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RESEARCH ARTICLE
Contents Vol 19(6)

Fuel loading and flammability in the Mediterranean Basin woody species with different post-fire regenerative strategies

S. Saura-Mas A D , S. Paula B , J. G. Pausas C and F. Lloret A
+ Author Affiliations
- Author Affiliations

A CREAF (Center for Ecological Research and Forestry Applications) and Unit of Ecology, Department of Animal and Plant Biology and Ecology, Autonomous University of Barcelona, E-08193 Bellaterra, Barcelona, Spain.

B CEAM (Fundación Centro de Estudios Ambientales del Mediterráneo), C/Charles R. Darwin 14, Parc Tecnologic, E-46980 Paterna, Valencia, Spain.

C CIDE-CSIC (Desertification Research Center – Centro Superior de Investigaciones Científicas), Camí de la Marjal s/n, Albal, E-46470 Valencia, Spain.

D Corresponding author. Email: s.sauramas@creaf.uab.es

International Journal of Wildland Fire 19(6) 783-794 https://doi.org/10.1071/WF09066
Submitted: 18 June 2009  Accepted: 4 January 2010   Published: 17 September 2010

Abstract

The flammability and combustibility of plant communities are determined by species features related to growth-form, structure and physiology. In some ecosystems, such as the Mediterranean ones, these characteristics may contribute to the existence of fire-prone species. We measured several parameters associated with the flammability and fuel loading of dominant woody species with different post-fire regenerative strategies (seeders and non-seeders) in shrublands in the western Mediterranean Basin. Overall, seeder species show lower fuel load but are more prone to burning owing to a higher dead-to-live fuel ratio, live fine-fuel proportion and dead fine-fuel proportion. Moreover, they burst into flame at lower temperatures than non-seeders. In the Mediterranean Basin, most seeder species emerged mainly during the Quaternary, under a highly fluctuating Mediterranean climate and during recurrent fires. We propose that properties related to the combustibility and flammability of seeders may be the result of selective pressures associated with both fire and climate. These results suggest that ecosystems dominated by seeder species are more susceptible to fire risk than those dominated by non-seeder species in the Mediterranean Basin. Therefore, the proportion of these types of species resulting from previous fire or management history is likely to determine the characteristics of future fire events.

Additional keywords: combustibility, fire regime, resprouting, seeder, wildfire.


Acknowledgements

We thank M. Jané, E. Martí, A. Vilà-Cabrera, J. Garcia, B. Moreira, S. Ribeiro and C. Beseler for helping in the field and in the laboratory work. Also, special thanks are due to J. Piñol for his advice and suggestions, and to J. Peñuelas and G. Alessio for supporting the flammability tests. This study was funded by the Department of Universities, Research and Information Society of the Generalitat de Catalunya, the European social funds, and the Spanish Ministerio de Ciencia y Tecnología (MCYT) projects REN 2003–07198 and CGL2006–01293/BOS. It also contributes to the European research group (GDRE) ‘Mediterranean and mountain ecosystems in a changing world’ funded by the Generalitat de Catalunya and CNRS (Centre National de la Recherche Scientifique). CEAM (Fundación Centro de Estudios Ambientales del Mediterráneo) is supported by the Generalitat Valenciana and Bancaixa.


References


Alberdi L , Cavero R (2003) Flora vascular post-incendio en un carrascal de Nazar (Navarra). Publicaciones de Biología, Universidad de Navarra. Serie Botánica  15(6), 1–17.
Alessio GA (2006) Plant water and volatile organic compounds in flammability risk of Mediterranean woody species. PhD thesis, Universita del Molise, Rome.

Alessio GA, De Lillis M, Fanelli M, Pinelli P , Loreto F (2004) Direct and indirect impacts of fire on isoprenoid emissions from Mediterranean vegetation. Functional Ecology  18, 357–364.
Crossref | GoogleScholarGoogle Scholar | Andrews PL, Bevins CD (2003) BehavePlus fire modeling system, version 2.0: overview. In ‘Proceedings of the Second International Wildland Fire Ecology and Fire Management Congress and Fifth Symposium on Fire and Forest Meteorology’. 16–20 November 2003. pp. 5–11. (American Meteorological Society: Orlando, FL)

Arnan X, Rodrigo A , Retana J (2007) Post-fire regeneration of Mediterranean plant communities at a regional scale is dependent on vegetation type and dryness. Journal of Vegetation Science  18, 111–122.
Crossref | GoogleScholarGoogle Scholar | Bolòs O, Vigo J, Masalles RM, Ninot JM (Eds) (2005) ‘Flora Manual dels Països Catalans.’ (Pòrtic: Barcelona)

Bond WJ , Keeley JE (2005) Fire as a global ‘herbivore’: the ecology and evolution of flammable ecosystems. Trends in Ecology & Evolution  20(7), 387–394.
Crossref | GoogleScholarGoogle Scholar | Bond WJ, Van Wilgen BW (Eds) (1996) ‘Fire and Plants.’ (Chapman & Hall: London)

Bond WJ, Woodward FI , Midgley GF (2005) The global distribution of ecosystems in a world without fire. The New Phytologist  165, 525–538.
Crossref | GoogleScholarGoogle Scholar | CAS | PubMed | Cucó M (1987) Mecanismes de regeneració. In ‘Ecosistemes Terrestres: la Resposta als Incendis i a d’altres Pertorbacions’. (Ed. J Terradas) pp. 45–62. (Diputació de Barcelona: Barcelona)

