Register      Login
International Journal of Wildland Fire International Journal of Wildland Fire Society
Journal of the International Association of Wildland Fire
RESEARCH ARTICLE

Fire regime and post-fire Normalized Difference Vegetation Index changes in the eastern Iberian peninsula (Mediterranean basin)

Dania Abdel Malak A and Juli G. Pausas A B C
+ Author Affiliations
- Author Affiliations

A CEAM-Fundación Centro de Estudios Ambientales del Mediterráneo, Charles R. Darwin 14, Parc Tecnològic, 46980 Paterna, Valencia, Spain.

B Department of Ecology, University of Alicante, Alicante, Spain.

C Corresponding author. Email: juli@ceam.es

International Journal of Wildland Fire 15(3) 407-413 https://doi.org/10.1071/WF05052
Submitted: 26 April 2005  Accepted: 11 March 2006   Published: 5 September 2006

Abstract

Fire occurrence in Mediterranean landscapes has been studied widely. Despite this, a specific monitoring of vegetation recovery after recurrent fires by means of satellite images has been developed to a lesser extent. With the use of Satellite Remote Sensing (SRS) techniques and multi-temporal Landsat images of the area of Ayora (287 700 ha) in Valencia (Eastern Spain), between the years 1984 and 1999, we studied the post-fire regeneration of the Normalized Difference Vegetation Index (NDVI) in areas subjected to different fire recurrences. Emphasis is given to the effect of time since fire, precipitation, and bedrock types on post-fire NDVI changes. Results suggest that for the first 7 years after a single fire, NDVI depends mainly on the time since fire (post-fire regeneration), whereas environmental parameters (precipitation and bedrock type) are of little relevance. After this period, precipitation begins to have a direct influence on the NDVI. In patches burned twice, with fire intervals of 8 and 9 years, NDVI is also controlled by the time since fire. Furthermore, NDVI recovery is faster after the first fire than after the second fire, suggesting that fire recurrence has a negative impact on the resilience of these communities. Bedrock type did not show any effect on NDVI after fire. These findings contribute to the understanding of Mediterranean landscape dynamics and provide evidence for the usefulness of NDVI in post-fire regeneration assessment, and the possible negative effects of the increasing fire recurrences observed in the last decades.

Additional keywords: bedrock type; fire recurrences; forest fire; post-fire regeneration; precipitation; remote sensing.


References


Abdel Malak D (2003) A study of the forest fires in the province of Valencia (1978–2001) in relation to the environment using GIS. Masters Thesis, Mediterranean Agronomic Institute of Zaragoza, Zaragoza.

Agee JK (Ed.) (1993) ‘Fire ecology in Pacific northwest forests.’ (Island Press: Washington)

Baeza MJ, Raventos J, Escarre A (1998) Structural changes in relation to age in a fire-prone Mediterranean scrubland. In ‘Proceedings of the 3rd international conference on forest fire research–14th conference on fire and forest meteorology, Luso, 16–20 November 1998’. pp. 2567–2578.

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 | PubMed | Chuvieco E (Ed.) (1999) ‘Remote sensing of large wildfires in the European Mediterranean basin.’ (Springer: Berlin)

Chuvieco E, Balabis P, Eftichidis G, Fantechi R (1997) Remote sensing applications in forest fires. In ‘Forest fire risk and management’. (Eds P Balabanis, G Eftichidis, R Fantechi) pp. 193–207. (European Communities: Luxembourg)

Chuvieco E, Ventura G, Pilar Martín M , Gómez I (2005) Assessment of multitemporal compositing techniques of MODIS and AVHRR images for burned land mapping. Remote Sensing of Environment  94, 450–462.
Crossref | GoogleScholarGoogle Scholar | Costa M (1999) ‘La vegetación y el paisaje en las tierras Valencianas.’ (Editorial Rueda: Madrid)

Davenport ML , Nicholson SE (1989) On the relation between rainfall and Normalized Difference Vegetation Index for diverse vegetation types in East Africa. International Journal of Remote Sensing  12, 2369–2389.
Johnson EA (1992) ‘Fire and vegetation dynamics: studies from the North American boreal forest.’ (Cambridge University Press: Cambridge, UK)

