Affiliation:
1. Central Analytical Laboratory Brandenburg University of Technology Cottbus–Senftenberg Cottbus Germany
2. Chair of Soil Protection and Recultivation Brandenburg University of Technology Cottbus–Senftenberg Cottbus Germany
3. CEBra—Centre for Energy Technology Brandenburg e.V. Cottbus Germany
Abstract
AbstractIt is commonly accepted that CO2 efflux increases with soil water content in aerated soils and that rewetting after periods of soil drying can result in respiration pulses. It has further been shown that soil pores may become water logged which can impede soil gas exchange. The present study aimed to quantify the carbon response of moss (Polytrichum piliferum) and lichen (Cladonia coniocraea) biocoenoses to different quantities of rain in an artificial catchment, which granted that the starting point of the development of both biocoenoses was the same. To address this aim, we conducted in situ soil moisture and soil respiration measurements, where soil respiration was hypothesised to emerge from a cryptogamic vegetation layer and from mineral soil beneath. We found that higher water‐holding capacity of the moss layer and higher accumulation of organic matter in the upper mineral soil under mosses result in higher amounts of water stored near the surface. As a consequence, evaporation of water as well as pulses of CO2 efflux after moderate rain following a period of drought were higher in the moss biocoenosis, where the upper mineral soil was of key importance. In contrast, the lichen biocoenosis facilitated penetration of rainwater into the deep soil. Superimposing rewetting pulses, near‐saturation of soil pores with water after severe rain resulted in gas exchange inhibition and diminished soil respiration until subsequent aeration in both biocoenoses.
Funder
European Regional Development Fund
Deutscher Akademischer Austauschdienst
Subject
Earth-Surface Processes,Ecology,Aquatic Science,Ecology, Evolution, Behavior and Systematics
Cited by
1 articles.
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