Genetic Markers and Tree Properties Predicting Wood Biorefining Potential in Aspen (Populus tremula) Bioenergy Feedstock

Authors

Sacha Escamez, Umeå University
Kathryn M. Robinson, Umeå University
Mikko Luomaranta, Umeå University
Madhavi Latha Gandla, Umeå University
Niklas Mähler, Umeå University
Zakiya Yassin, RISE Research Institutes of Sweden AB
Thomas Grahn, RISE Research Institutes of Sweden AB
Gerhard Scheepers, RISE Research Institutes of Sweden AB
Lars-Göran Stener, The Forestry Research Institute of Sweden
Stefan Jansson, Umeå University
Leif J. Jönsson, Umeå University
Nathaniel R. Street, Umeå University
Hannele Tuominen, Umeå UniversityFollow

Document Type

Article

Journal/Book Title/Conference

Biotechnology for Biofuels and Bioproducts

Volume

16

Publisher

BioMed Central Ltd.

First Page

1

Last Page

16

Publication Date

4-10-2023

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Abstract

Background Wood represents the majority of the biomass on land and constitutes a renewable source of biofuels and other bioproducts. However, wood is recalcitrant to bioconversion, raising a need for feedstock improvement in production of, for instance, biofuels. We investigated the properties of wood that affect bioconversion, as well as the underlying genetics, to help identify superior tree feedstocks for biorefining.

Results We recorded 65 wood-related and growth traits in a population of 113 natural aspen genotypes from Sweden (https://doi.org/10.5061/dryad.gtht76hrd). These traits included three growth and field performance traits, 20 traits for wood chemical composition, 17 traits for wood anatomy and structure, and 25 wood saccharification traits as indicators of bioconversion potential. Glucose release after saccharification with acidic pretreatment correlated positively with tree stem height and diameter and the carbohydrate content of the wood, and negatively with the content of lignin and the hemicellulose sugar units. Most of these traits displayed extensive natural variation within the aspen population and high broad-sense heritability, supporting their potential in genetic improvement of feedstocks towards improved bioconversion. Finally, a genome-wide association study (GWAS) revealed 13 genetic loci for saccharification yield (on a whole-tree-biomass basis), with six of them intersecting with associations for either height or stem diameter of the trees.

Conclusions The simple growth traits of stem height and diameter were identified as good predictors of wood saccharification yield in aspen trees. GWAS elucidated the underlying genetics, revealing putative genetic markers for bioconversion of bioenergy tree feedstocks.

Recommended Citation

Escamez, S., K. M. Robinson, M. Luomaranta, M. L. Gandla, N. Mähler, Z. Yassin, T. Grahn, G. Scheepers, L.-G. Stener, S. Jansson, L. J. Jönsson, N. R. Street, and H. Tuominen. 2023. Genetic markers and tree properties predicting wood biorefining potential in aspen (Populus tremula) bioenergy feedstock. Biotechnology for Biofuels and Bioproducts 16:65.