Justice CO, Lorontzi S (2001) A review of satellite fire monitoring and the requirements for global environmental change research. In ‘Global and regional vegetation fire monitoring: planning a coordinated international effort’. (Eds F Ahern, G Goldammer, C Justice) pp. 1–18. (SPB Academic Publishing: The Hague)

Justice CO, Malingreau JP, Setzer AW (1993) Satellite remote sensing of fires: potential and limitations. In ‘Fire in the environment: the ecological, atmospheric, and climatic importance of vegetation fires’. (Eds PJ Crutzen, JG Goldammer) pp. 77–87. (John Wiley & Sons: Chichester)

Kasischke ES, French NF, Bourgeau-Chavez LL , Christensen NL (1995) Estimating release of carbon from 1990 and 1991 forest fires in Alaska. Journal of Geophysical Research  100, 2941–2951.
Crossref | GoogleScholarGoogle Scholar | Keeley J (2000) Chaparral. In ‘North American terrestrial vegetation’. (Eds M Barbour, W Billings) pp. 204–253. (Cambridge University Press: New York)

Keeley J, Fotheringham C , Morais M (1999) Reexamining fire suppression impacts on brushland fire regimes. Science  284, 1829–1832.
Crossref | GoogleScholarGoogle Scholar | PubMed | Mitri G, Gitas I (2002) The development of an object-oriented classification model for operational burned area mapping on the Mediterranean island of Thaos using LANDSAT TM images. In ‘Forest fire research and wildland fire safety’. (Ed. XD Viegas) (Millpress: Rotterdam)

Pardo JE, Porres MJ, Fernández-Sarría A, Ruiz LA (2001) Influencia de la topografía en la regeneración vegetal de áreas quemadas. In ‘Teledetección: medio ambiente y cambio global’. (Eds JA Martínez-Casasnovas, JI Rosell) pp. 155–159. (Milenio: Lleida)

Pausas JG (1999) The response of plant functional types to changes in the fire regime in Mediterranean ecosystems. A simulation approach. Journal of Vegetation Science  10, 717–722.
Crossref | GoogleScholarGoogle Scholar | Pereira JMC, Sousa AMO, Sá ACL (1999) Regional-scale burnt area mapping in Southern Europe using NOAA-AVHHR 1 km data. In ‘Remote sensing of large wildfires’. (Ed. EP Chuvieco) pp. 139–155. (Springer: Berlin)

Prosper-Laget V, Douguedroit A , Guinot J (1998) A satellite index of risk of forest fire occurrence in summer in the Mediterranean area. International Journal of Wildland Fire  8, 173–182.
Crossref | GoogleScholarGoogle Scholar | Trabaud L (1992) ‘Les feux de foret. Mécanismes, comportement et environnement.’ (France Sélection: Aubervilliers)

Trabaud L , Lepart J (1980) Diversity and stability in garrigue ecosystems after fire. Vegetation  43, 49–57.
Crossref | GoogleScholarGoogle Scholar | Vallejo R, Alloza JA (1998) The restoration of burned lands: the case of Eastern Spain. In ‘Large forest fires’. (Ed. JMP Moreno) pp. 91–108. (Backhuys: Leiden)

Viedma O , Meliá J (1999) Monitoring temporal changes in the spatial patterns of a Mediterranean shrubland using Landsat TM images. Global Change and Plant Diversity  5, 275–293.


Viedma O, Meliá J, Segarra D , García-Haro J (1997) Modelling rates of ecosystem recovery after fires using Landsat TM data. Remote Sensing of Environment  61, 383–398.
Crossref | GoogleScholarGoogle Scholar |

Vilà M, Lloret F, Ogheri E , Terradas J (2001) Positive fire-grass feedback in Mediterranean basin woodland. Forest Ecology and Management  147, 3–14.
Crossref | GoogleScholarGoogle Scholar |

Wang J, Rich PM , Price KP (2003) Temporal responses of NDVI to precipitation and temperature in the central Great Plains, USA. International Journal of Remote Sensing  24, 4817–4834.
Crossref | GoogleScholarGoogle Scholar |

White D, Minotti P, Barczak M, Sifneos J, Freemark K, Santelmann M, Steinitz C, Ross Kiester A , Preston C (1997) Assessing risks to biodiversity from future landscape change. Conservation Biology  11, 349–360.
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, 809–818.
Crossref | GoogleScholarGoogle Scholar |