Search results for "Tree stand"

showing 2 items of 2 documents

The effects of drainage and restoration of pine mires on habitat structure, vegetation and ants

2016

Habitat loss and degradation are the main threats to biodiversity worldwide. For example, nearly 80% of peatlands in southern Finland have been drained. There is thus a need to safeguard the remaining pristine mires and to restore degraded ones. Ants play a pivotal role in many ecosystems and like many keystone plant species, shape ecosystem conditions for other biota. The effects of mire restoration and subsequent vegetation succession on ants, however, are poorly understood. We inventoried tree stands, vegetation, water-table level, and ants (with pitfall traps) in nine mires in southern Finland to explore differences in habitats, vegetation and ant assemblages among pristine, drained (30…

0106 biological sciencesAichi Biodiversity Target 15PeatFORMICA-AQUILONIAta1172ecological restorationpine bogs and fens010603 evolutionary biology01 natural sciencesMiretransforming and transformed drained miresBOREAL FORESTSlcsh:ForestryditchingBogRestoration ecologyFormicidae4112 Forestrygeography.geographical_feature_categoryAgroforestryEcologyEcological ModelingASSEMBLY RULESEXTINCTION DEBTForestryVegetation15. Life on land010602 entomologywater-table levelGeographyHabitat destructionTree standBOGSWATER-LEVELlcsh:SD1-669.5ta1181COMMUNITIESSOUTHERN FINLANDWOOD ANTSExtinction debt
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Modeling of Dead Wood Potential Based on Tree Stand Data

2020

Here we present a framework for identifying areas with high dead wood potential (DWP) for conservation planning needs. The amount and quality of dead wood and dying trees are some of the most important factors for biodiversity in forests. As they are easy to recognize on site, it is widely used as a surrogate marker for ecological quality of forests. However, wall-to-wall information on dead wood is rarely available on a large scale as field data collection is expensive and local dead wood conditions change rapidly. Our method is based on the forest growth models in the Motti forest simulator, taking into account 168 combinations of tree species, site types, and vegetation zones as well as …

0106 biological sciencesDECOMPOSITION010504 meteorology & atmospheric sciencesforest simulationForest managementBiodiversityDEBRISECOLOGY010603 evolutionary biology01 natural sciencessuojelusuunnitelmatspatial conservation prioritizationsimulointilahopuutconservation planningMETAANALYSISbiodiversity0105 earth and related environmental sciencesforests4112 ForestrySPECIES RICHNESSmetsänkäsittelyTaigacoarse woody debrisforestryNORWAY SPRUCELand-use planningForestryVegetationlcsh:QK900-98915. Life on landbiodiversiteettimetsiensuojeluTree standlcsh:Plant ecologyEnvironmental scienceGROWTHBIODIVERSITYCoarse woody debrisScale (map)land-use planning
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