Pinus sylvestris

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  Subject Areas on Research

  • Annual climate variation modifies nitrogen induced carbon accumulation of Pinus sylvestris forests. 
  • Ecophysiological variation of transpiration of pine forests: synthesis of new and published results. 
  • Estimating canopy gross primary production by combining phloem stable isotopes with canopy and mesophyll conductances. 
  • Greater carbon allocation to mycorrhizal fungi reduces tree nitrogen uptake in a boreal forest. 
  • Limited vertical CO2 transport in stems of mature boreal Pinus sylvestris trees. 
  • Nitrogen-addition effects on leaf traits and photosynthetic carbon gain of boreal forest understory shrubs. 
  • Organic nitrogen enhances nitrogen nutrition and early growth of Pinus sylvestris seedlings. 
  • Organic nitrogen uptake of Scots pine seedlings is independent of current carbohydrate supply. 
  • Photosynthetic refixation varies along the stem and reduces CO2 efflux in mature boreal Pinus sylvestris trees. 
  • Stem compression reversibly reduces phloem transport in Pinus sylvestris trees.