iForest - Biogeosciences and Forestry (Oct 2015)

First vs. second rotation of a poplar short rotation coppice: leaf area development, light interception and radiation use efficiency

  • Broeckx Laura S,
  • Vanbeveren Stefan PP,
  • Verlinden Melanie S,
  • Ceulemans R

DOI
https://doi.org/10.3832/ifor1457-008
Journal volume & issue
Vol. 8, no. 1
pp. 565 – 573

Abstract

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Given the high expectations for lignocellulosic biomass as one of the potential solutions for energy security and climate change mitigation, commercial scale studies over several rotations are crucial to assess the potential and the sustainability of short rotation coppice (SRC) cultures for bioenergy. The first and the second rotation of the SRC poplar (Populus) plantation of the present study differed significantly in biomass yield and in productivity determinants and their relationships. Coppicing enhanced leaf area development, radiation interception and woody biomass productivity. High total leaf area and radiation use efficiency (RUE) equally contributed to the high biomass yield during the establishment rotation, while RUE became the most important determinant of biomass yield after coppice. The study confirmed the significant genotypic variation in biomass productivity and its underlying determinants, also among more recently selected poplar genotypes. The absence of a correlation between intercepted radiation and RUE suggests the potential of selecting for genotypes combining high total leaf area and photosynthetic carbon uptake in future breeding programs for yield maximization towards sustainable bioenergy cultivation.

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