Abstract
Organic rice (Oryza sativa L.) cultivation represents a pathway toward sustainable agriculture. Soil microbial communities vary with topographic features, potentially affecting organic fertilizer efficiency and crop productivity, yet the relationship between topography, soil microbes, and fertilizer performance in rice farming remains largely unexplored. On-farm trials were conducted at two locations with contrasting topography (valley bottom vs. hillslope) in Yosano Town, Japan, comparing rice plant nitrogen uptake, biomass production, and grain yields under organic fertilizer management. Soil incubation experiments and microbiome analyses were performed to investigate differences in nitrogen mineralization rates and soil microbial community composition between locations. Valley bottom fields showed higher nitrogen uptake, biomass production, and grain yield with organic fertilizer application compared to hillslope fields. These differences are associated with higher nitrogen mineralization rates and lower abundance of genes involved in denitrification and bacterial ammonia assimilation in valley bottom soils, suggesting greater nitrogen retention and plant availability. These findings provide insights into site-specific management of organic fertilizers in rice production, highlighting the need for tailored strategies based on local topographic conditions and associated soil microbial communities.