Activated carbon amendments to soil alters nitrification rates in Scots pine forests |
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Authors: | L.M. Berglund T.H. DeLuca O. Zackrisson |
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Affiliation: | a Department of Forest Vegetation Ecology, Swedish University of Agricultural Sciences, 901 83 Umeå, Sweden b Department of Ecosystem and Conservation Sciences, The University of Montana, Missoula, MT 59812, USA |
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Abstract: | The influence of charcoal on biotic processes in soils remains poorly understood. Charcoal is a natural product of wildfires that burned on a historic return interval of ∼100 years in Scots pine (Pinus sylvestris L.) forests of northern Sweden. Fire suppression and changes in forest stand management have resulted in a lack of charcoal production in these ecosystems. It is thought that charcoal may alter N mineralization and nitrification rates, however, previous studies have not been conclusive. Replicated field studies were conducted at three late-succession field sites in northern Sweden and supporting laboratory incubations were conducted using soil humus collected from these sites. We used activated carbon (AC), as a surrogate for natural-occurring fire-produced charcoal. Two rates of AC (0 and 2000 kg ha−1), and glycine (0 and 100 kg N as glycine ha−1) were applied in factorial combination to field microplots in a randomized complete block pattern. Net nitrification, N mineralization, and free phenol concentrations were measured using ionic and non-ionic resin capsules, respectively. These same treatments and also two rates of birch leaf litter (0 and 1000 kg ha−1) were applied in a laboratory incubation and soils from this incubation were extracted with KCl and analyzed for NH4+ and NO3−. Nitrification rates increased with AC amendments in laboratory incubations, but this was not supported by field studies. Ammonification rates, as measured by NH4+ accumulation on ionic resins, were increased considerably by glycine applications, but some NH4+ was apparently lost to surface sorption to the AC. Phenolic accumulation on non-ionic resin capsules was significantly reduced by AC amendments. We conclude that charcoal exhibits important characteristics that affect regulating steps in the transformation and cycling of N. |
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Keywords: | Activated carbon Charcoal Boreal forest Birch litter Fire Nitrogen transformations Nitrification Phenolic compounds |
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