Reprint

Fast-Growing Trees Species—Opportunities and Risks for Sustainable Agricultural and Forest Land Use Systems

Edited by
June 2022
204 pages
  • ISBN978-3-0365-4458-8 (Hardback)
  • ISBN978-3-0365-4457-1 (PDF)

This is a Reprint of the Special Issue Fast-Growing Trees Species—Opportunities and Risks for Sustainable Agricultural and Forest Land Use Systems that was published in

Biology & Life Sciences
Environmental & Earth Sciences
Summary

The articles in this Special Issue cover a very wide range of topics related to the cultivation, management and use of fast-growing tree species. In addition to research on breeding and on the influence of pruning practices on the height growth of paulownia, three articles deal with the influence of site characteristics and nutrient availability on the physiology and yield security of fast-growing tree species. Another article focuses on the modeling of soil carbon in Salix plantations, while the article by Boruszewski et al. reports on potentially suitable areas for the planting of fast-growing tree species in Poland. Zitzmann and Rode examine the impact of short-rotation plantation management on phytodiversity, while Helbig et al. deal with the influence of leaf feeding on the growth of poplars and willows. Finally, Hernandez-Estrada et al. describe the dry matter loss of poplar wood chips during storage.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
woody biomass crops; bioenergy; biodiversity; species richness; flora; vascular plants; short rotation coppices; poplars; willows; feeding simulation; defoliation; herbivory; short rotation coppice; phosphatase activity; nutrient content; growth stages; biomass; willow; Salix; capacity; European larch; fast-growing trees; plantations; plantation area; poplar cultivar “Hybrid 275”; sown area; biomass production; life cycle assessment; climate impact; soil organic carbon; Salix; willow; short rotation coppice; genotypic difference; CRISPR/Cas9; genome editing; Populus; INRA 717-1B4; pyramidal plant habitus; leaf petiole angle; branch angle; nitrogen; phosphorus; carbon; physiology; F. mandshurica; Robinia pseudoacacia L.; photosynthetic vitality; chlorophyll and phenol content; nutrition supply; dry matter yield; land reclamation; spring pruning; year-long pruning; branching; angle diversion of sprout; dry matter losses; short rotation coppices; poplar wood chips; laboratory scale; cultivable saproxylic microbiota; n/a