MONITORING FIRE - AFFECTED WILDLANDS IN THE MEDITERRANEAN REGION BY APPLYING A
REMOTE SENSING AND GIS APPROACH
Heinz Gallaun and Cliff Banninger
Institute for Digital Image Processing, JOANNEUM RESEARCH
Wastiangasse 6, A-8010 Graz, AUSTRIA
Tel.: +43-316-876-757; Fax: +43-316-876-720
Email: gallaun@pdib40.joanneum.ac.at
KEY WORDS: GIS, Remote Sensing, Change Detection, Multitemporal, Landsat, Resource Management,
Forest Fires, Desertification
1. ABSTRACT:
Wildfires are one of the major factors that initiate land degradation processes in a semi-arid environment. Landsat
Thematic Mapper imagery acquired in the dry period are used to derive vegetation cover maps. From these vegetation
cover maps for different acquisition dates, vegetation cover change maps are produced, which allow the assessment of
vegetation regeneration processes.
The prediction of the risk of desertification is based on estimates of the potential for natural regeneration and risk of soil
erosion. By combining remote sensing, geology, and topographic information within a GIS a relative ranking of the
desertification risk is achieved.
The results show the usefulness of the approach for resource management at the regional and national level and for
many needs at the local level.
1. INTRODUCTION
Desertification is a process with a significant detrimental
socio-economic impact on the environment, affecting the
planet as a whole, but giving also an immediate cause for
concern in the Mediterranean region. There are many
factors that contribute to or aid in desertification, ranging
from physical, through biological, to social processes. As
one such factor forest wild fires may initiate a
desertification process, depending on the extent and
severity of damage in the burnt areas, climatic
conditions, geology, and the state of the soil.
Land permanently degraded to desert-like conditions,
according to UNEP documents, continues to grow at an
annual rate of 6,000,000 hectares. In Greece and Spain
alone 420,000 ha of forests were destroyed by wild fires
in the year 1991.
This paper describes parts of the work performed by the
Institute for Digital Image Processing (DIB) at Joanneum
Research within the EEC project entitled A G/S Decision
Support System for the Prevention of Desertification
Resulting from Forest Fires within the Environment
Research Programme of the EEC, Climatology and
Natural Hazards. The project was undertaken in
collaboration with the Department of Electronic and
Electrical Engineering at the University of Surrey (UoS),
the Laboratory of Remote Sensing at the National
Technical University of Athens (NTUA), and the Institute
of Mediterranean Forest Ecosystems at the National
Agricultural Research Foundation (NARF).
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The project objectives were to design and develop a GIS
decision support system for monitoring and predicting the
recovery of burnt forest areas after a fire and provide
information on their potential for natural regeneration, risk
of soil erosion, and risk of desertification. The definition of
the system's requirements was provided by NARF, in
consultation with the other consortium partners, based
upon the needs of resource managers in the
Mediterranean region.
2. STUDY AREA / GROUND TRUTH
Four previously burnt areas in Greece, situated in the
hilly to mountainous Pateras, Lavrio, Pendeli, and
Varnavas regions of Attica surrounding Athens, were
selected as test areas. Extensive forest fires have
occurred in these areas, some areas burnt twice within a
decade (comp. Fig. 1). The main vegetation types within
the study areas are closed stands of Aleppo Pine (Pinus
Halepensis), phrygana, and phrygana/maquis.
Within the four test areas, 39 reference sites ranging
between 1 ha and 4 ha and representative of different
stages of regeneration after a forest fire, were selected
by NARF for detailed measurement of plant, soil,
geology, and physiographical features, for use in
establishing relationships between remote sensing data
and ground features.
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B7. Vienna 1996
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