1. Seasonal dynamics alter taxonomical and functional microbial profiles in Pampa biome soils under natural grasslands
- Author
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Anthony Diego Muller Barboza, Paulo Ivonir Gubiani, Victor Satler Pylro, Eric W. Triplett, Luiz Fernando Wurdig Roesch, Rodrigo Josemar Seminot Jacques, Júlio Kuhn da Trindade, and Fernando Luiz Ferreira de Quadros
- Subjects
0301 basic medicine ,Soil test ,030106 microbiology ,Biome ,lcsh:Medicine ,Subtropics ,Biology ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,Abundance (ecology) ,Soil microbial core ,Abiotic factors ,Metatranscriptomics ,Abiotic component ,Ecology ,Metataxonomics ,General Neuroscience ,lcsh:R ,General Medicine ,030104 developmental biology ,Taxon ,Microbial population biology ,Soil water ,16S rRNA gene ,Seasons ,General Agricultural and Biological Sciences - Abstract
Soil microbial communities’ assembly is strongly tied to changes in temperature and moisture. Although microbial functional redundancy seems to overcome taxonomical composition changes, the sensitivity and resilience of soil microbial communities from subtropical regions in response to seasonal variations are still poorly understood. Thus, the development of new strategies for biodiversity conservation and sustainable management require a complete understanding of the soil abiotic process involved in the selection of microbial taxa and functions. In this work, we used state of the art molecular methodologies (Next Generation Sequencing) to compare the taxonomic (metataxonomics) and functional (metatranscriptomics) profiles among soil samples from two subtropical natural grasslands located in the Pampa biome, Brazil, in response to short-term seasonal variations. Our data suggest that grasslands maintained a stable microbial community membership along the year with oscillation in abundance. Apparently soil microbial taxa are more susceptible to natural climatic disturbances while functions are more stable and change with less intensity along the year. Finally, our data allow us to conclude that the most abundant microbial groups and functions were shared between seasons and locations reflecting the existence of a stable taxonomical and functional core microbiota.
- Published
- 2018