Resource effects on denitrification are mediated by community composition in tidal freshwater wetlands soils

Abstract

Accurate prediction of denitrification rates remains difficult, potentially owing to complex uncharacterized interactions between resource conditions and denitrifier communities. To better understand how the availability of organic matter (OM) and nitrate (NO3 (-) ), two of the resources most fundamental to denitrifiers, affect these populations and their activity, we performed an in situ resource manipulation in tidal freshwater wetland soils. Soils were augmented with OM to double ambient concentrations, using either compost or plant litter, and fertilized with KNO3 at two levels (low: ∼ 5 mg l(-1) NO3 (-) -N and high: ∼ 50 mg l(-1) NO3 (-) -N) in a full factorial design. Community composition of nirS-denitrifers (assessed using terminal restriction fragment length polymorphism) was interactively regulated by both NO3 (-) concentration and OM type, and the associated shifts in community composition were relatively consistent across sampling dates (6, 9 and 12 months of incubation). Denitrification potential (pDNF) rates were also strongly affected by NO3 (-) fertilization and increased by ∼ 10-100-fold. Path analysis revealed that the influence of resource availability on pDNF rates was largely mediated through changes in nirS-denitrifier community composition. These results suggest that a greater understanding of denitrifier community ecology may enable more accurate prediction of denitrification rates.