Moisture dynamics and hydrophysical properties of a transplanted acrotelm on a cutover peatland
نویسندگان
چکیده
The natural carbon storage function of peatland ecosystems can be severely affected by the abandonment of peat extraction, influencing peatland drainage, leading to large and persistent sources of atmospheric CO2. Moreover, these cutover peatlands have a low and variable water table position and high tension at the surface, creating harsh ecohydrological conditions for vegetation re-establishment, particularly peat forming Sphagnum moss. Standard restoration techniques aim to restore the peatland to a carbon accumulating system through various water management techniques to improve hydrological conditions and by reintroducing Sphagnum at the surface. However, restoring the hydrology of peatlands can be expensive due to the cost of implementing the various restoration techniques. This study examines a peat extraction-restoration technique where the acrotelm is preserved and replaced directly on the cutover peat surface. An experimental peatland adopting this acrotelm transplant technique had both a high water table and peat moisture conditions providing sufficient water at the surface for Sphagnum moss. Average water table conditions were higher at the experimental site ( 8Ð4 š 4Ð2 cm) compared to an adjacent natural site ( 12Ð7 š 6Ð0 cm) suggesting adequate moisture conditions at the restored surface. However, the experimental site experienced high variability in volumetric moisture content (VMC) in the capitula zone (upper 2 cm) where large diurnal changes in VMC (3⁄430%) were observed, suggesting possible disturbance to the peat matrix structure during the extraction-restoration process. However, soil–water retention analysis and physical peat properties (porosity and bulk density) suggest that no significant differences existed between the natural and experimental sites. Any structural changes within the peat matrix were therefore minimal. Moreover, low soil-water tensions were maintained well above the laboratory measured critical Sphagnum threshold of 33% ( 100 mb) VMC, further indicating favourable conditions for Sphagnum moss survival and growth. Copyright 2007 John Wiley & Sons, Ltd.
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