Wildfire changes the spatial pattern of soil nutrient availability in Pinus canariensis forests
Fecha
2009Resumen
Soil resources are heterogeneously distributed in terrestrial plant communities. This heterogeneity
is important because it determines the availability of local soil resources. A forest fire may change the
spatial distribution of soil nutrients, affecting nutrition and survival of colonizing plants. However,
specific information on the effects of ecosystem disturbance on the spatial distribution of soil resources
is scarce.
We hypothesized that, on a short-term basis, wildfire would change the spatial patterns of soil N
and P availability. To test this hypothesis, we selected two Pinus canariensis forests burned in 2005
and 2000, respectively, and a third forest that was unburned since at least 1990 (unburned). We incubated
ionic exchange membranes (IEMs) in replicated plots to estimate soil N and P availability and
characterized the spatial pattern using SADIE (Spatial Analysis by Distance Indices).
Mineral N, NO3-N and PO4-P availability, and aggregation and cluster indices for all nutrients were
higher in the 2005 wildfire plots than in the 2000 wildfire and unburned plots.
Our results suggest that surviving plants or new individuals becoming established in a burned area
would find higher soil resources, but also higher small-scale heterogeneity in nutrients, which may
have a major impact on the performance of individual plants and on the forest structure and dynamics.