TY - JOUR
T1 - Lignin-First Biorefining of Nordic Poplar to Produce Cellulose Fibers Could Displace Cotton Production on Agricultural Lands
AU - Adler, Anneli
AU - Kumaniaev, Ivan
AU - Karacic, Almir
AU - Baddigam, Kiran
AU - Hanes, Rebecca
AU - Subbotina, Elena
AU - Bartling, Andrew
AU - Huertas-Alonso, Alberto
AU - Moreno, Andres
AU - Hakansson, Helena
AU - Mathew, Aji
AU - Beckham, Gregg
AU - Samec, Joseph
N1 - Publisher Copyright:
© 2022 The Authors
PY - 2022/8/17
Y1 - 2022/8/17
N2 - Here, we show that lignin-first biorefining of poplar can enable the production of dissolving cellulose pulp that can produce regenerated cellulose, which could substitute cotton. These results in turn indicate that agricultural land dedicated to cotton could be reclaimed for food production by extending poplar plantations to produce textile fibers. Based on climate-adapted poplar clones capable of growth on marginal lands in the Nordic region, we estimate an environmentally sustainable annual biomass production of ∼11 tonnes/ha. At scale, lignin-first biorefining of this poplar could annually generate 2.4 tonnes/ha of dissolving pulp for textiles and 1.1 m3 biofuels. Life cycle assessment indicates that, relative to cotton production, this approach could substantially reduce water consumption and identifies certain areas for further improvement. Overall, this work highlights a new value chain to reduce the environmental footprint of textiles, chemicals, and biofuels while enabling land reclamation and water savings from cotton back to food production.
AB - Here, we show that lignin-first biorefining of poplar can enable the production of dissolving cellulose pulp that can produce regenerated cellulose, which could substitute cotton. These results in turn indicate that agricultural land dedicated to cotton could be reclaimed for food production by extending poplar plantations to produce textile fibers. Based on climate-adapted poplar clones capable of growth on marginal lands in the Nordic region, we estimate an environmentally sustainable annual biomass production of ∼11 tonnes/ha. At scale, lignin-first biorefining of this poplar could annually generate 2.4 tonnes/ha of dissolving pulp for textiles and 1.1 m3 biofuels. Life cycle assessment indicates that, relative to cotton production, this approach could substantially reduce water consumption and identifies certain areas for further improvement. Overall, this work highlights a new value chain to reduce the environmental footprint of textiles, chemicals, and biofuels while enabling land reclamation and water savings from cotton back to food production.
KW - climate-adapted poplar
KW - dissolving pulp
KW - land use change
KW - life cycle assessment
KW - lignin
KW - reductive catalytic fractionation
KW - regenerated cellulose
KW - savings in blue water
KW - short rotation forestry
KW - textile fibers
UR - http://www.scopus.com/inward/record.url?scp=85135832662&partnerID=8YFLogxK
U2 - 10.1016/j.joule.2022.06.021
DO - 10.1016/j.joule.2022.06.021
M3 - Article
AN - SCOPUS:85135832662
SN - 2542-4351
VL - 6
SP - 1845
EP - 1858
JO - Joule
JF - Joule
IS - 8
ER -