Artikkelit jotka sisältää sanan 'ravinteet'

Commercial thinning is a common practice when growing even-aged stands in the Nordic countries. Thinning from below is carried out to harvest suppressed and part of the mid-sized trees that cannot successfully compete for resources and have become grown over by co-dominant and dominant trees. In five field experiments, we studied the effects of harvesting method on the nutrient amount of logging residues left at the site in thinning of Scots pine stands. Comparison was carried out between four harvesting methods representing different levels for forest-residue recovery: SOH (stem-only harvesting down to a diameter of 7 cm, SOH-E (stem-only harvesting down to a diameter of 2 cm),WTH (whole-tree harvesting including stems, tops and branches) and WTH-M (WTH and manual collection of those logging residues which were left in mechanical harvesting). In each experiment, logging residues were weighed and sampled for determination of their nutrient concentrations, and soil samples were taken from the surface peat layer (0–20 cm) for nutrient analyses. In SOH treatments, all residues and nutrients bound in the logging residues were left at the site. In WTH 28–67% and in WTH-M 4–20% of the nutrients remained at the site, with the figure depending on the experiment. The amounts of N (1%), P (1–4%), Ca (2–5%), and Mg (3–8%) bound in the logging residues in SOH were low in comparison to the corresponding amounts in the 0–20 cm peat layer. However, the amount of K in logging residues represented 10–26% and the amount of B 8–15% compared with the corresponding nutrients in peat. The amount of N, P, and K in logging residues after CTL harvesting was 39–86, 3–7, and 9–21 kg•ha-1, respectively. The corresponding figures after WTH were 15–36, 1–3, and 3–9 kg ha-1. We assume that WHT on peatland sites that are prone to K deficiency or already have a detected shortage may increase a risk for nutrient imbalances and growth loss in remaining tree stand.

• Hytönen, Natural Resources Institute Finland, Silmäjärventie 2, 69100 Kannus, Finland Sähköposti: ei.tietoa@nn.oo
• Moilanen, Sähköposti: ei.tietoa@nn.oo

Six field experiments on the use of mineral soil for amelioration of pine-dominated peatland forests were established in the 1920’s and 1930’s on drained mires in southern and central Finland. The treatments consisted of varying amounts of different textured mineral soil added on top of peatland. Soil samples were taken 52–74 years after the mineral soil application in 10 cm layers, up to 40 or 50 cm depth. The samples were analysed for pH, ash content, bulk density and nutrient concentrations. In two of the experiments, foliar samples of Scots pine were analyzed 66 and 77 years after the mineral soil application, and in one experiment, tree growth was measured for the period of 31–60 years after the application. The mineral soil had a long term effect on the physical and chemical properties of the top peat layer. Ash content and bulk density of the peat increased along with increasing application amounts, as did soil total P, K, Ca, Mg, Zn, Fe and B. The changes caused by the mineral soil were mostly restricted to the top 30 cm layer. The higher the soil fine fraction was, so was the increase in peat total P, K, Ca and Mg amounts. The addition of mineral soil increased tree growth and improved nutrient deficiencies (P, K) of Scots pine on one experiment, but decreased the B concentrations near the deficiency level.

• Hytönen, Finnish Forest Research Institute, Kannus Research Unit, P.O. Box 44, FI-69101 Kannus, Finland Sähköposti: ei.tietoa@nn.oo
• Moilanen, Sähköposti: ei.tietoa@nn.oo
• Silfverberg, Sähköposti: ei.tietoa@nn.oo