Decomposition and nitrogen mineralization in forests of British Columbia: Effects of forest management practices

The productivity of most forests in the Pacific Northwest is limited by the availability of nitrogen. Nitrogen availability is largely controlled by t he rate at which N is recycled from organic matter, through the processes o f decomposition and mineralization. These processes are controlled by the f actors that limit the activities of the soil organisms involved, particular ly temperature, moisture, and the physical and chemical nature of the organ ic matter. Forest management activities may influence each of these factors and thereby affect rates of decomposition, N mineralization and N availabi lity. The influences of several common forest management activities on decomposit ion and N mineralization were examined in a suite of experiments across Bri tish Columbia. Rates of decomposition were compared in forests and adjacent clearcuts at 22 sites, and rates were either the same or slower in the cle arcuts. Several sites had additional silvicultural treatments that provide a range of either opening size or removal intensity. Decomposition rates we re not influenced by opening size, but rates of net N mineralization and ni trification were increased in openings greater than 0.1 ha. Tree species in fluences N mineralization in the forest floor, with highest rates occuring in Douglas-fir and broadleaf species and lowest rates in cedar and pines. T he decomposition rates of foliar litters was best predicted by its lignin c oncentration. The influence of managing to maintain a component of broadlea f species was examined in decomposition experiments with pure and mixed lit ter of aspen and spruce, Douglas-fir and alder, and lodgepole pine, Douglas -fir and paper birch. There was no effect of mixing litters on their rates of decomposition. Likewise, N fertilization had no effect on decomposition rates in trials in coastal Douglas-fir and aspen.