Publication Date: 2014.
Aims: After abandonment of grasslands, secondary succession leads to the invasion by woody species. This process begins with the accumulation of tree litter in the forest–grassland ecotone. Our objectives were to determine the relationships between litter amounts and vegetation composition and cover along natural forest–grassland ecotones and to experimentally study the initial effects of tree litter accumulation on grassland vegetation and on microsite conditions. Methods: We established 11 transects varying from 12 to 15 m in length in different forest–grassland ecotones in the Lahn-Dill highlands, Germany, and measured the mass and cover of tree litter and the cover and composition of vegetation at five sequential positions along each transect by using 1 m2 plots with five replications. In a field experiment, we established plots subjected to different litter amounts (0, 200 and 600g m−2) and evaluated changes in grassland vegetation, soil temperature and soil nutrient availability below the litter layer. Important Findings: Tree litter amounts decrease from 650 to 65g m−2 across the forest–grassland ecotone. Vegetation changed from shrubs and annual species (adapted to more stressful conditions) in the forests edge to grasses, rosettes and hemirosette species (with higher competitive abilities) in the grassland. These anthropogenic forest–grassland ecotones showed abrupt edges, and the two adjacent ecosystems were characterized by different species pools and functional groups. In the field experiment, the presence of a litter layer reduced vegetation biomass and cover; the species richness was only reduced in the treatment with high litter (600g m−2). Additionally, adding litter on top of vegetation also reduced thermal amplitude and the number of frost days, while increasing the availability of some nutrients, such as nitrogen and aluminium, the latter being an indicator of soil acidification. Adding a tree litter layer of 600g m−2 in grassland areas had strong effects on the composition and diversity of grassland vegetation by reducing the cover of several key grassland species. In, or near, forest edges, litter accumulation rapidly changes established vegetation, microsite conditions and soil nutrients.
Author affiliation: Loydi, Alejandro. Justus-Liebig University Giessen; Alemania. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina
Author affiliation: Lohse, Kerstin. Justus-Liebig University Giessen; Alemania
Author affiliation: Otte, Annette. Justus-Liebig University Giessen; Alemania
Author affiliation: Donath, Tobias W.. Justus-Liebig University Giessen; Alemania
Author affiliation: Eckstein, R. Lutz. Justus-Liebig University Giessen; Alemania
Repository: CONICET Digital (CONICET). Consejo Nacional de Investigaciones Científicas y Técnicas