Long-term decrease of organic and inorganic nitrogen concentrations due to pine forest wildfire
Date
2010Abstract
Growing concerns about fires and the increase of fire frequency and severity due to climate change
have stimulated a large number of scientific papers about fire ecology. Most researchers have focused
on the short-term effects of fire, and the knowledge about the long-term consequences of fires on
ecosystem nutrient dynamics is still scarce.
Our aim was to improve the existing knowledge about the long-term effects of wildfires on forestlabile
N concentrations. We hypothesized that fires may cause an initial decline in organic and inorganic
N availability, and in the amount of microbial biomass-N; this should be followed by the
recovery of pre-fire N concentrations on a long-term basis. We selected a fire chronosequence in
Pinus canariensis forests on La Palma Island (Canary Islands, Spain). These forests are under low
anthropogenic atmospheric deposition, and forest management is completely lacking; wildfires are
therefore the only significant disturbance. Soil samples were collected during the winter and spring
at 22 burned and unburned plots.
Fire produced a significant decrease in microbial biomass N, mineral N and dissolved organic N.
Almost 20 y after fire, pre-fire levels of N concentrations had not recovered.
These results demonstrate that P. canariensis forest soils have a lower resilience against fire than
expected. The magnitude of these observed changes suggests that pine forest wildfires may induce
long-term (2 decades) changes in soil and in plant primary production.