Alternative management strategy reshapes litter microbiome dynamics in a commercial broiler rearing system
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Pre-harvest litter management is a key determinant of broiler production conditions, influencing NH₃ generation, pathogen exposure, nutrient retention, and microbial reservoirs that accumulate across production cycles. Conventional chemical and physical management strategies can support flock health, but their effects on pathogen-associated bacterial populations are often transient and may not account for the microbial interactions that govern persistence, exclusion, and community succession. Here, we evaluated an alternative litter management strategy combining IndigoLT® pre-/postbiotic with reduced-rate NaHSO₄ across two broiler growouts, with litter sampled at the end of each flock to determine impact on prokaryotic microbiome structure, physicochemistry, and Enterococcus abundance. Alternative management influenced observed richness, phylogenetic diversity, community composition, and co-occurrence network structure while reducing the relative abundance of Enterococcus , including E. cecorum and E. hirae . Digital PCR corroborated sequencing-based Enterococcus abundance patterns, although 16S-based treatment effects were not always reflected as lower absolute copy number at terminal sampling, consistent with reduced proportional dominance rather than sustained absolute suppression. Complementary biofilm- and growth-inhibition assays performed with IndigoLT® demonstrated context-dependent antibiofilm and bacteriostatic activity against reference and poultry-derived Enterococcus isolates, with stronger responses for E. cecorum than E. hirae and bactericidal-level reductions in viable recovery at higher exposure levels. These findings demonstrate that biologic-based litter management can alter microbiome structure and pathogen-associated taxa under commercial production conditions, providing a basis for microbiome-informed amendment strategies aimed at reducing pathogen load and supporting broiler health.