breath, and in the ground we walk on. In the soil, these bacteria, fungi and other eukaryotes help plants grow, cycle water and important nutrients, and keep our ecosystems functioning. Researchers all over the world are using high-throughput sequencing to study these important microbes, but keeping the corresponding data catalogued and organized is a challenge - especially if we are to use it to respond to questions of global change. In our recent study, we tackle this challenge by bringing together disparate soil bacterial datasets from over 1900 soil samples collected from 21 countries spread across the world."