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- Title
Cropping sequence affects the structure and diversity of pathogenic and non-pathogenic soil microbial communities.
- Authors
Islam, M. Nazrul; Oviedo-Ludena, M. Alejandra; Kutcher, H. Randy; Molina, Oscar; Wang, Xiben
- Abstract
Aims: Current understanding of how cropping sequence affects pathogen-suppressive microbiomes in soil is limited. We investigated the effects of several cropping sequences from the 2020–2021 growing seasons, including cereals, pulses, and an oilseed, on microbial communities in rhizosphere and bulk soils in two western Canadian field locations. Methods: The fungi and bacteria were characterized by Internal Transcribed Spacer (ITS) and 16S rRNA gene sequencing, respectively. The QIIME 2™ bioinformatic pipeline was used to measure the diversity and abundance of microbial species. Additionally, the concentration of the soil mineral chemicals, including macro and micro nutrients, was determined by colorimetric analysis. Results: Ascomycota (62.5%) was the most common fungal phylum, followed by Glomeromycota (11.1%), Mucoromycota (8.9%), and Basidiomycota (6.8%). Pseudomonadota (35.0%), Actinomycetota (21.1%), and Bacillota (10.1%) were the three most common bacterial phyla. Fungal OTU richness and phylogenetic diversity were highest in the cereal-pulse cropping sequencing, and bacterial OTU richness was highest in the pulse-oilseed sequences. Fusarium was the fungal genus most commonly associated with cereal-cereal monoculture and least common in the oilseed-pulse cropping sequences. The fungi (Mortierella, Funneliformis, and Diversispora) and bacteria (Rhizobium, Bradyrhizobium, Flavobacterium, and Candidatus) were higher in the cropping sequences involving pulses. The most prevalent bacteria were Streptomyces in cereal-related sequences and Solirubrobacter and Pseudomonas in oilseed-related sequences. Among soil mineral chemicals, nitrate-nitrogen, copper, calcium, potassium, and chlorine were associated with a number of beneficial fungal and bacterial genera but not with pathogenic fungal genera. Conclusions: The results highlight the consequences of crop species selection in cropping sequences and the management of agrochemicals in the agricultural production system.
- Subjects
CROP rotation; MICROBIAL communities; COLORIMETRIC analysis; SOIL mineralogy; MICROBIAL diversity; POTASSIUM
- Publication
Plant & Soil, 2024, Vol 495, Issue 1/2, p517
- ISSN
0032-079X
- Publication type
Article
- DOI
10.1007/s11104-023-06345-4