NORTHERN peatlands contain 20-30% of the total organic nitrogen and ca
rbon in the world's soils1,2, and thus they apparently have the potent
ial to exert a significant influence on the global atmospheric budget
of the greenhouse gases carbon dioxide, methane and nitrous oxide (N2O
). In the drier, warmer summer conditions predicted at high latitudes
by some climate models3,4 as a result of greenhouse-gas forcing, north
ern peatlands would become drier, increasing the rate of mineralizatio
n of organic matter1,5 and of the microbial processes that produce N2O
. These regions might therefore be expected to exert a strong feedback
on climate. But whereas methane emissions have been well studied6,7,
little is known about the effect on N2O fluxes of changes in the level
of peatland water tables. Here we present a comparison of present-day
N2O fluxes from virgin peatlands in Finland with those from sites in
the same regions that were drained by ditching 30 and 50 years ago. Th
e lowered water table had no effect on N2O emissions from nutrient-poo
r peat but enhanced those from nutrient-rich peat. We estimate that eq
uivalent drying caused by climate change would increase the total emis
sions of N2O from northern peatlands by 0.03-0.1 teragrams of nitrogen
per year, which is just 0.3-1% of the present global annual emissions
. Thus northern peatlands are unlikely to exert a significant climate
feedback from N2O emissions.