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The optimization of forest management strategies on slopes affected by landslides and rock falling – a methodology for forest-planting practices
Bajer, A. ; Balková, M. ; Buček, A. ; Divíšek, Jan ; Friedl, M. ; Halas, Petr ; Kirchner, Karel ; Kuda, František ; Lacina, Jan ; Martiník, A. ; Roštínský, Pavel ; Simon, J. ; Vavříček, D.
Landslides, as well as rock falling, are among natural disturbances, the origin of which the forest management has only a secondary influence. On the other hand, adequate management can reduce the risk of landslides (rock falling). In some specific cases, it can be expected that this management can also prevent origin of landslides. The basic recommendation in the area of forest cultivation in areas affected by landslides is the creation of forest stands of species, age and thickness (height) differentiated, with a small-scale texture. In some cases it is also possible to recommend the shape of the associated forest. Consistent management of the forest transport network must be an integral part of measures in risk areas.
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Comprehensive search of problem of forest management in the areas affected by landslides and rock falling
Bajer, B. ; Buček, A. ; Divíšek, Jan ; Friedl, M. ; Halas, Petr ; Kirchner, Karel ; Kuda, František ; Lacina, Jan ; Roštínský, Pavel ; Simon, J. ; Vavříček, D.
The present report represents the 1st outcome of research project “The optimization of forest management strategies on slopes endangered by landslides and rock falling – a methodology for forest-planting practices”. Submitted report is search of published and unpublished data relating to geomorphological, geological and landscape aspects of origin as well as distribution of the landslides and rock falling to the forest management.
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Does a physical geographer need millions? Experience with terrestrial laser scanning in geographical survey
Kuda, František ; Divíšek, Jan
In this paper, we present our experience with terrestrial laser scanning (TSL) in geographical filed-survey. This technique provides extremely accurate 3D model of given object or locality, which consists of millions points (so-called point cloud); each of them is determined by X, Y and Z coordinates. However, usability of this large amount of points fundamentally depends on researcher's requirements (i.e. on the type of required output) as well as on the conditions in the field. For example, if one needs to create accurate digital terrain model of small area with dense vegetation, only few points may be usable for final interpolation of digital terrain model. As dense vegetation has to be filtered out, data pre-processing becomes technically more demanding and more time-consuming and accuracy of final model necessarily decreases. For these reasons, we emphasize that, in geographical survey, TSL is the most effective for modelling of small geomorphological objects and landforms which are not covered by vegetation and also for making profiles and cuts. This should be taken into consideration when the filed-survey is prepared.
Fulltext: content.csg - PDF Plný tet: UGN_0426446 - PDF
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