Nellessen, T. (2020): <b>Does sodium stimulate the decomposition of the organic layer in two tropical rain forests in Ecuador?</b> Karlsruher Institut für Technologie, Institut für Geographie und Geoökologie, <i>bachelor thesis</i>
Resource Description
Title:
Stimuliert Natrium den Abbau der organischen Auflage in zwei tropischen Regenwäldern in Ecuador?
FOR816dw ID:
1853
Publication Date:
2020-08-14
License and Usage Rights:
Resource Owner(s):
Individual:
Tim Nellessen
Contact:
email:
t.nellessen <at> gmx.de
Karlsruher Institut für Technologie
Institut für Geographie und Geoökologie
Reinhard-Baumeister-Platz 1
76131 Karlsruhe
Baden-Württemberg
Germany
Abstract:
In nutrient-poor tropical forests litter decomposition is essential for the supply of nutrients to plants. This process is in turn controlled by nutrient availability. Beside nitrogen (N) and phosphorus (P) other elements may co-limitate litter decomposition. Studies revealed a relationship between sodium (Na) shortage and reduced litter decomposition which can decrease the mineralization of stored carbon (C).<br/>
Investigations of element fluxes of a Na-poor tropical montane rainforest in southern Ecuador have shown low atmospheric deposition rates since 1998. Additionally, Na was retained in different parts of the ecosystem. A study found that the Na-retention in the canopy was related to the Na demand of the microorganisms in the phyllosphere.<br/>
Because the Na budget of the organic layer was also positive, it was assumed that decomposers may experience a lack of Na due to low atmospheric deposition. Thus, one main goal was to investigate whether Na fertilization accelerates litter decomposition. Based on the assumption of a higher Na demand of soil fauna than of microorganisms, it was also tested whether the stimulation of soil organisms by Na is limited to the soil fauna.<br/>
To test these hypotheses, a combined litter decomposition and Na fertilization experiment was conducted in an evergreen premontane rainforest and a montane rainforest in south Ecuador. Fresh litter was incubated in the field and fertilized weekly with different Na concentrations which were similar to the natural deposition rates. Litterbags with different mesh sizes allowed to study the effects of Na fertilization on microbes and mesofauna separately. Additionally, a bait lamina experiment was installed in the organic layer to study the uptake of Na fertilized baits by soil organisms. Differences of the bait loss between the fertilized and the control group should indicate a potential stimulation of the soil organisms by a Na-addition.<br/>
The statistical analysis confirmed the stimulation of litter decomposition by Na additions. The comparison of both sites revealed a slightly stronger effect of Na additions in the premontane forest than in the montane forest. The accelerated litter decomposition was related to an increased activity of the soil fauna. However, a significant stimulation of microorganisms by Na additions could not be detected. The bait lamina experiment confirmed the results of the litter decomposition experiment and showed a marginally significant increase of the activity of soil organisms by Na fertilization.<br/>
Sodium can stimulate the decomposition of the organic layer in the studied premontane and montane rainforest, thus affecting ecosystem functioning. Na supply is of higher importance in the ecosystem than usually assumed and its relevance for the C turnover in the organic layer may increase if the atmospheric Na deposition remains on the present low level.
Karlsruher Institut für Technologie, Institut für Geographie und Geoökologie
Total Pages:
50
Metadata Provider:
Individual:
Andre Velescu
Contact:
email:
andre.velescu <at> kit.edu
Karlsruher Institut für Technologie
Institut für Geographie und Geoökologie
Arbeitsgruppe Geomorphologie und Bodenkunde
Reinhard-Baumeister-Platz 1
76131 Karlsruhe
Germany
