Recurrent fires and environment shape the vegetation in Quercus suber L. woodlands and maquis.
Title | Recurrent fires and environment shape the vegetation in Quercus suber L. woodlands and maquis. |
Publication Type | Journal Article |
Year of Publication | 2012 |
Authors | Schaffhauser, A., Curt T., Véla E., & Tatoni T. |
Journal | Comptes rendus biologies |
Volume | 335 |
Issue | 6 |
Pagination | 424 - 434 |
Date Published | 2012/// |
Keywords | Acidic soil, biomass, climate, cork-oak, Ecosystem, Erica arborea L., Fire recurrence, Fires, France, Mediterranean Region, Plant communities, Plants, Plants: classification, Quercus, Seasons, Species Specificity, Trees |
Abstract | The effects of fire recurrence on vegetation patterns in Quercus suber L. and Erica-Cistus communities in Mediterranean fire-prone ecosystems of south-eastern France were examined on stands belonging to 5 fire classes, corresponding to different numbers of fires (from 0 to 4) and time intervals between fires since 1959. A common pool of species was identified among the plots, which was typical of both open and closed maquis. Fire recurrence reduced the abundance of trees and herbs, whereas it increased the abundance of small shrubs. Richness differed significantly between the most contrasting classes of fire recurrence, with maximal values found in control plots and minimal values in plots that had burned recurrently and recently. Equitability indices did not vary significantly, in contrast to Shannon's diversity index which mostly correlated with richness. Forest ecosystems that have burnt once or twice in the last 50 years were resilient; that is to say they recovered a biomass and composition similar to that of the pre-fire state. However, after more than 3-4 fires, shrubland communities displayed lower species richness and diversity indices than unburned plots. The time since the last fire and the number of fires were the most explanatory fire variables, governing the structure of post-fire plant communities. However, environmental factors, such as slope or exposure, also made a significant contribution. Higher rates of fire recurrence can affect the persistence or expansion of shrublands in the future, as observed in other Mediterranean areas. |
URL | http://www.ncbi.nlm.nih.gov/pubmed/22721564 |