Abstract
Intensive cultivation based on monocultures has a significant impact on ecosystem function, and sustainable agriculture must rely on alternative methods, including crop rotation. On the Canadian prairies, the use of pulse crops is a common practice, but few studies have investigated the impact on soil microorganisms. Here, we studied the effect of pea, wheat, pea–wheat rotation, and fallow in bulk soil bacterial and fungal communities. We characterized soil microbiota by high-throughput sequencing of 16S and 18S rRNA genes for bacteria and eukaryotes. Different crop rotations and fallow significantly modified soil community composition, as well as bacterial and fungal diversity. Pea alone caused a strong reduction of bacterial and fungal richness and diversity compared to wheat, pea–wheat rotation, and fallow. Notably, pea–wheat rotation increased the abundance of Fusarium graminearum compared to other management practices. The bacterial community was less responsive to crop rotation identity compared to the fungal microbiota, and we found minor differences at the phylum level, with an increase in Actinobacteria in fallow and Firmicutes in wheat. In summary, our study demonstrated that rotations alter bulk soil microbial community diversity and composition in Canadian prairies. The frequent use of pea in rotation with wheat should be carefully evaluated, balancing their ecological effects on nitrogen mineralization, water conservation, and impact on beneficial, as well as pathotrophic, fungi.
Highlights
Task Force on Microbiome Studies, University of Naples Federico II, 80131 Napoli, Italy; Department of Agricultural Sciences, University of Naples Federico II, Via Università 100, 80055 Portici, Italy; Department of Plant Sciences, University of Saskatchewan, Saskatoon, SK S7N5A8, Canada; Abstract: Intensive cultivation based on monocultures has a significant impact on ecosystem function, and sustainable agriculture must rely on alternative methods, including crop rotation
Introduction with regard to jurisdictional claims in Intensive cultivation has a significant impact on the overall ecosystem due to the large inputs of irrigation water, fertilizers, and agrochemicals required for maintaining crop productivity [1]
Our study indicates that rotations alter soil microbial community diversity and composition in agricultural production on the Canadian prairies
Summary
We studied the effect of pea, wheat, pea–wheat rotation, and fallow in bulk soil bacterial and fungal communities. Different crop rotations and fallow significantly modified soil community composition, as well as bacterial and fungal diversity. The bacterial community was less responsive to crop rotation identity compared to the fungal microbiota, and we found minor differences at the phylum level, with an increase in Actinobacteria in fallow and Firmicutes in wheat. Modern and sustainable agriculture must implement production systems that reduce external energy inputs without penalizing crop yield In this view, farming systems that rely on crop rotation to improve plant nutrition and control weeds, pests, and plant pathogens is an old but attractive and environmentally friendly approach [2]. Lupwayi and co-workers [16]
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