| Abstrakt: |
Fires play an important role in structure and function of terrestrial ecosystems, but their long-term impact on the composition and structure of plant communities in humid high mountain regions remains poorly studied. At the driest alpine grasslands, dominated by a dense-tussock grass Festuca varia, with substantial accumulation of non-decomposed litter, a 23-year experiment with regular (every two years) litter burning was conducted. The composition of the plant community changed significantly. The mortmass (mass of litter), aboveground vascular plant biomass, and relative abundance of dominants decreased substantially. In aboveground biomass, the proportion of grasses decreased and that of forbs increased. The shoot numbers of Anthemis cretica, Campanula collina, Deschampsia flexuosa, Festuca ovina, Nardus stricta, and Veronica gentianoides increased after burning. A twofold increase in alpha diversity of vascular plants was observed on plots with burning treatment; it was twice as high as the initial value and was significantly higher than the values in the control plots. Long-term burning did not substantially change mean the P, Ca, and Mg content in the biomass of the most of studied species; only the K content decreased in some species, while the Mg content increased in Festuca varia and Nardus stricta. The increase in P and Mg content in the mortmass was observed. During long-term burning, weak soil acidification and a decrease in the Ca content, as well as a strong decrease in the nitrogen content and the intensity of nitrogen transformation processes, were observed. Generally, the observed patterns were similar to those in other studied herb communities; however, the decrease in K content during the regular burning was not reported earlier. [ABSTRACT FROM AUTHOR] |
Full text from SpringerLink