Decoupling processability of callose enriched aspen wood: the study of extractability of lignin and carbohydrates during autohydrolysis and kraft pulping
Journal article, 2025

Development of transgenic lignocellulosic biomass with increased cell wall accessibility could benefit development of resource efficient biorefinery concepts. Transgenic callose enriched aspen, reported to show an increased cell wall mesoporosity including increased cellulose-lignin distance and improved accessibility to enzymatic hydrolysis, has been assessed for its behaviour in industrially relevant decoupling processes: autohydrolysis mediated extraction and kraft pulping (not performed in sequence). Under mild autohydrolysis conditions (130 degrees C, initial 20 min of extraction) and during initial mild phase of kraft pulping (10-20 min) this modification indeed led to a modestly but consistently enhanced extractability of wood components of slightly higher molar mass. These results point out the potential of the callose enriched wood for new prospects of mild resource efficient biorefining.

extractability

kraft pulping

cell wall porosity

callose enriched aspen

autohydrolysis extraction

Author

Aleksandra Maria Kozlowski

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Matthieu Bourdon

Friedrich Miescher Institute for Biomedical Research

Yrjo Helariutta

University of Helsinki

Merima Hasani

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Holzforschung

0018-3830 (ISSN) 1437-434X (eISSN)

Vol. 79 8 359-371

Subject Categories (SSIF 2025)

Wood Science

Polymer Technologies

DOI

10.1515/hf-2025-0004

More information

Latest update

9/18/2025