Goldford, Joshua E.Lu, NanxiBajic, DjordjeEstrela, SylvieTikhonov, MikhailSanchez-Gorostiaga, AliciaSegre, DanielMehta, PankajSanchez, Alvaro2020-05-142020-05-142018-08-03Joshua E Goldford, Nanxi Lu, Djordje Bajic, Sylvie Estrela, Mikhail Tikhonov, Alicia Sanchez-Gorostiaga, Daniel Segre, Pankaj Mehta, Alvaro Sanchez. 2018. "Emergent simplicity in microbial community assembly." Science, Volume 361, Issue 6401, pp. 469 - 474. https://doi.org/10.1126/science.aat11680036-80751095-9203https://hdl.handle.net/2144/40874Published in final edited form as: Science. 2018 August 03; 361(6401): 469–474. doi:10.1126/science.aat1168.A major unresolved question in microbiome research is whether the complex taxonomic architectures observed in surveys of natural communities can be explained and predicted by fundamental, quantitative principles. Bridging theory and experiment is hampered by the multiplicity of ecological processes that simultaneously affect community assembly in natural ecosystems. We addressed this challenge by monitoring the assembly of hundreds of soil- and plant-derived microbiomes in well-controlled minimal synthetic media. Both the community-level function and the coarse-grained taxonomy of the resulting communities are highly predictable and governed by nutrient availability, despite substantial species variability. By generalizing classical ecological models to include widespread nonspecific cross-feeding, we show that these features are all emergent properties of the assembly of large microbial communities, explaining their ubiquity in natural microbiomes.p. 469 - 474en-USScience & technologyBacteriaMicrobial consortiaPlantsSoil microbiologyBacteriaPlantsArticle10.1126/science.aat11680000-0003-4859-1914 (Segre, Daniel)396408