Land-use change affects the diversity and functionality of soil bacterial communities in semi-arid Chaco region, Argentina

The semi-arid Chaco ecoregion has been heavily affected by the conversion of pastures to cropland. Our knowledge about the impact of land use change on soil microbial community diversity and functions in this region is limited. Here, we assessed the impact of different land uses and management pract...

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Bibliographic Details
Published in:Applied soil ecology : a section of Agriculture, ecosystems & environment ecosystems & environment, 2022-04, Vol.172, p.104362, Article 104362
Main Authors: Viruel, Emilce, Fontana, Cecilia A., Puglisi, Edoardo, Nasca, Jose A., Banegas, Natalia R., Cocconcelli, Pier S.
Format: Article
Language:English
Subjects:
High-throughput sequencing
Land use conversion
Metabolic prediction
Soil bacteria
Soil properties
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Summary:The semi-arid Chaco ecoregion has been heavily affected by the conversion of pastures to cropland. Our knowledge about the impact of land use change on soil microbial community diversity and functions in this region is limited. Here, we assessed the impact of different land uses and management practices (i.e.: ungrazed pasture, grazed pasture and cropping systems under zero and conventional tillage) on soil bacterial communities structure and functions, as well as their relations with edaphic properties. The taxonomic diversity of bacterial communities was mainly dominated by the phyla Firmicutes, Proteobacteria and Actinobacteria. Alpha diversity was the highest in grazed pasture (OTU richness, Chao and Shannon), and it was the lowest in ungrazed pasture. Soil organic carbon, nitrogen and pH were the main determining variables of bacterial community composition and diversity. Predicted functional profiles revealed the gene abundances involved in amino acid, energy and carbohydrate metabolisms; and in categories related to nucleotide transport, metabolism, translation ribosomal structure, and biogenesis. These abundances were higher in agricultural than pastoral systems. Our results suggest that changes in soil physicochemical properties (i.e. SOC, TN and pH) associated with soil management practices cause shifts in the composition of soil bacterial communities and their metabolic functions in farming systems of the semi-arid Chaco region. •The conversion of pasture to cropland alters soil physiochemical properties•Soil properties like pH, SOC and TN influence on soil bacterial communities significantly•Grazed pasture increased the richness and diversity of soil bacterial communities•Predicted functional genes are differently expressed in agricultural than pastoral systems
ISSN:0929-1393
1873-0272
DOI:10.1016/j.apsoil.2021.104362