Long term effects of forest management on forest structure and dead wood in mature boreal forests
Asplund, Johan; Nordén, Jenni; Kjønaas, O. Janne; Madsen, Rieke Lo; Lunde, Lisa Fagerli; Birkemoe, Tone; Ronold, Eivind Kverme; Norkute, Milda; Jansson, Ulrika; Karlsen, Damian P.; Sverdrup-Thygeson, Anne; Skrede, Inger; Methlie, Ine-Susanne Hopland; Maurice, Sundy; Botten, Ulrik G.; Krok, Regine; Kauserud, Håvard; Nybakken, Line
Peer reviewed, Journal article
Published version
Date
2024Metadata
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Original version
10.1016/j.foreco.2024.122315Abstract
The history of forestry in Fennoscandia spans five centuries, with clear-cutting being the dominant practice since the mid-20th century. This has led to a significant transformation of the forest landscape. In this study we investigated long-term effects of clear-cutting on forest structure and dead wood volumes. We established twelve pairs of spruce forest sites in southeastern Norway, each pair constituting of a mature, previously clear-cut stand and its near-natural counterpart with similar edaphic factors. The near-natural stands had 2.8 times higher volumes of dead wood and a larger proportion of dead wood in late stages of decay. The near-natural stands had on average 36.8 ± 9.1 m3 ha− 1 of downed dead wood and 24.1 ± 6.2 m3 ha− 1 of standing dead wood. Corresponding numbers for the previously clear-cut stands were 10.2 ± 2.8 m3 ha− 1 and 11.9 ± 3.7 m3 ha− 1 . Forests with lower volumes of dead wood often also had lower connectivity of old spruce forests, which potentially have further negative effects on biodiversity. Furthermore, near-natural stands displayed greater tree size heterogeneity, resulting in a wider variation in light conditions. While no difference was observed in living tree volume, we found only weak evidence for higher basal area in the previously clear-cut stands, which had a higher stem density with more slender stems and shorter crowns. Our findings suggest that managed forests do not develop structures typical of near-natural forests before they become mature for logging. We stress the importance of a thorough site selection for studies of management effects, as forest management history may be confounded with productivity and other edaphic factors. Experimental designs like ours are vital for testing how differences in structure and deadwood volumes, driven by forest management, translate into variations in biodiversity, carbon sequestration and ecosystem functioning in future studies Coarse woody debris Clear-cutting forestry Norway spruce Structural heterogeneity