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96 results on '"pinus sylvestris"'

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1. Natural regeneration and early development of Scots pine seedlings after gap cutting in northern Finland.

2. Harmonized decay classification for dead wood in Nordic national forest inventories.

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3. Wood Material Properties of Forest Fire-Damaged Norway Spruce and Scots Pine for Mechanical Wood Processing in Finland.

4. New saga in Finland: The rise of Diplodia sapinea in Scots pine.

5. Subfossil Scots Pine (Pinus sylvestris L.) Wood from Northern Finland—Physical, Mechanical, and Chemical Properties and Suitability for Specialty Products.

6. Taming the massive genome of Scots pine with PiSy50k, a new genotyping array for conifer research.

7. Arginine phosphate (ArGrow©) treatment on Norway spruce and Scots pine seedlings at different planting times and under varying planting site conditions in boreal forests.

8. Åland churches as archives of tree-ring records sensitive to fluctuating climate.

9. Early growth of Scots pine seedlings is affected by seed origin and light quality.

10. Butt rot incidence in the northernmost distribution area of Heterobasidion in Finland.

11. Manipulating overstory density and mineral soil exposure for optimal natural regeneration of Scots pine.

12. Comparative analyses of fungal biota carried by the pine shoot beetle ( Tomicus piniperda L.) in northern and southern Finland.

13. Response of radial increment variation of Scots pine to temperature, precipitation and soil water content along a latitudinal gradient across Finland and Estonia.

14. A prominent stepwise advance of the tree line in north-east Finland.

15. Intra-annual tracheid production of Norway spruce and Scots pine across a latitudinal gradient in Finland.

16. Effects of variable temperature and moisture conditions on respiration and nonstructural carbohydrate dynamics of tree roots.

17. Above- and below-ground N stocks in coniferous boreal forests in Finland: Implications for sustainability of more intensive biomass utilization.

18. Regeneration result of excavator-mounted rototiller in direct seeding of Scots pine on forestry-drained peatland.

19. Dendroclimatic signals deduced from riparian versus upland forest interior pines in North Karelia, Finland.

20. Regional climatic signals in Scots pine growth with insights into snow and soil associations.

21. Cost–Quality Relationship of Norway Spruce Planting and Scots Pine Direct Seeding in Privately Owned Forests in Southern Finland.

22. Field performance of Scots pine ( Pinus sylvestris L.) seedlings planted in disc trenched or mounded sites over an extended planting season.

23. Domination of growing-season evapotranspiration over runoff makes ditch network maintenance in mature peatland forests questionable.

24. Heterotrophic respiration and nitrogen mineralisation in soils of Norway spruce, Scots pine and silver birch stands in contrasting climates.

25. Stump decomposition rates after clear-felling with and without prescribed burning in southern and northern boreal forests in Finland.

26. Effects of logging residue harvest in thinnings on amounts of soil carbon and nutrients in Scots pine and Norway spruce stands.

27. Distribution and frequency of Cronartium flaccidum on Melampyrum spp. in permanent sample plots in Finland.

28. Response of Scots Pine (Pinus sylvestris) to Warming Climate at Its Altitudinal Limit in Northernmost Subarctic Finland.

29. Effects of liming on chemical properties of soil, needle nutrients and growth of Scots pine transplants.

30. Does the age of fine root carbon indicate the age of fine roots in boreal forests?

31. On the natural regeneration of dry heath forests in Finnish Lapland: a review of V. T. Aaltonen (1919).

32. Effect of wood ash and nitrogen fertilization on soil chemical properties, soil microbial processes, and stand growth in two coniferous stands in Finland.

33. Optimizing the management of Norway spruce and Scots pine mixtures on a site infected by Heterobasidion coll.

34. Whole-tree harvesting at clear-felling: Impact on soil chemistry, needle nutrient concentrations and growth of Scots pine.

35. Monoterpene emission of a boreal Scots pine (Pinus sylvestris L.) forest

36. The use of birch tar in the prevention of moose damage in young Scots pine stands.

37. Effect of cleaning methods in mixed pine-deciduous stands on moose damage to Scots pines in southern Finland.

38. How do airborne and deposition pollen samplers reflect the atmospheric dispersal of different pollen types? An example from northern Finland.

39. Increment cores from the Finnish National Forest Inventory as a source of information for studying intra-annual wood formation.

40. Impact of timber felling on the ambient monoterpene concentration of a Scots pine (Pinus sylvestris L.) forest

41. Effect of edge stands on the development of young Pinus sylvestris stands in southern Finland.

42. Estimating the onset of cambial activity in Scots pine in northern Finland by means of the heat-sum approach.

43. Fine root morphological adaptations in Scots pine, Norway spruce and silver birch along a latitudinal gradient in boreal forests.

44. Management alternatives of energy wood thinning stands

45. Stand-level growth models for young Scots pine stands in Finland.

46. Impacts of long-term elevation of atmospheric carbon dioxide concentration and temperature on the establishment, growth and mortality of boreal Scots pine branches.

47. Relative Susceptibility of Four Melampyrum Species to Cronartium flaccidum.

48. Seasonal variation in nitrogen net uptake and root plasma membrane H+-ATPase activity of Scots pine seedlings as affected by nutrient availability.

49. Forest Fertilization Research in Finland: A Literature Review.

50. Stable carbon isotope ratios of Pinus sylvestris from northern Finland and the potential for extracting a climate signal from long Fennoscandian chronologies.