Spinach (Spinacia oleracea) as green manure modifies the soil nutrients and microbiota structure for enhanced pepper productivity

• Published in: Scientific reports Vol. 13; no. 1; p. 4140
• Main Authors: Kim, Ryeong-Hui, Tagele, Setu Bazie, Jeong, Minsoo, Jung, Da-Ryung, Lee, Dokyung, Park, TaeHyung, Tino, Bashizi Flory, Lim, Kyeongmo, Kim, Min A, Park, Yeong-Jun, Shin, Jae-Ho
• Format: Journal Article
• Language: English
• Published: England Nature Publishing Group 13.03.2023; Nature Publishing Group UK; Nature Portfolio
• Subjects: Agricultural practices; Agricultural production; Bacteria; Chemical properties; Continuous cropping; Crop rotation; Crop yield; Cultivars; Ectomycorrhizas; Fruits; Guilds; Hydrocarbon-degrading bacteria; Manure; Manures; Microbiomes; Microbiota; Nutrients; Soil - chemistry; Soil amendment; Soil fertility; Soil Microbiology; Soil microorganisms; Soil nutrients; Soil pH; Soil properties; Soil treatment; Spinach; Spinacia oleracea; Vegetables
• ISSN: 2045-2322; 2045-2322
• DOI: 10.1038/s41598-023-31204-8

Spinach has been suggested as a potential rotation crop for increasing crop yield by enhancing beneficial fungal microbes in continuous monocropping. However, no research on the use of spinach as a green manure has been reported. Thus, we tested the effects of spinach and Korean mustard cultivars (green and red mustards) (10 g pot ) as green manure on soil chemical properties, pepper productivity, and soil microbiome of long-year pepper-monocropped soil. Spinach improved the soil nutrition (e.g., pH, SOM, TN, NH , and K), weed suppression, and pepper growth. Spinach had by far the highest fruit yield, over 100% pepper fruit yield increment over the mustard green manures and control. Our study showed that the major influencing factors to cause a shift in both bacterial and fungal community assemblies were soil pH, TC TN, and K. Following green manure amendment Bacillota, especially Clostridium, Bacillus and Sedimentibacter, were enriched, whereas Chloroflexi and Acidobacteriota were reduced. In addition, spinach highly reduced the abundance of Leotiomycetes and Fusarium but enriched Papiliotrema. FAPROTAX and FUNGuild analysis revealed that predicted functional profiles of bacterial and fungal communities in spinach-amended soil were changed. Spinach-treated soil was differentially abundant in function related to hydrocarbon degradation and functional guilds of symbiotrophs and ectomycorrhizal. This study contributes significantly to our understanding of how the soil fertility and soil microbiome alteration via spinach green manure application as a pre-plant soil treatment might help alleviate continuous cropping obstacles.