Your search keyword '"Hagos Lundström"' showing total 5 results

1. Haaroittuneet rungot kasvattavat harvesterin ajanmenekkiä päätehakkuulla huomattavasti

Author

Jussi Manner and Hagos Lundström

Subjects

Forestry, SD1-669.5

Published

2024

2. The effect of forked trees on harvester time consumption in a Pinus contorta final-felling stand

Author

Jussi Manner and Hagos Lundström

Subjects

lodgepole pine, productivity, stem quality, stem defect, cut-to-length logging, double stem, forking, Forestry, SD1-669.5

Abstract

The consensus on the factors affecting harvester productivity is generally widely acknowledged in the discipline. However, research results regarding the effect of forking on productivity are diverse. Some studies show that harvester productivity is halved when harvesting double stems compared to single-stem trees, while other studies indicate that forking does not necessarily decrease harvester productivity. These differences in study results can depend on what is considered forking. In our study, the forking occurred above the breast-height level. We defined codominant stems as forked trees too large to be multi-tree handled. In contrast, we defined double crowns as forked trees that could be multi-tree handled. The objective of our study was to analyse how the presence of codominant stems and/or double crowns affects harvester time consumption. The study was conducted in Sweden in 2022, involving two operators and two large harvesters. The 45-year-old Pinus contorta Douglas ex Loudon-dominated stand was clearcut during the study. We found that the presence of codominant stems doubles harvester time consumption per tree, while double crowns had only a minor impact on harvester time consumption. Additionally, total time consumption increased linearly with increasing diameter at breast height. Based on these findings, we recommend that forked trees be removed already during thinning when they can still be time-efficiently multi-tree handled. Dealing with forked trees later during the rotation cycle, when they are too large for multi-tree handling, is excessively time-consuming.

Published

2024

3. Harvester and forwarder productivity and net revenues in patch cutting

Author

Johan Sonesson, Lars Eliasson, Hagos Lundström, and Örjan Grönlund

Subjects

040101 forestry, Continuous cover forestry, Forwarder, Management system, 040103 agronomy & agriculture, Materials Chemistry, 0401 agriculture, forestry, and fisheries, Revenue, 04 agricultural and veterinary sciences, Business, Agricultural engineering, Productivity, Ecosystem services

Abstract

Patch cutting is beneficial for many ecosystem services, but the effects of the management system on operations have not been analyzed. A two-machine system with harvester and forwarder is often us...

Published

2020

4. Is tree growth in boreal coniferous stands on mineral soils affected by the addition of wood ash?

Author

Folke Pettersson, Sten Nordlund, Hagos Lundström, Staffan Jacobson, and Ulf Sikström

Subjects

biology, Soil acidification, Taiga, technology, industry, and agriculture, Scots pine, Forestry, Soil classification, Picea abies, Wood ash, biology.organism_classification, complex mixtures, Agronomy, Botany, Soil water, Environmental science, Woody plant

Abstract

Increasing use of forest fuels for energy production is generating greater quantities of wood ash. In Sweden, it is recommended that this ash should be returned to the forest to counter soil acidification and avoid potential future nutrient deficiencies, but the effects on tree growth require clarification. Thus, 10 field experiments were established in Sweden in 1990–2006 to study the effects of adding wood ash of various origins, doses and combinations of both ash and nitrogen on stem growth in Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies L. Karst.) stands on mineral soil. Observations after 5–15 years show that growth responses were strongest when N was added, either alone or with wood ash. Growth responses to additions of wood ash without N were small and variable and statistically insignificant at all study sites. However, there were indications that adding wood ash may increase stem-wood growth at fertile sites and decrease it at less fertile sites. Hence, at fertile sites, it may...

Published

2014

5. [Untitled]

Author

Lars Högbom, Hagos Lundström, Hans Örjan Nohrstedt, and Sten Nordlund

Subjects

Chemistry, Ammonium nitrate, Soil Science, Plant Science, Humus, Podzol, Soil management, chemistry.chemical_compound, Animal science, Soil pH, Botany, Soil horizon, Soil fertility, Nitrogen cycle

Abstract

Forest N fertilization is a common practice in areas of Sweden that are not affected by high levels of N deposition. The environmental consequences of high N input to closed forests are fairly well known, but the long-term effects following clear-felling are a lot less well known. Thus, residual effects on soil and planted seedlings of previous N additions at an experimental N gradient 11 years after clear-felling were studied at a naturally nutrient-poor forest site in central Sweden. The experimental N gradient had been established by three repeated applications (in 1967, 1974 and 1981) of six dosages of NH4NO3 with increments of 120 kg N ha−1. Thus, in total, the applied N dose ranged between 0 and 1800 kg N ha−1. The study examined extractable base cations and P, soil pH, total-N, total-C, net N-mineralization and potential nitrification in four soil horizons (the humus layer, and 0–5, 5–10 and 10–20 cm in the mineral soil). We also measured the survival and growth of planted Pinus sylvestris L. seedlings. The applied N had no effect on the amounts of extractable-P or base cations in the soil. The soil pH decreased with increasing N dose in the deeper soil horizons, while in the humus the pH showed a weak but statistically significant increase due to the N application. Both total-C and total-N increased as a result of the N application, while the C/N ratio decreased. In the humus layer and the uppermost mineral soil layer NH4+ was the major inorganic N source, in contrast to the lowest mineral soil horizon where NO3− dominated. For most of the studied horizons, there was a positive linear relationship between applied N dose and amount of inorganic N. Both net N-mineralization and potential nitrification showed increases with increasing N dose. As for the plants, no difference in survival or growth was found between the different N treatments. For doses generally applied in forest fertilization no significant differences in any of the studied properties were found.

Published

2001