Reference : Structure spatiale et impact écologique des processus d'anthropisation des paysages terr...
Scientific conferences in universities or research centers : Scientific conference in universities or research centers
Life sciences : Environmental sciences & ecology
http://hdl.handle.net/2268/121632
Structure spatiale et impact écologique des processus d'anthropisation des paysages terrestres: développement d'une instrumentation générique d'analyse
English
[en] Spatial pattern and ecological impact of anthropogenic effects on terrestrial landscapes: development of a generic set of analysis
Vranken, Isabelle mailto [Université de Liège - ULg > Forêts, Nature et Paysage > Biodiversité et Paysage >]
6-Sep-2011
National
Groupe de Travail général de l'unité Biodiversité et Paysage
6 septembre 2011
unité Biodiversité et Paysage
Gembloux
Belgique
[en] The current project aims to develop a generic set of analysis methods to quantify anthropogenic degradation of tropical ecosystems. This will assist in landscape planning for ecosystem restoration and sustainable management of human impacts. Indeed, the analysis methods will enable to detect landscape degradation and its anthropogenic drivers based on their spatial properties, less complex or expensive to obtain than in-situ data. The project consists of two parts:
- methodological research and development, based on principles landscape ecology and combined with other disciplines like remote sensing, geographic information systems, sociology and agronomy (in progress),
- application of the developed pattern metrics on new study cases for evaluation and validation.
Using study cases in tropical areas, the development of a typology enables to identify, classify and analyze degradation origin, its spatial properties and the ecosystems involved. The following pressures: woodcut for charcoal production, agricultural extension, mining activity and climate change have already been tested for the following natural ecosystems: rainforest, woodland, savannah.
Afterwards, different metrics will be evaluated statistically with regard to their potential to capture anthropogenic effects. The Simpson diversity index, Largest Patch Index, fractal dimension and O'Neill disturbance index have already been tested and sometimes adapted. Critical thresholds will be defined in order to detect critical degradation levels of the terrestrial ecosystems.
The best metrics will be calculated for new case(s) of anthropogenic impacts on landscapes (Cambodia?) in order to validate the correlation between metric outcomes and in situ observations.
Fonds de la Recherche Scientifique (Communauté française de Belgique) - F.R.S.-FNRS
Researchers
http://hdl.handle.net/2268/121632

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