Nitrous oxide fluxes and nitrogen cycling along a pasture chronosequence in Central Amazonia, Brazil

We studied nitrous oxide (N₂O) fluxes and soil nitrogen (N) cycling following forest conversion to pasture in the central Amazon near Santar&#233;m, Par&#225;, Brazil. Two undisturbed forest sites and 27 pasture sites of 0.5 to 60 years were sampled once each during wet and dry seasons. In addition to soil-atmosphere fluxes of N₂O we measured 27 soil chemical, soil microbiological and soil physical variables. <br /><br /> Soil N₂O fluxes were higher in the wet season than in the dry season. Fluxes of N₂O from forest soils always exceeded fluxes from pasture soils and showed no consistent trend with pasture age. At our forest sites, nitrate was the dominant form of inorganic N both during wet and dry season. At our pasture sites nitrate generally dominated the inorganic N pools during the wet season and ammonium dominated during the dry season. Net mineralization and nitrification rates displayed large variations. During the dry season net immobilization of N was observed in some pastures. Compared to forest sites, young pasture sites (&le;2 years) had low microbial biomass N and protease activities. Protease activity and microbial biomass N peaked in pastures of intermediate age (4 to 8 years) followed by consistently lower values in older pasture (10 to 60 years). The C/N ratio of litter was low at the forest sites (~25) and rapidly increased with pasture age reaching values of 60-70 at pastures of 15 years and older. <br /><br /> Nitrous oxide emissions at our sites were controlled by C and N availability and soil aeration. Fluxes of N₂O were negatively correlated to leaf litter C/N ratio, NH₄⁺-N and the ratio of NO₃^--N to the sum of NO₃^--N + NH₄⁺-N (indicators of N availability), and methane fluxes and bulk density (indicators of soil aeration status) during the wet season. During the dry season fluxes of N₂O were positively correlated to microbial biomass N, &beta;-glucosidase activity, total inorganic N stocks and NH₄⁺-N. In our study region, pastures of all age emitted less N₂O than old-growth forests, because of a progressive decline in N availability with pasture age combined with strongly anaerobic conditions in some pastures during the wet season.