Fuel structural traits modulating soil temperatures in different species patches of Mediterranean Basin shrublands
Victor M. Santana A C , M. Jaime Baeza A B and V. Ramón Vallejo A
+ Author Affiliations
- Author Affiliations
A Fundación de la Generalitat Valenciana, Centro de Estudios Ambientales del Mediterráneo (CEAM), Parque Tecnológico Paterna, Calle Charles Darwin, 14, E-46980 Paterna, Valencia, Spain.
B Departamento de Ecología, Universidad de Alicante, Apartado de correos 99, E-03080 Alicante, Spain.
C Corresponding author. Email: vm.santana@ua.es
International Journal of Wildland Fire 20(5) 668-677 https://doi.org/10.1071/WF10083
Submitted: 20 July 2010 Accepted: 9 November 2010 Published: 8 August 2011
Abstract
The ability of a fuel to burn is determined by its flammability, a property that varies from one species to another and is partially determined by different fuel structural traits such as surface-to-volume ratio of twigs and leaves, retention of standing dead twigs, canopy architecture and bulk density. Our aim was to assess the role of these fuel structural traits in modulating soil temperatures under patches of different species. The results showed that there were contrasting differences in the fuel-structure complex among different species patches in Mediterranean Basin shrublands. The differences in the fuel structure were important in modulating soil temperature because, regardless of the total fuel load, the highest temperatures were found under the species with the highest loads and densities of dead fine fuel. Surprisingly, temperatures under herbaceous species were high in relation to shrubby species; however, temperature residence times were shorter. Therefore, management strategies that promote species that accumulate low contents of fine dead fuel could be crucial for attaining less severe fires with a reduced effect on ecosystem functioning.
Additional keywords: dead fuel, fire behaviour, fire intensity, fire severity, flammability.
References
Alessio GA, Peñuelas J, De Lillis M, Llusià J (2008) Implications of foliar terpene content and hydration on leaf flammability of Quercus ilex and Pinus halepensis. Plant Biology 10, 123–128.| Implications of foliar terpene content and hydration on leaf flammability of Quercus ilex and Pinus halepensis.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXlslWqsrw%3D&md5=2ffe48d95ae10e447fceb5596b52c3dfCAS |
Anderson SAJ, Anderson WR (2009) Predicting the elevated dead fine fuel moisture content in gorse (Ulex europaeus L.) shrub fuels. Canadian Journal of Forest Research 39, 2355–2368.
| Predicting the elevated dead fine fuel moisture content in gorse (Ulex europaeus L.) shrub fuels.Crossref | GoogleScholarGoogle Scholar |
Baeza MJ (2001) Aspectos ecológicos y técnicas de control de combustible (roza y quema controlada) en matorrales con alto riesgo de incendio dominados por Ulex parviflorus (Pourr.). PhD thesis, Universidad de Alicante, Spain.
Baeza MJ, Raventós J, Escarré A (2002a) Ulex parviflorus germination after experimental burning: effects of temperature and soil depth. In ‘Fire and Biological Processes’. (Eds L Trabaud, R Prodon) pp. 83–91. (Backhuys Publisher: Leiden, the Netherlands)
Baeza MJ, de Luis M, Raventós J, Escarré A (2002) Factors influencing fire behaviour in shrublands of different stand ages and the implications for using prescribed burning to reduce wildfire risk. Journal of Environmental Management 65, 199–208.
| Factors influencing fire behaviour in shrublands of different stand ages and the implications for using prescribed burning to reduce wildfire risk.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD38vjvFKjtA%3D%3D&md5=ace1293eeb22caae3ee78159c3bcc6d8CAS |
Baeza MJ, Raventos J, Escarré A, Vallejo VR (2006) Fire risk and vegetation structural dynamics in Mediterranean shrubland. Plant Ecology 187, 189–201.
| Fire risk and vegetation structural dynamics in Mediterranean shrubland.Crossref | GoogleScholarGoogle Scholar |
Baeza MJ, Valdecantos A, Alloza JA, Vallejo VR (2007) Human disturbance and environmental factors as drivers of long-term post-fire regeneration patterns in Mediterranean forests. Journal of Vegetation Science 18, 243–252.
