Abstract
AbstractResidues from forest harvesting operations may be utilized as a renewable energy source. However, the sustainability of this practice has been questioned due to the losses of nutrients and exchangeable base cations, which may impair the forest's carbon sequestration capacity and lead to soil acidification. We report the 18 year response of biomass growth, soil carbon stock and soil chemistry to whole‐tree harvest at thinning and associated compensatory measures in a Pinus sylvestris forest in northern Sweden. The whole‐tree harvest at thinning was combined with nutrient additions to compensate for the nutrient loss caused by extracting the residues. Four main treatments, stem‐only thinning, whole‐tree thinning, whole‐tree thinning with one‐time nitrogen fertilization and whole‐tree thinning with repeated nitrogen fertilization every third year were applied, with plots split for wood‐ash treatment. Eighteen years after the treatments, whole‐tree thinning that had removed 3.0 ± 0.2 Mg C/ha in residues had no effect on forest growth, soil carbon and nitrogen stocks or soil chemistry. Both nitrogen fertilization regimes increased biomass growth, but neither one resulted in a significant increase in soil carbon stock. Wood‐ash addition increased soil pH and exchangeable base cations, but did not affect carbon stock in biomass or soil. Our long‐term data suggest that utilizing harvesting residues for biofuel feedstocks is appropriate in this type of forest. Hence, any nitrogen and wood‐ash additions appear unnecessary as compensatory measures for the removal of harvesting residues, but nitrogen can be applied to increase forest growth following thinning.
Highlights
Bioenergy can play a key role in achieving the EU's renewable energy targets for 2030 and beyond (European Union, 2019)
To our knowledge, no field study has examined the effects of nitrogen fertilization and wood-ash addition in a factorial way following whole-tree harvesting at thinning, and only a few field-based studies have combined whole-tree harvesting with nutrient compensation treatments (e.g. Helmisaari et al, 2011; Sherman, Dumroese, & Coleman, 2018; Tveite & Hanssen, 2013)
We examined the combined effects of whole-tree thinning with two nitrogen fertilization treatments, and used a split-plot design to analyse the effects of wood-ash addition
Summary
Bioenergy can play a key role in achieving the EU's renewable energy targets for 2030 and beyond (European Union, 2019). To our knowledge, no field study has examined the effects of nitrogen fertilization and wood-ash addition in a factorial way following whole-tree harvesting at thinning, and only a few field-based studies have combined whole-tree harvesting with nutrient compensation treatments We examined the combined effects of whole-tree thinning with two nitrogen fertilization treatments (single application to compensate for lost nitrogen, or repeated application every third year), and used a split-plot design to analyse the effects of wood-ash addition. This experimental setting allowed the assessment of the interaction between nitrogen and other nutrient demands under the ambient and the treatment conditions. 5. wood-ash application increases soil pH and exchangeable base cation contents in the soil
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