K. Korhonen scite author profile

This study investigated the sensitivity of managed boreal forests to climate change, with consequent needs to adapt the management to climate change. Model simulations representing the Finnish territory between 60 and 70° N showed that climate change may substantially change the dynamics of managed boreal forests in northern Europe. This is especially probable at the northern and southern edges of this forest zone. In the north, forest growth may increase, but the special features of northern forests may be diminished. In the south, climate change may create a suboptimal environment for Norway spruce. Dominance of Scots pine may increase on less fertile sites currently occupied by Norway spruce. Birches may compete with Scots pine even in these sites and the dominance of birches may increase. These changes may reduce the total forest growth locally but, over the whole of Finland, total forest growth may increase by 44%, with an increase of 82% in the potential cutting drain. The choice of appropriate species and reduced rotation length may sustain the productivity of forest land under climate change.

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Changes in forest production, biomass and carbon: Results from the 2015 UN FAO Global Forest Resource Assessment

Köhl¹,

Lasco²,

Cifuentes

et al. 2015

Forest Ecology and Management

244

112

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Genetic variation in Phlebiopsis gigantea as detected with random amplified microsatellite (RAMS) markers

Vainio¹,

Korhonen²,

Hantula³

1998

Mycological Research

158

103

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Remote sensing and forest inventories in Nordic countries – roadmap for the future

Kangas

Astrup

Breidenbach

et al. 2018

Scandinavian Journal of Forest Research

147

103

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The Nordic countries have long traditions in forest inventory and remote sensing (RS). In sample-based national forest inventories (NFIs), utilization of aerial photographs started during the 1960s, satellite images during the 1980s, laser scanning during the 2000s, and photogrammetric point clouds during the 2010s. In forest management inventories (FMI), utilization of aerial photos started during the 1940s and laser scanning during the 2000s. However, so far, RS has mostly been used for map production and research rather than for estimation of regional parameters or inference on their accuracy. In recent years, the RS technology has been developing very fast. At the same time, the needs for information are constantly increasing. New technologies have created possibilities for cost-efficient production of accurate, large area forest data sets, which also will change the way forest inventories are done in the future. In this study, we analyse the state-of-the-art both in the NFIs and FMIs in the Nordic countries. We identify the benefits and drawbacks of different RS materials and data acquisition approaches with different user perspectives. Based on the analysis, we identify the needs for further development and emerging research questions. We also discuss alternatives for ownership of the data and cost-sharing between different actors in the field. ARTICLE HISTORY

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An intersterility group of Heterobasidion annosum specialized to Abies alba

Capretti

Korhonen

Mugnai

et al. 1990

European Journal of Forest Pathology

123

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K. Korhonen

Sensitivity of managed boreal forests in Finland to climate change, with implications for adaptive management

Changes in forest production, biomass and carbon: Results from the 2015 UN FAO Global Forest Resource Assessment

Genetic variation in Phlebiopsis gigantea as detected with random amplified microsatellite (RAMS) markers

Remote sensing and forest inventories in Nordic countries – roadmap for the future

An intersterility group of Heterobasidion annosum specialized to Abies alba

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