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@proceedings{991728,
author = {Jiroušek, Martin and Tůma, Ivan and Záhora, Jaroslav and Hájek, Michal and Holub, Petr and Kintrová, Kateřina},
booktitle = {5th International Meeting on the Biology of Sphagnum, Excursion guide and conference abstracts},
keywords = {decomposition bags, ecosystem functioning, ion-exchange resins, Sphagnum magellanicum},
title = {Differences in decomposition among Sphagnum species in high N polluted summit bogs in the Czech Republic},
year = {2012}
}
TY - CONF
ID - 991728
AU - Jiroušek, Martin - Tůma, Ivan - Záhora, Jaroslav - Hájek, Michal - Holub, Petr - Kintrová, Kateřina
PY - 2012
TI - Differences in decomposition among Sphagnum species in high N polluted summit bogs in the Czech Republic
KW - decomposition bags, ecosystem functioning, ion-exchange resins, Sphagnum magellanicum
N2 - Bogs sink carbon as dead plant remnants in peat because of their specific conditions cause in extremely low decomposition rates. The global increase of atmospheric nitrogen (N) deposition leads to changes in activity of decompositors, which is particularly visible in extremely nutrient poor ecosystems, commonly rely on atmospheric inputs as their sole sources of external nutrients. We had established transplant decomposition experiment in two high N polluted regions of central Europe, the Jizerské hory Mountains and the Jeseníky Mountains, differing in climate, nutrient conditions, and N deposition load. After one year of incubation, we observed differences in decay and changes in concentrations of nutrients for the three dominant Sphagnum species - S. fallax, S. magellanicum and S. russowii. The reciprocal litter transplants showed that differences in decay between species overruled the effects of origin and microhabitat of incubation. S. magellanicum decomposed slowest. A comparison of nutrient concentrations, nutrient losses, and decreases in biomass shows that potassium was the single from measured nutrients correlated with the total loss of litter as well as the most releasing nutrient during incubation. Using ion-exchange probes we found, that S. magellanicum is not able to take advantage of free ions of N, which is likely to lead to its competitive exclusion by S. fallax and S. russowii under conditions of high N load. Change in Sphagnum species composition in favor of those with more degradable tissues can lead to support decomposition of peat and the related inhibition growth of bogs in high N polluted areas.
ER -
JIROUŠEK, Martin, Ivan TŮMA, Jaroslav ZÁHORA, Michal HÁJEK, Petr HOLUB a Kateřina KINTROVÁ. Differences in decomposition among Sphagnum species in high N polluted summit bogs in the Czech Republic. In \textit{5th International Meeting on the Biology of Sphagnum, Excursion guide and conference abstracts}. 2012.
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