SIG Terra Forest-based polymers**
Linked to up to 95% forest-based renewable materials
Meet the demand for sustainable packaging for all filled goods by combing any standard SIG standard packaging material with polymers linked to forest-based renewable materials
using the ISCC mass balance approach. It reduces the already low carbon footprint of SIG standard packaging material by up to -41%*.
![](https://api.sig.biz/media/fz4eu5gu/sig-terra-forest-based-neutral.jpg?cc=0.08489910594989562,0.39090705589481484,0.09951288465553232,0.12118047049386278&width=1812&height=1084&format=webp&rnd=133488516000600000)
![](https://api.sig.biz/media/jkbcs43k/co2.png?width=80&height=80&format=webp&rnd=133487446568070000)
![](https://api.sig.biz/media/cyppwwjp/forest-2.png?width=80&height=80&format=webp&rnd=133487446559670000)
![](https://api.sig.biz/media/5h2ncxi0/hands_holding_leaves_sky_400px.png?cc=0,0,0,0&width=80&height=80&format=webp&rnd=133482612481800000)
Responsibly sourced raw materials
All three key raw materials come from certified responsible sources via mass-balance systems. The paperboard is from FSC™-certified (FSC™ trademark licence code: FSC™ C020428) forests and other controlled sources; the polymers are linked to ISCC PLUS certified forest-based renewable materials, and the ultra-thin layer of aluminum is covered by Aluminium Stewardship Initiative (ASI) certification.
ISCC PLUS certified forest-based polymers
The polymers used for the closure and the lamination of the paperboard are linked to wood residues from paper-making through a mass-balance system, independently certified by ISCC PLUS (International Sustainability & Carbon Certification).
*Based on independent ISO-compliant life-cycle assessments cradle to grave for Europe
** Using a mass-balance approach
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