While sustainable forestry in Europe is characterized by the provision of a multitude of forest ecosystem services, there exists no comprehensive study that scrutinizes their sensitivity to forest management on a pan-European scale, so far. We compile scenario runs from regionally tailored forest growth models and Decision Support Systems (DSS) from 20 case studies throughout Europe and analyze whether the ecosystem service provision depends on management intensity and other co-variables, comprising regional affiliation, social environment, and tree species composition. The simulation runs provide information about the case-specifically most important ecosystem services in terms of appropriate indicators. We found a strong positive correlation between management intensity and wood production, but only weak correlation with protective and socioeconomic forest functions. Interestingly, depending on the forest region, we found that biodiversity can react in both ways, positively and negatively, to increased management intensity. Thus, it may be in tradeoff or in synergy with wood production and forest resource maintenance. The covariables species composition and social environment are of punctual interest only, while the affiliation to a certain region often makes an important difference in terms of an ecosystem service's treatment sensitivity.
For forest sustainability and vulnerability assessment, the landscape scale is considered to be more and more relevant as the stand level approaches its known limitations. This review, which describes the main forest landscape simulation tools used in the 20 European case studies of the European project "Future-oriented integrated management of European forest landscapes" (INTEGRAL), gives an update on existing decision support tools to run landscape simulation from Mediterranean to boreal ecosystems. The main growth models and software available in Europe are described, and the strengths and weaknesses of different approaches are discussed. Trades-offs between input efforts and output are illustrated. Recommendations for the selection of a forest landscape simulator are given. The paper concludes by describing the need to have tools that are able to cope with climate change and the need to build more robust indicators for assessment of forest landscape sustainability and vulnerability.
The article presents alternatives for sustainable management of forest landscapes based on the analysis of Teteven area in Bulgaria. The conclusions are a result of research of 21 main factors, which are identified and evaluated with varying weight by experts and classified in five groups: environmental, social, economic, technological and political. In order to identify the most important and key factors, a structural analysis is applied. The alternatives are summarised in four scenarios called No Management, Ecological and Close to the Nature, Traditional Management and Maximum Potential Benefit.
Abstract. The paper presents the results obtained by means of survey of stakeholders in Teteven Municipality, Bulgaria, from the viewpoint of use of forests and forest recourses. The main ecosystem services divided into wood products (timber production, fuel wood and biomass), supporting services (biodiversity maintenance, water quality, tourism, hunting and recreation), and non-wood forest products relevant for the object of the present research are analysed. The conflicts of interests are identified considering stakeholders united into groups of "environmentalists", "entrepreneurs", "stewards" and "citizens".
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