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Option 5 – Substitution

In This Section

The following actions, individually or collectively, will contribute to achieving the outcomes of reducing the environment impacts of secondary & tertiary packaging thru substitution to more sustainable forms of packaging.

Available Courses of Action

  • Action 1 – Adopt Certified Compostable Packaging
  • Action 2 – Adopt Biobased Packaging (including papers) that enable recyclability

Action 1 – Adopt Certified Compostable Packaging

The adoption of certified compostable packaging can reduce the environmental impacts of packaging, notably when the packaging is typically not recycled due to the presence of food waste. In those instances, compostable packaging can increase the redirection of food waste while avoiding undue contamination of industrial composting systems. In instances where packaging applications are likely to result in food waste or food cuttings, certified compostable packaging is worthy of consideration.

The following use case(s) provide examples of where the adoption of certified compostable packaging has been demonstrated for secondary & tertiary packaging.

Use Cases
Use CaseInnovationApplication Release to Market
EcovativeReplaces plastic protective packaging by combining lab-grown mycelium (mushroom roots) with agricultural byproducts to create a home-compostable substitute.Food examples: jarred sauces, honey2007

Action 2 – Adopt Biobased Packaging (including papers) that enable recyclability

The adoption of biobased packaging, including papers, can result in more recyclable or sustainable packaging solutions than some commonly used packaging forms. In instances where non-recyclable plastic packaging can be replaced with alternatively recyclable materials, notably papers, the adoption of such biobased options should be considered. A key consideration when exploring biobased options is the overall life cycle impact of substituting to biobased packaging, notably any changes in greenhouse gas emissions and net overall carbon footprint.

The following use case(s) provide examples of where the adoption of biobased packaging has been demonstrated for secondary and tertiary packaging.

Use Cases
Use Cases are currently being identified and reviewed

Supporting Resources

Useful resources to consider as you explore applying one or more of the above actions to secondary & tertiary packaging include:

General Information
  • Contamination at Composting Facilities March 2024
    Closed Loop Partners

    To support the industry in addressing contamination at scale, the Consortium conducted an in-field study with 10 U.S. compost manufacturers to measure and characterize contamination across different points of the composters’ processes––and analyzed the financial cost to composters to handle contamination. The study examines five commonly held assumptions about contamination and compostable packaging, and breaks down in-field realities in a data-backed and easy-to-follow format. 

  • Model Principles for Labelling Compostable Products
    BPI and US Composting Council

    Lists the top 10 key principles of labelling compostable products

  • Methodology for the Assessment of Bioplastic Feedstocks February 2022
    Bioplastic Feedstock Alliance

    This study aligns with WWF’s vision of no plastics in nature by 2023, by prioritizing the reduction of unnecessary plastics and ensuring the necessary plastics are being reused and recycled. Highlights that the responsible sourcing of bio-based plastics can play a role in infusing new materials into a circular plastics system to address unavoidable material loss and degradation during recycling operations.