| Human disturbance and environmental factors as drivers of long-term post-fire regeneration patterns in Mediterranean forests.Crossref | GoogleScholarGoogle Scholar |
Beadle NCW (1940) Soil temperatures during forest fires and their effect on the survival of vegetation. Journal of Ecology 28, 180–192.
| Soil temperatures during forest fires and their effect on the survival of vegetation.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaH3cXltlSnug%3D%3D&md5=34d307525c8f3f770ed027ca16a30984CAS |
Bond WJ, van Wilgen BW (1996) ‘Fire and Plants.’ (Chapman & Hall: London)
Bradstock RA, Auld TD (1995) Soil temperatures during experimental bushfires in relation to fire intensity: consequence for legume germination and fire management in south-eastern Australia. Journal of Applied Ecology 32, 76–84.
| Soil temperatures during experimental bushfires in relation to fire intensity: consequence for legume germination and fire management in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Bradstock RA, Gill AM (1993) Fire in semi-arid, mallee shrublands – size of flames from discrete fuel arrays and their role in the spread of fire. International Journal of Wildland Fire 3, 3–12.
| Fire in semi-arid, mallee shrublands – size of flames from discrete fuel arrays and their role in the spread of fire.Crossref | GoogleScholarGoogle Scholar |
Bradstock RA, Auld TD, Ellis ME, Cohn JS (1992) Soil temperatures during bushfires in semi-arid, mallee shrublands. Australian Journal of Ecology 17, 433–440.
| Soil temperatures during bushfires in semi-arid, mallee shrublands.Crossref | GoogleScholarGoogle Scholar |
Brooks ML (2002) Peak fire temperatures and effects on annual plants in the Mojave desert. Ecological Applications 12, 1088–1102.
| Peak fire temperatures and effects on annual plants in the Mojave desert.Crossref | GoogleScholarGoogle Scholar |
Caturla RN (2002) Efecte del foc i la recurrència d’incendis en camps abandonats dominats per Brachypodium retusum (Pers.) Beauv. a la comunitat Valenciana. PhD thesis, Universidad de Alicante, Spain.
Certini G (2005) Effects of fire on properties of forest soils: a review. Oecologia 143, 1–10.
| Effects of fire on properties of forest soils: a review.Crossref | GoogleScholarGoogle Scholar |
Clemente AS, Rego FC, Correia O (2007) Seed bank dynamics of two obligate seeders, Cistus monspeliensis and Rosmarinus officinalis, in relation to time since fire. Plant Ecology 190, 175–188.
| Seed bank dynamics of two obligate seeders, Cistus monspeliensis and Rosmarinus officinalis, in relation to time since fire.Crossref | GoogleScholarGoogle Scholar |
Cohen M, Cuiñas P, Diez C, Fernandes P, Guijarro M, Moro C (2003) Wildland fuel particles characterisation: database content (Deliverable D6–03–A1). Fire Star: a decision support system for fuel management and fire hazard reduction in Mediterranean wildland–urban interfaces, Project no. EVG1-CT-2001–00041 (European Commission). Available at http://www.eufirestarpro.org [Verified 15 September 2009]
Conard SG, Hartzell T, Hilbruner MW, Zimmerman GT (2001) Changing fuel management strategies – the challenge of meeting new information and analysis needs. International Journal of Wildland Fire 10, 267–275.
| Changing fuel management strategies – the challenge of meeting new information and analysis needs.Crossref | GoogleScholarGoogle Scholar |
Cornelissen JHC, Lavorel S, Garnier E, Díaz S, Buchmann N, Gurvich DE, Reich PB, ter Steege H, Morgan HD, van der Heijden MGA, Pausas JG, Poorter H (2003) A handbook of protocols for standardised and easy measurement of plant functional traits worldwide. Australian Journal of Botany 51, 335–380.
