Acid Mine Drainage Treatment Assisted by Lignite-Derived Humic Substances |
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Authors: | William E. Olds Daniel C. W. Tsang Paul Weber |
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Affiliation: | 1. Ecology and Biodiversity Group, Utrecht University, P.O. Box 80.058, 3508, TB, Utrecht, The Netherlands 2. Landschap Noord-Holland, Onderzoek & Advies, P.O. Box 222, 1850, AE, Heiloo, The Netherlands
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Abstract: | Rewetting of agriculturally used peatlands has been proposed as a measure to stop soil subsidence, conserve peat and rehabilitate ecosystem functioning. Unintended consequences might involve nutrient release and changes in the greenhouse gas (GHG) balance towards CH4-dominated emission. To investigate the risks and benefits of rewetting, we subjected soil columns from drained peat- and clay-covered peatlands to different water level treatments: permanently low, permanently inundated and fluctuating (first inundated, then drained). Surface water and soil pore water chemistry, soil-extractable nutrients and greenhouse gas fluxes were measured throughout the experiment. Permanent inundation released large amounts of nutrients into pore water, especially phosphorus (up to 11.7 mg P-PO4 l?1) and ammonium (4.8 mg N-NH4 l?1). Phosphorus release was larger in peat than in clay soil, presumably due to the larger pool of iron-bound phosphorus in peat. Furthermore, substantial amounts of phosphorus and potassium were exported from the soil matrix to the surface water, risking the pollution of local species-rich (semi-)aquatic ecosystems. Rewetting of both clay and peat soil reduced CO2 emissions. CH4 emissions increased, but, in contrast to the expectations, the fluxes were relatively low. Calculations showed that rewetting reduced net cumulative GHG emissions expressed as CO2 equivalents. |
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