Ecological responses of semi-natural grasslands to abandonment: case studies in three mountain regions in the Eastern Alps

Autor:	Johann G. Zaller, Arne Arnberger, Johannes Karrer, David Brandl, Ronnie Walcher, Kerstin Michel, Andreas Bohner, Thomas Frank
Rok vydání:	2019
Předmět:	0106 biological sciences Topsoil geography geography.geographical_feature_category biology ved/biology Ecology ved/biology.organism_classification_rank.species Paleontology 04 agricultural and veterinary sciences Plant Science Vegetation Soil carbon biology.organism_classification 010603 evolutionary biology 01 natural sciences Shrub Grassland Plant ecology Brachypodium pinnatum 040103 agronomy & agriculture 0401 agriculture forestry and fisheries Environmental science Species richness
Zdroj:	Folia Geobotanica. 54:211-225
ISSN:	1874-9348 1211-9520
DOI:	10.1007/s12224-019-09355-2
Popis:	Semi-natural, extensively managed, grasslands are among the most species-rich agroecosystems in Europe. However, they are threatened by abandonment. We investigated the response of semi-natural grasslands to cessation of mowing at ten sites in three UNESCO Biosphere Reserves in Switzerland and Austria. We assessed vegetation characteristics, topsoil properties and microbially mediated soil processes by comparing once-a-year mowed with adjacent long-term abandoned grasslands on semi-dry, nutrient-poor, base-rich soils. Plant litter decomposition was determined using standardized substrates (Tea Bag Index). Soil microbial community composition was assessed by phospholipid fatty acid analysis. Abandonment altered floristic composition by replacing shade-intolerant or low-growing grassland species, in particular character species of the alliance Bromion erecti, with medium- to tall-sized grasses (e.g. Brachypodium pinnatum) and tall herbs (e.g. Laserpitium latifolium). Time since abandonment had an influence on the magnitude of successional changes after abandonment. Cessation of mowing increased above-ground phytomass but decreased plant species richness and evenness. Abandonment increased soil microbial biomass, promoted litter decomposition and led to an increased soil organic carbon, C:N ratio, and inorganic N supply. Our findings also showed that abandoned grasslands dominated by grasses remained shrub- and treeless for several decades.
Databáze:	OpenAIRE
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