| A handbook of protocols for standardised and easy measurement of plant functional traits worldwide.Crossref | GoogleScholarGoogle Scholar |
Davies GM, Legg CJ, Smith AA, MacDonald AJ (2009) Fire rate of spread in Calluna vulgaris-dominated moorlands. Journal of Applied Ecology 46, 1054–1063.
| Fire rate of spread in Calluna vulgaris-dominated moorlands.Crossref | GoogleScholarGoogle Scholar |
Davies GM, Smith AA, MacDonald AJ, Bakker D, Legg CJ (2010) Fire intensity, fire severity and ecosystem response in heathlands: factors affecting the regeneration of Calluna vulgaris. Journal of Applied Ecology 47, 356–365.
| Fire intensity, fire severity and ecosystem response in heathlands: factors affecting the regeneration of Calluna vulgaris.Crossref | GoogleScholarGoogle Scholar |
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.
| Fuel characteristics and fire behaviour in mature Mediterranean gorse shrublands.Crossref | GoogleScholarGoogle Scholar |
De Luis M, Raventós J, González-Hidalgo JC (2005) Factors controlling seedling germination after fire in Mediterranean gorse shrublands. Implications for fire prescription. Journal of Environmental Management 76, 159–166.
| Factors controlling seedling germination after fire in Mediterranean gorse shrublands. Implications for fire prescription.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2Mzmslygtw%3D%3D&md5=607ce26afc0b865994dde73198d33395CAS |
Dimitrakopoulos AP (2001) A statistical classification of Mediterranean species based on their flammability components. International Journal of Wildland Fire 10, 113–118.
| A statistical classification of Mediterranean species based on their flammability components.Crossref | GoogleScholarGoogle Scholar |
Dimitrakopoulos AP, Panov PI (2001) Pyric properties of some dominant Mediterranean vegetation species. International Journal of Wildland Fire 10, 23–27.
| Pyric properties of some dominant Mediterranean vegetation species.Crossref | GoogleScholarGoogle Scholar |
Duguy B, Alloza JA, Röder A, Vallejo R, Pastor F (2007) Modelling the effects of landscape fuel treatments on fire growth and behaviour in a Mediterranean landscape (eastern Spain). International Journal of Wildland Fire 16, 619–632.
| Modelling the effects of landscape fuel treatments on fire growth and behaviour in a Mediterranean landscape (eastern Spain).Crossref | GoogleScholarGoogle Scholar |
Elvira LM, Hernando C (1989) Inflamabilidad y energía de las especies de sotobosque. Colección Monografías Instituto Nacional de Investigaciones Agrarias, number 68. (Ministerio de Agricultura Pesca y Alimentación: Madrid)
Fernandes PA (2001) Fire spread prediction in shrub fuels in Portugal. Forest Ecology and Management 144, 67–74.
| Fire spread prediction in shrub fuels in Portugal.Crossref | GoogleScholarGoogle Scholar |
Fernandes P (2009) Combining forest structure data and fuel modelling to classify fire hazard in Portugal. Annals of Forest Science 66, 415
| Combining forest structure data and fuel modelling to classify fire hazard in Portugal.Crossref | GoogleScholarGoogle Scholar |
Fernandes PA, Botelho H (2003) A review of prescribed burning effectiveness in fire hazard reduction. International Journal of Wildland Fire 12, 117–128.
| A review of prescribed burning effectiveness in fire hazard reduction.Crossref | GoogleScholarGoogle Scholar |
Hartford RA, Frandsen WH (1992) When it’s hot, it’s hot... or maybe it’s not! (Surface flaming may not portend extensive soil heating). International Journal of Wildland Fire 2, 139–144.
| When it’s hot, it’s hot... or maybe it’s not! (Surface flaming may not portend extensive soil heating).Crossref | GoogleScholarGoogle Scholar |
Johnson EA (1992) ‘Fire and Vegetation Dynamics: Studies from the North American Boreal Forest.’ (Cambridge University Press: Cambridge, MA, USA)
Keeley JE (2009) Fire intensity, fire severity and burn severity: a brief review and suggested usage. International Journal of Wildland Fire 18, 116–126.
