PARENT SESSION
Oral Session #42: Carbon and Nitrogen Cycling. Presiding: S. Hobbie.
Wednesday, August 8, 2001. 8:00 AM to 11:30 AM. Hall of Ideas E.

Can we mediate N₂O fluxes in managed ecosystems by manipulating organic matter inputs?

MCSWINEY, C.¹, ROBERTSON, G.¹, COLLIS, H.¹, ¹

ABSTRACT- At the Kellogg Biological Station we have examined N₂O production in conifer and deciduous forests that have been fertilized with 0 or 30 kg N/ha/yr. In the first year of the experiment N₂O fluxes were similar in fertilized and control plots for each forest type. After six years of fertilization, fertilized forest plots in both stand types produced more N₂O than did the unfertilized control plots. We hypothesize that the reason for the time lag in the N₂O response to fertilization is the accumulation of organic matter in the forest floor that buffers the forested system from inputs of N. In initial tests of this hypothesis we transferred intact conifer forest floor into conventional agricultural ecosystems. We monitored surface N₂O fluxes from soil with and without forest floor additions. Forest floor material was also combined with agricultural soil in laboratory experiments to determine whether organic matter from the forested systems depresses N₂O production when fertilizer is added to soils. Contrary to expectations, forest floor additions stimulated rather than reduced N₂O production in agricultural soils both in the field and the laboratory. In a separate experiment, when forest floor leachates were added both with and without fertilizer to agricultural soil, N₂O production was stimulated only by conifer forest floor leachate with fertilizer.

KEY WORDS: Trace gas, Forest, Agriculture