The implementation of environmentally-friendly agricultural policies has increased the need to compare agricultural aspects of conventional (CON) and organic farming (ORG) systems. The objective of the present work was to compare the effects of an organic and conventional long-term experiment on bacterial and fungal biomass and activity, as well as soil CO2 emission and readily available nitrogen forms in a soil cultivated with Helianthus annuus L. The microbial biomass was more active and abundant in ORG as well as soil CO2 emission. Despite being less abundant, fungi were more active than bacteria in both ORG and in CON experiments. 16S rRNA gene sequencing showed that the ORG treatment had a significantly greater bacterial richness than CON. Cyanobacteria, Actinobacteria and Proteobacteria were the most abundant phyla contributing more than others to the differences between the two systems. Moreover, the soil 4+ and 2− content was not significantly different between ORG and CON, while 3− was less in ORG. ORG sunflower yield was significantly less compared to CON. While much remains to be discovered about the effects of these agricultural practices on soil chemical properties and microbial diversity, our findings may contribute to this type of investigation.
Soil microbiome biomass, activity, composition and CO2 emissions in a long term organic and conventional farming systems / Santoni, M.; Verdi, L.; Pathan, S. I.; Napoli, M.; Marta, A. Dalla; Dani, F. R.; Pacini, G. C.; Ceccherini, M. T.. - In: SOIL USE AND MANAGEMENT. - ISSN 0266-0032. - ELETTRONICO. - 39:(2023), pp. 0-0. [10.1111/sum.12836]
Soil microbiome biomass, activity, composition and CO2 emissions in a long term organic and conventional farming systems
Santoni, M.;Verdi, L.
;Pathan, S. I.;Napoli, M.;Marta, A. Dalla;Dani, F. R.;Pacini, G. C.;Ceccherini, M. T.
2023
Abstract
The implementation of environmentally-friendly agricultural policies has increased the need to compare agricultural aspects of conventional (CON) and organic farming (ORG) systems. The objective of the present work was to compare the effects of an organic and conventional long-term experiment on bacterial and fungal biomass and activity, as well as soil CO2 emission and readily available nitrogen forms in a soil cultivated with Helianthus annuus L. The microbial biomass was more active and abundant in ORG as well as soil CO2 emission. Despite being less abundant, fungi were more active than bacteria in both ORG and in CON experiments. 16S rRNA gene sequencing showed that the ORG treatment had a significantly greater bacterial richness than CON. Cyanobacteria, Actinobacteria and Proteobacteria were the most abundant phyla contributing more than others to the differences between the two systems. Moreover, the soil 4+ and 2− content was not significantly different between ORG and CON, while 3− was less in ORG. ORG sunflower yield was significantly less compared to CON. While much remains to be discovered about the effects of these agricultural practices on soil chemical properties and microbial diversity, our findings may contribute to this type of investigation.
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Soil Use and Management - 2022 - Santoni - Soil microbiome biomass activity composition and CO2 emissions in a long term.pdf
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