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Environmental impacts \u2013 what do we know?<\/h3>\n\n\n\n
The environmental performance of wood-based textile fibres is dependent on the benchmark used in assessments and the value chain\u2019s complexity. As with any product or material, wood-based textile fibres have some impact to the environment. However, this does not necessarily mean that these fibres cannot be considered suitable alternatives to synthetic fibres or cotton from an environmental standpoint.<\/p>\n\n\n\n
The wider adoption of wood-based textile fibres is limited by:<\/p>\n\n\n\n
- Pending approval of alternative solvents\u00a0(used to dissolve wood pulp) to reduce the environmental impacts.<\/li>
- Lack of cost competitiveness\u00a0for greener solvents (e.g., ionic liquids) in part due to limited production and consumption.<\/li>
- \u2022\u00a0Difficulty for large manufacturing companies to adopt changes to systematically decrease environmental impacts due to the scale and complexity of their value chains.<\/li>
- \u2022\u00a0Difficulty to increase fashion industry acceptance to use\u00a0new wood-based fibres as they have different properties than traditional fibres, especially if producers do not work closely with designers and clothing brands.<\/li>
- \u2022\u00a0Need for business model change, as current consumerism driven by \u201cfast fashion\u201d stimulates the notion of garment disposability, resulting in increasing volumes of waste.<\/li>
- \u2022\u00a0Constrained consumer acceptance of limited options and increased price\u00a0for more sustainable alternatives, despite awareness of environmental issues.<\/li>
- Given the global distribution of the wood-based textile fibres value chain, more analyses capturing the entire value chain are required in the future.<\/li><\/ul>\n\n\n\n
Key messages:<\/h3>\n\n\n\n
(1)\u00a0Invest in the management of chemicals used in textile fibre production\u00a0by avoiding or considerably reducing the use of harmful chemicals, revamping the production process, and adopting circularity to minimize the generation of toxic wastewater.
(2)\u00a0Integrate man-made cellulosic fibre mills with pulp mills to improve energy self-sufficiency, given modern pulp mills produce an excess of energy from side streams and waste. The resulting decreased use of fossil fuels can considerably lower environmental impacts.
(3)\u00a0Only blend natural textile fibres, such as cotton with wood-based fibres, to help\u00a0improve fibre recyclability and reduce waste. Blending natural with synthetic fibres makes recyclability difficult and costly, so textile companies should carefully consider which fibres to mix.
(4)\u00a0New wood-based textile fibres are not meant to be direct substitutes for existing fibres.\u00a0Future studies should take into consideration the differences in properties of wood-based textile fibres and their non-wood counterparts, as well as the uncertainty in their market uptake when performing calculations on substitution factors and market projections.<\/p>\n\n\n\n<\/p>\n\n\n\n
Please note:\u00a0Wood-based textile fibres may substitute textile fibres made from other materials (e.g., petroleum-based fibres, cotton) by increasing in market share, and thereby avoiding or reducing greenhouse gas emissions associated with the production, use and disposal of these products.<\/em><\/p>\n\n\n\n