Effect of spatial scale and harvest on heterogeneity of forest floor CO2 efflux in a sessile oak forest
2020
Darenova, Eva | Čater, Matjaž
Soil respiration is the second largest flux of carbon between terrestrial ecosystems and the atmosphere and it is substantially sensitive to climate change. Monitoring CO₂ efflux and its upscaling from field measurements to the ecosystem level is a complex task, due to the high spatial and temporal variability of the fluxes. Human intervention, e.g. through forest harvest, may change both CO₂ efflux and its spatial heterogeneity. The objective of our study was to quantify spatial heterogeneity of soil CO₂ efflux within and among plots distributed within a topographically variable sessile oak forest stand before and after harvesting. Forest floor CO₂ efflux, soil temperature and soil water content were measured monthly in a sessile oak forest during two growing seasons: one before and one after harvesting. Stand structure characteristics (gap fraction, leaf area index, tree number and size) and the amount of understory also were determined. Relationships between individual variables and spatial heterogeneity were analyzed. The small-scale spatial heterogeneity (expresses as the coefficient of variation) of forest floor CO₂ efflux and soil water content (SWC) in the undisturbed forest was low, at maximum 0.22 and 0.13, respectively. Studied variables had no effect on spatial heterogeneity of forest floor CO₂ efflux except for the amount of understorey vegetation which positively correlated with forest floor CO₂ efflux. Although the studied forest was situated in topographically variable terrain, we observed that inter-plot heterogeneity of forest floor CO₂ efflux was lower than that within plots. Stand harvest increased the intra-plot heterogeneity of forest floor CO₂ efflux but did not affect the inter-plot heterogeneity. This leads to the conclusion that the number of positions within an individual plot should increase after harvest but the number of plots may remain unchanged to determine adequately ecosystem forest floor CO₂ efflux.
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