2023
DOI: 10.1016/j.tfp.2022.100363
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Applying continuous-cover forestry on drained boreal peatlands; water regulation, biodiversity, climate benefits and remaining uncertainties

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Cited by 8 publications
(4 citation statements)
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“…It is notable that peat soils are not only found in forested and open wetlands but also in the riparian zones lining most streams. The proportion of C stored in trees in these wet areas is substantially lower than in other forested regions, so less common management practices such as continuous-cover forestry may be preferable to ensure the preservation of these large SOC stocks 51 . More generally, the presence of large SOC stocks in riparian zones suggests a need for greater caution in forest management when dealing with such near-stream areas 52 .…”
Section: Discussionmentioning
confidence: 99%
“…It is notable that peat soils are not only found in forested and open wetlands but also in the riparian zones lining most streams. The proportion of C stored in trees in these wet areas is substantially lower than in other forested regions, so less common management practices such as continuous-cover forestry may be preferable to ensure the preservation of these large SOC stocks 51 . More generally, the presence of large SOC stocks in riparian zones suggests a need for greater caution in forest management when dealing with such near-stream areas 52 .…”
Section: Discussionmentioning
confidence: 99%
“…The seasonal coupling and decoupling of hydric sites to and from upland sources have implications for the introduction of continuous-cover forestry as a forest soil management strategy in northern settings. In continuous-cover forestry, only a certain proportion of the trees are harvested in order to keep the transpiration of remaining trees sufficiently high, preventing soil waterlogging during the growing season and thus eliminating the need for the maintenance of drainage networks [9,10]. It can be speculated that, in hydric sites that become decoupled from water-source areas during the growing season, the effects of continuous-cover forestry would be much stronger than in other cases where such decoupling does not take place.…”
Section: Implications Of the Hydrological Coupling/decouplingmentioning
confidence: 99%
“…However, drainage renovation is costly and can have negative environmental consequences such as habitat disturbance, increased sediment and nutrient run-off and spikes in greenhouse gas emissions from soils [9]. In recent decades in Scandinavia, continuous-cover forestry, by harvesting only some of the trees, has been proposed as an alternative more environmentally friendly forest soil water management strategy [9,10].…”
Section: Introductionmentioning
confidence: 99%
“…While that study combined chamber measurements of soil fluxes during the snow‐free season with tree production estimates, year‐round and direct measurements of the ecosystem‐scale C balance using the eddy covariance (EC) technique (Baldocchi, 2003) are lacking for peatland forests in the more nutrient‐poor middle and northern boreal regions. Given large gradients in soil fertility (Callesen et al., 2007), hydrology (Laudon & Hasselquist, 2023) and climatic conditions across Fennoscandia, a comprehensive database is critical for a better understanding of how these key factors regulate the C balance of drained peatland forests across the boreal biome.…”
Section: Introductionmentioning
confidence: 99%