Litcius/Paper detail

Environmental selection overturns the decay relationship of soil prokaryotic community over geographic distance across grassland biotas

Biao Zhang, Kai Xue, Shutong Zhou, Kui Wang, Wenjing Liu, Cong Xu, Lizhen Cui, Linfeng Li, Qinwei Ran, Zongsong Wang, Ronghai Hu, Yanbin Hao, Xiaoyong Cui, Yanfen Wang

2022eLife16 citationsDOIOpen Access PDF

Abstract

Though being fundamental to global diversity distribution, little is known about the geographic pattern of soil microorganisms across different biotas on a large scale. Here, we investigated soil prokaryotic communities from Chinese northern grasslands on a scale up to 4000 km in both alpine and temperate biotas. Prokaryotic similarities increased over geographic distance after tipping points of 1760-1920 km, generating a significant U-shape pattern. Such pattern was likely due to decreased disparities in environmental heterogeneity over geographic distance when across biotas, supported by three lines of evidences: (1) prokaryotic similarities still decreased with the environmental distance, (2) environmental selection dominated prokaryotic assembly, and (3) short-term environmental heterogeneity followed the U-shape pattern spatially, especially attributed to dissolved nutrients. In sum, these results demonstrate that environmental selection overwhelmed the geographic 'distance' effect when across biotas, overturning the previously well-accepted geographic pattern for microbes on a large scale.

Topics & Concepts

Geographical distanceDistance decayEcologySelection (genetic algorithm)GrasslandBiodiversityEcological selectionSite selectionScale (ratio)Temperate climateSpatial ecologyEnvironmental changeGeographyBeta diversityDiversity (politics)BiologySoil microbiologySpatial heterogeneityEnvironmental scienceGeographic information systemGeographic variationEcosystemLocationCommunity structureNatural selectionMicrobial Community Ecology and PhysiologyPolar Research and EcologySoil Carbon and Nitrogen Dynamics