| Fire intensity, fire severity and burn severity: a brief review and suggested usage.Crossref | GoogleScholarGoogle Scholar |
Keeley JE, McGinnis TW (2007) Impact of prescribed fire and other factors on cheatgrass persistence in a Sierra Nevada ponderosa pine forest. International Journal of Wildland Fire 16, 96–106.
| Impact of prescribed fire and other factors on cheatgrass persistence in a Sierra Nevada ponderosa pine forest.Crossref | GoogleScholarGoogle Scholar |
Keeley JE, Fotheringham CJ, Baer-Keeley M (2005) Determinants of post-fire recovery and succession in Mediterranean-climate shrublands of California. Ecological Applications 15, 1515–1534.
| Determinants of post-fire recovery and succession in Mediterranean-climate shrublands of California.Crossref | GoogleScholarGoogle Scholar |
Molina MJ, Llinares JV (2001) Temperature–time curves at the soil surface in maquis summer fires. International Journal of Wildland Fire 10, 45–52.
| Temperature–time curves at the soil surface in maquis summer fires.Crossref | GoogleScholarGoogle Scholar |
Moreno JM, Oechel WC (1991) Fire intensity effects on germination of shrubs and herbs in southern California chaparral. Ecology 72, 1993–2004.
| Fire intensity effects on germination of shrubs and herbs in southern California chaparral.Crossref | GoogleScholarGoogle Scholar |
Morvan D, Dupuy JL (2004) Modeling the propagation of a wildfire through a Mediterranean shrub using a multiphase formulation. Combustion and Flame 138, 199–210.
| Modeling the propagation of a wildfire through a Mediterranean shrub using a multiphase formulation.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2cXmtlOrurc%3D&md5=14ebfba73b84294e73ad1cea81b3ebd8CAS |
Mouillot F, Field CB (2005) Fire history and the global carbon budget: a 1° × 1° fire history reconstruction for the 20th century. Global Change Biology 11, 398–420.
| Fire history and the global carbon budget: a 1° × 1° fire history reconstruction for the 20th century.Crossref | GoogleScholarGoogle Scholar |
Odion DC, Davis FW (2000) Fire, soil heating, and the formation of vegetation patterns in chaparral. Ecological Monographs 70, 149–169.
| Fire, soil heating, and the formation of vegetation patterns in chaparral.Crossref | GoogleScholarGoogle Scholar |
Papió C, Trabaud L (1991) Comparative study of the aerial structure of five shrubs of Mediterranean shrublands. Forest Science 37, 146–159.
Paula S, Arianoutsou M, Kazanis D, Tavsanoglu , Lloret F, Buhk C, Ojeda F, Luna B, Moreno JM, Rodrigo A, Espelta JM, Palacio S, Fernández-Santos B, Fernandes PM, Pausas JG, Michener WK (2009) Fire-related traits for plant species of the Mediterranean Basin. Ecology 90, 1420
| Fire-related traits for plant species of the Mediterranean Basin.Crossref | GoogleScholarGoogle Scholar |
Pausas JG (2004) Changes in fire and climate in the eastern Iberian peninsula (Mediterranean Basin). Climatic Change 63, 337–350.
| Changes in fire and climate in the eastern Iberian peninsula (Mediterranean Basin).Crossref | GoogleScholarGoogle Scholar |
Pereira JM, Sequeira NM, Carreiras JM (1995) Structural properties and dimensional relations of some Mediterranean shrub fuels. International Journal of Wildland Fire 5, 35–42.
| Structural properties and dimensional relations of some Mediterranean shrub fuels.Crossref | GoogleScholarGoogle Scholar |
Pérez B, Moreno JM (1998) Methods for quantifying fire severity in shrubland-fires. Plant Ecology 139, 91–101.
| Methods for quantifying fire severity in shrubland-fires.Crossref | GoogleScholarGoogle Scholar |
Philpot CW (1970) Influence of mineral content on the pyrolysis of plant materials. Forest Science 16, 461–471.
