Abstract
In biodiversity management, spatio-temporal heterogeneity is important to consider conserving high levels of habitat diversity and ecosystems. In this study, we investigated the relationship between landscape spatio-temporal heterogeneity and biodiversity in a mosaic-landscape, located in the Fontainebleau forest (France). The diversity of successional stages along a gradient from heathland to forest as well as the persistence of Calluna vulgaris (L.) Hull in different forest stands was examined in order to find how the numerous patches of European Heathland habitat embedded in this area should be maintained. The results indicated that in the areas of high spatio-temporal heterogeneity, a general increase is observed in species richness, in particular for vascular plants, bryophytes and carabids. C. vulgaris persisted in coniferous stands and young mixed stand but decreased under deciduous trees and old mixed stands. The Ellenberg’s values for light, nutrients and acidity, show the persistence of favorable enviromental conditions for heathland vegetation under coniferous stands and young mixed stands. These results enable us to offer recommendations to better manage mosaic-landscape biodiversity, and in particular, the heathland semi-natural habitats in the Fontainebleau forest and elsewhere in Europe.
Highlights
Mosaic-landscape structures consist of an alternation of habitat patches such as open habitats and closed vegetation areas
We investigated the relationship between landscape spatio-temporal heterogeneity and biodiversity in a mosaic-landscape, located in the Fontainebleau forest (France)
Seventeen bryophyte species were observed and a total of 636 individuals belonging to seven different carabid species were collected
Summary
Mosaic-landscape structures consist of an alternation of habitat patches such as open habitats and closed vegetation areas. Such landscapes host and maintain high levels of biodiversity [1]. Each habitat type has to cover a sufficient surface to efficiently allow coexistence of numerous species. Such landscapes are subjected to natural successional dynamics. These mosaics tend to disappear in favor of a more uniform closed habitat. Many species associated with the open part of those heterogeneous habitats are threatened to extinction, as the result of habitat homogenization
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