De Luis M, Baeza MJ, Raventós J , González-Hidalgo JC (2004) Fuel characteristics and fire behaviour in mature Mediterranean gorse shrublands. International Journal of Wildland Fire  13, 79–87.
Crossref | GoogleScholarGoogle Scholar | Elvira LM, Hernando C (Eds) (1989) ‘Inflamabilidad y Energía de las Especies de Sotobosque.’ (Ministerio de Agricultura, Pesca y Alimentación, Instituto Nacional de Investigaciones Agrarias: Madrid)

Eugenio M , Lloret F (2004) Fire recurrence effects on the structure and composition of Mediterranean Pinus halepensis communities in Catalonia (northeast Iberian Peninsula). Ecoscience  11, 446–454.
Fenner M (Ed.) (1992) ‘Seeds. The Ecology of Regeneration in Plant Communities.’ (CAB International: Oxon, UK)

Franklin J, Syphard AD, Mladenoff DJ, He HS, Simons DK, Martin RP, Deutschman DD , O’Leary JF (2001) Simulating the effects of different fire regimes on plant functional groups in southern California. Ecological Modelling  142, 261–283.
Crossref | GoogleScholarGoogle Scholar | Moreno JM, Oechel WC (Eds) (1995) ‘Global Change and Mediterranean-type Ecosystems.’ (Springer-Verlag: New York)

Mutch RW (1970) Wildland fires and ecosystems – a hypothesis. Ecology  51(6), 1046–1051.
Crossref | GoogleScholarGoogle Scholar | Nelson RM, Jr (2001) Water relations of forest fuels. In ‘Forest Fires: Behavior and Ecological Effects’. (Eds E Johnson, K Miyanishi) pp. 79–150. (Academic press: San Diego, CA)

Ninyerola M, Pons X , Roure J (2000) A methodological approach of climatological modelling of air temperature and precipitation through GIS techniques. International Journal of Climatology  20, 1823–1841.
Crossref | GoogleScholarGoogle Scholar | Ninyerola M, Pons X, Roure J, Martín VJ, Raso J, Clavero P (2003) Atles Climàtic Digital de Catalunya. (CD-ROM) (Servei Meteorològic de Catalunya and Departament de Medi Ambient de la Generalitat Catalunya: Barcelona)

Owens MK, Lin CD, Taylor CA , Whisenant SG (1998) Seasonal patterns of plant flammability and monoterpenoid content in Juniperus ashei. Journal of Chemical Ecology  24(12), 2115–2129.
Crossref | GoogleScholarGoogle Scholar | Papió CP (Ed.) (1994) ‘Ecologia del Foc i Regeneració en Garrigues i Pinedes Mediterrànies.’ (Institut d’Estudis Catalans: Barcelona)

Papió CP , Trabaud L (1991) Comparative study of the aerial structure of five shrubs of Mediterranean shrublands. Forest Science  37(1), 146–159.
Pérez AJ (1994) ‘Atlas Climático de la Comunidad Valenciana.’ (Generalitat Valenciana – Conselleria d’Obres Públiques, Urbanisme i Transports: València)

Philpot CW (1970) Influence of mineral content on the pyrolysis of plant materials. Forest Science  16, 461–471.

CAS | Pons X, Vayreda J (1996) La predicció del risc: poder calorífic, inflamabilitat i combustibilitat. In ‘Ecologia del Foc’. (Ed. J Terradas) pp. 82–95. (Proa: Barcelona)

Raunkiaer C (1934) ‘The Life Form of Plants and Statistical Plant Geography.’ (Oxford University Press: Oxford, UK)

Rodrigo A, Retana J , Picó FX (2004) Direct regeneration is not the only response of Mediterranean forests to large fires. Ecology  85, 716–729.
Crossref | GoogleScholarGoogle Scholar | Terradas J (2001) ‘Ecología de la Vegetación. De la Ecofisiología de las Plantas a la Dinámica de Comunidades y Paisajes.’ (Omega: Barcelona)

Trabaud L (1976) Inflammabilité et combustibilité des principales espèces des garrigues de la région méditerranéenne. Oecologia Plantarum  11, 117–136.
Trabaud L (1989) ‘Les Feux de Forêts. Mecanismes, Comportement et Environnement.’ (France-selection: Aubervilliers, France)

Valette J-C, Sol B, Moro C (1994) Flammability parameters and soil water reserve to improve the forecast of the meteorological forest fire danger index. In ‘Proceedings of the 2nd International Conference of Forest Fire Research’, 21–24 November 1994, Coimbra, Portugal. (Ed. DX Viegas) pp. 611–624. (Coimbra)

Verdaguer D , Ojeda F (2002) Root starch storage and allocation patterns in seeder and resprouter seedlings of two Cape Erica (Ericaceae) species. American Journal of Botany  89, 1189–1196.
Crossref | GoogleScholarGoogle Scholar | Whelan RJ (Ed.) (1995) ‘The Ecology of Fire.’ (Cambridge University Press: Cambridge, UK)

Zedler PH (1995) Are some plants born to burn? Trends in Ecology & Evolution  10(10), 393–395.
Crossref | GoogleScholarGoogle Scholar |

Zedler PH, Gautier CR , McMaster GS (1983) Vegetation change in response to extreme events: the effect of a short interval between fires in California chaparral and coastal scrub. Ecology  64(4), 809–818.
Crossref | GoogleScholarGoogle Scholar |