Litter flammability in oak woodlands and shrublands of southeastern France
Title | Litter flammability in oak woodlands and shrublands of southeastern France |
Publication Type | Journal Article |
Year of Publication | 2011 |
Authors | Curt, T., Schaffhauser A., Borgniet L., Dumas C., Estève R., Ganteaume A., Jappiot M., Martin W., N’Diaye A., & Poilvet B. |
Journal | Forest Ecology and Management |
Volume | 261 |
Issue | 12 |
Pagination | 2214 - 2222 |
Date Published | 2011/// |
Keywords | Fire ignition hazard, flammability, litter, Point-source ignition, Quercus suber, Shrubland |
Abstract | Characterizing the flammability of litter fuels is of major importance for assessing wildland fire ignition hazard. Here we compared the flammability of litter within a mosaic of Quercus suber (cork oak) woodlands and shrublands in a Mediterranean fire-prone area (Maures massif, southeastern France) to test whether the characteristics and the flammability of litter vary with the vegetation types. We tested experimentally the ignitability, the sustainability, the combustibility and the consumability of undisturbed (=non-reconstructed) litter samples with a point-source mode of ignition. Although the frequency of ignition was similar between all the vegetation types, we distinguished four groups having litter of specific composition and flammability: low and sparse shrublands dominated by Cistus species, medium shrublands with cork oak, high Erica shrublands with sparse cork oak woodlands, and mixed mature oak woodlands with Q. suber, Q. ilex and Q. pubescens. As these vegetation types corresponded to a specific range of past fire recurrence, we also tested the effect of the number of fires and the time since the last fire on litter flammability. Litters of plots recurrently burned had low ability to propagate flames and low flame sustainability. We discuss how the recent fire history can modify vegetation and litter flammability, and thus the fire ignition hazard. |
URL | http://linkinghub.elsevier.com/retrieve/pii/S0378112710007024 |