Risto Ojansuu scite author profile

[1] Thinning is a routine forest management operation that changes tree spacing, number, and size distribution and affects the material flows between vegetation and the atmosphere. Here, using direct micrometeorological ecosystem-scale measurements, we show that in a boreal pine forest, thinning decreases the deposition velocities of fine particles as expected but does not reduce the carbon sink, water vapor flux, or ozone deposition. The thinning decreased the all-sided leaf area index from 8 to 6, and we suggest that the redistribution of sources and sinks within the ecosystem compensated for this reduction in foliage area. In the case of water vapor and O 3 , changes in light penetration and among-tree competition seem to increase individual transpiration rates and lead to larger stomatal apertures, thus enhancing also O 3 deposition. In the case of CO 2 , increased ground vegetation assimilation and decreased autotrophic respiration seem to cancel out opposite changes in canopy assimilation and heterotrophic respiration. Current soil-vegetation-atmosphere transfer models should be able to reproduce these observations.

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Comparison of a physiological model and a statistical model for prediction of growth and yield in boreal forests

Matala

Hynynen

Miina³

et al. 2003

Ecological Modelling

107

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The maturation of Pinus sylvestris seeds in relation to temperature climate in Northern Finland

Henttonen

Kanninen

Nygren

et al. 1986

Scandinavian Journal of Forest Research

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Introducing effects of temperature and CO2 elevation on tree growth into a statistical growth and yield model

Matala

Ojansuu

Peltola

et al. 2005

Ecological Modelling

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Long-term impacts of forest management on biomass supply and forest resource development: a scenario analysis for Finland

Hynynen¹,

Salminen²,

Ahtikoski

et al. 2015

Eur J Forest Res

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Risto Ojansuu

Effect of thinning on surface fluxes in a boreal forest

Comparison of a physiological model and a statistical model for prediction of growth and yield in boreal forests

The maturation of Pinus sylvestris seeds in relation to temperature climate in Northern Finland

Introducing effects of temperature and CO2 elevation on tree growth into a statistical growth and yield model

Long-term impacts of forest management on biomass supply and forest resource development: a scenario analysis for Finland

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