Rothermel RC (1972) A mathematical model for predicting fire spread in wildland fuels. USDA Forest Service, Intermountain Forest and Range Experiment Station, Research Paper INT-115. (Ogden, UT)
Santana VM, Baeza MJ, Marrs RH, Vallejo VR (2010) Old-field secondary succession in SE Spain: can fire divert it? Plant Ecology 211, 337–349.
| Old-field secondary succession in SE Spain: can fire divert it?Crossref | GoogleScholarGoogle Scholar |
Saura-Mas S, Paula S, Pausas JG, Lloret F (2010) Fuel loading and flammability in the Mediterranean Basin woody species with different post-fire regenerative strategies. International Journal of Wildland Fire 19, 783–794.
| Fuel loading and flammability in the Mediterranean Basin woody species with different post-fire regenerative strategies.Crossref | GoogleScholarGoogle Scholar |
Savadogo P, Zida D, Sawadogo L, Tiveau D, Tigabu M, Odén PC (2007) Fuel and fire characteristics in savanna-woodland of West Africa in relation to grazing and dominant grass type. International Journal of Wildland Fire 16, 531–539.
| Fuel and fire characteristics in savanna-woodland of West Africa in relation to grazing and dominant grass type.Crossref | GoogleScholarGoogle Scholar |
Scarff FR, Westoby M (2006) Leaf litter flammability in some semi-arid Australian woodlands. Functional Ecology 20, 745–752.
| Leaf litter flammability in some semi-arid Australian woodlands.Crossref | GoogleScholarGoogle Scholar |
Schimmel J, Granström A (1996) Fire severity and vegetation response in the boreal Swedish forest. Ecology 77, 1436–1450.
| Fire severity and vegetation response in the boreal Swedish forest.Crossref | GoogleScholarGoogle Scholar |
Schwilk DW (2003) Flammability is a niche construction trait: canopy architecture affects fire intensity. American Naturalist 162, 725–733.
| Flammability is a niche construction trait: canopy architecture affects fire intensity.Crossref | GoogleScholarGoogle Scholar |
Sun L, Zhou X, Mahalingam S, Weise DR (2006) Comparison of burning characteristics of live and dead chaparral fuels. Combustion and Flame 144, 349–359.
| Comparison of burning characteristics of live and dead chaparral fuels.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXhtlertbrJ&md5=5d20ed5f08acc1f2ca5fb22a16c1aa34CAS |
Troumbis AS, Trabaud L (1989) Some questions about flammability in fire ecology. Acta Oecologica-Oecologia Plantarum 10, 167–175.
Valette JC, Gomendy V, Maréchal J, Houssard C, Gillon D (1994) Heat transfer in the soil during very low-intensity experimental fires: the role of duff and soil moisture content. International Journal of Wildland Fire 4, 225–237.
| Heat transfer in the soil during very low-intensity experimental fires: the role of duff and soil moisture content.Crossref | GoogleScholarGoogle Scholar |
van Wilgen BW, Higgins K, Bellstedt D (1990) The role of vegetation structure and fuel chemistry in excluding fire from forest patches in the fire-prone fynbos shrublands of South Africa. Journal of Ecology 78, 210–222.
| The role of vegetation structure and fuel chemistry in excluding fire from forest patches in the fire-prone fynbos shrublands of South Africa.Crossref | GoogleScholarGoogle Scholar |
Westerling AL, Hidalgo HG, Cayan DR, Swetnam TW (2006) Warming and earlier spring increase western US forest wildfire activity. Science 313, 940–943.
| Warming and earlier spring increase western US forest wildfire activity.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XotFCitbo%3D&md5=0c50ad3f867d0006079217644781016cCAS |
Wright BR, Clarke PJ (2008) Relationships between soil temperatures and properties of fire in feathertop spinifex (Triodia schinzii (Henard) Lazarides) sandridge desert in central Australia. The Rangeland Journal 30, 317–325.
| Relationships between soil temperatures and properties of fire in feathertop spinifex (Triodia schinzii (Henard) Lazarides) sandridge desert in central Australia.Crossref | GoogleScholarGoogle Scholar |
