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Generalized biomass and leaf area allometric equations for European tree species incorporating stand structure, tree age and climate

  • Forrester, David I.
  • Tachauer, I.H.H.
  • Annighoefer, Peter
  • Barbeito Sanchez, Ignacio
  • Pretzsch, Hans
  • Ruiz-Peinado, Ricardo
  • Stark, Hendrik
  • Vacchiano, Giorgio
  • Zlatanov, Tzvetan
  • Chakraborty, Tamalika
  • Saha, Somidh
  • Sileshi, Gudeta W.
Publication Date
Jan 01, 2017
DOI: 10.1016/j.foreco.2017.04.011
OAI: oai:HAL:hal-01593190v1
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Biomass and leaf area equations are often required to assess or model forest productivity, carbon stocks and other ecosystem services.These factors are influenced by climate, age and stand structural attributes including stand density and tree species diversity or species composition. However, such covariates are rarely included in biomass and leaf area equations. We reviewed the literature and built a database of biomass and leaf area equations for 24 European tree species and 3 introduced species. The final dataset contained 973 equations. Most of the equations were site-specific and therefore restricted to the edaphic, climatic and stand structural conditions of the given site. To overcome this limitation, the database was used to develop regional species-specific equations that can be used in a wide range of stands and to quantify the effects of climate, age and stand structure on biomass or leaf area. The analysis showed considerable inter- and intra-specific variability in biomass relationships. The intra-specific variability was related to climate, age or stand characteristics, while the inter-specific variability was correlated with traits such as wood density, specific leaf area and shade tolerance. The analysis also showed that foliage mass is more variable than stem or total aboveground biomass, both within and between species, and these biomass components have contrasting responses to age and changes in stand structure.Despite the large number of published equations, many species are still not well represented. Therefore, generic equations were developed that include species-specific wood density instead of species identity. Further improvements may be possible if future studies quantify the stand structure of individual tree neighbourhoods instead of using the stand means for all trees sampled with the given stand.

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