Consistent predictors of microbial community composition across scales in grasslands reveal low context-dependency

Dajana Radujković; Sara Vicca; Margaretha van Rooyen; Peter Wilfahrt; Leslie Brown; Anke Jentsch; Kurt O. Reinhart; Charlotte Brown; Johan De Gruyter; Gerald Jurasinski; Diana Askarizadeh; Sandor Bartha; Ryan Beck; Theodore Blenkinsopp; James Cahill; Giandiego Campetella; Roberto Canullo; Stefano Chelli; Lucas Enrico; Lauchlan Fraser; Xiying Hao; Hugh A. L. Henry; Maria Hohn; Mohammad Hassan Jouri; Marian Koch; Rachael Lawrence Lodge; Frank Yonghong Li; Janice M. Lord; Patrick Milligan; Hugjiltu Minggagud; Todd Palmer; Birgit Schröder; Gábor Szabó; Tongrui Zhang; Zita Zimmermann; Erik Verbruggen

doi:10.1101/2021.11.29.470306

Abstract

Environmental circumstances shaping soil microbial communities have been studied extensively, but due to disparate study designs it has been difficult to resolve whether a globally consistent set of predictors exists, or context-dependency prevails. Here, we used a network of 18 grassland sites (11 sampled across regional plant productivity gradients) to examine i) if the same abiotic or biotic factors predict both large- and regional-scale patterns in bacterial and fungal community composition, and ii) if microbial community composition differs consistently with regional plant productivity (low vs high) across different sites. We found that there is high congruence between predictors of microbial community composition across spatial scales; bacteria were predominantly associated with soil properties and fungi with plant community composition. Moreover, there was a microbial community signal that clearly distinguished high and low productivity soils that was shared across worldwide distributed grasslands suggesting that microbial assemblages vary predictably depending on grassland productivity.

Competing Interest Statement

The authors have declared no competing interest.

Footnotes

dajana.radujkovic{at}uantwerpen.be; sara.vicca{at}uantwerpen.be; gretel.vanrooyen{at}up.ac.za; wilf0020{at}umn.edu; lrbrown{at}unisa.ac.za; anke.jentsch{at}uni-bayreuth.de; kurt.reinhart{at}ars.usda.gov; cbrown2{at}ualberta.ca; Johan.DeGruyter{at}uantwerpen.be; gerald.jurasinski{at}uni-rostock.de; d.askarizadeh{at}ut.ac.ir; bartha.sandor{at}ecolres.hu; ryan.beck{at}canada.ca; theodore.blenkinsopp{at}ualberta.ca; james.cahill{at}ualberta.ca; diego.campetella{at}unicam.it; roberto.canullo{at}unicam.it; stefano.chelli{at}unicam.it; lenrico{at}unc.edu.ar; lfraser{at}tru.ca; xiying.hao{at}canada.ca; hhenry4{at}uwo.ca; hohnmariamargit{at}gmail.com; mjouri{at}gmail.com; rachael.lawrencelodge{at}otago.ac.nz; lifyhong{at}126.com; janice.lord{at}otago.ac.nz; pmilligan{at}ufl.edu; emh529{at}126.com; tmp{at}ufl.edu; birgit.schroeder{at}uni-rostock.de; kabazit{at}gmail.com; zh4ngtongrui{at}163.com; zimmermann.zita{at}ecolres.hu; Erik.Verbruggen{at}uantwerpen.be

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