All carbon footprints

What’s the carbon footprint of a waterproof shoe?

The average waterproof shoe emits
10.00-20.00 kg CO₂e

Available to measure with Arbor’s platform
The carbon footprint of waterproof footwear typically ranges from 10 to 20 kg CO₂e per pair, highlighting the environmental impact associated with their production and lifecycle. Understanding these emissions is essential for brands aiming to reduce their footwear emissions and improve sustainability.
Why do product carbon footprints (PCFs) matter?
Carbon Equivalent Calculator

What is a waterproof shoe's carbon footprint equivalent to?

Using Arbor’s Carbon Equivalent Calculator, let’s see what the average a waterproof shoe’s carbon emissions are equivalent to, assuming an average of 15.00 kg CO2e.

How can you reduce a waterproof shoe's carbon footprint?

Here are 3 ways you can lower the carbon or decarbonize your a waterproof shoe’s carbon footprint.

Sustainable Materials

Opt for sustainably sourced raw materials like recycled or eco-friendly fabrics.

Material Optimization

Opt for eco-friendly waterproof membranes like recycled polyurethane or biodegradable alternatives.

Material Efficiency

Choose eco-friendly waterproof membranes like biodegradable options.

Arbor's platform

Want to measure the carbon footprint of your waterproof shoe?

We make product-level carbon accounting simple, reliable, and tailored to footwear.

Waterproof Shoe
Manage
Waterproof Shoe
Carbon footprint
15.00 kg CO₂e
Versions & Prototypes
Versions
Carbon footprint
Waterproof Shoe
Active
15.00 kg CO₂e
Waterproof Shoe 2024
15.00 kg CO₂e
Waterproof Shoe 2023
15.00 kg CO₂e
Prototypes
Carbon footprint
Waterproof Shoe - 20% Recycled
15.00 kg CO₂e

FAQs

What is the carbon footprint of a waterproof shoe?

A waterproof shoe typically has a carbon footprint of around 15 kg CO2e. This includes production, materials, and transportation, reflecting the environmental impact of manufacturing durable footwear designed for wet conditions. The range can vary from 10 to 20 kg CO2e depending on materials and manufacturing processes.

How much CO₂ does a waterproof shoe emit?

A waterproof shoe emits approximately 15 kg CO2e. The range for similar products typically falls between 10 and 20 kg CO2e, depending on materials and manufacturing processes. This helps you gauge its environmental impact relative to other footwear options.

What are the main sources of emissions from a waterproof shoe?

The main sources of emissions from waterproof shoes include the production of materials like rubber and synthetic fabrics, as well as energy used during manufacturing. Packaging and transportation also contribute, with a typical carbon footprint around 15 kg CO2e for a pair of waterproof shoes.

How do I calculate the carbon footprint of a waterproof shoe?

To calculate the carbon footprint of a waterproof shoe, Arbor is the best way as they specialize in such assessments. Alternatively, you can use emission factors and conduct a lifecycle assessment (LCA) following standard protocols. The typical range for such shoes is around 10-20 kg CO2e, with an average of 15 kg CO2e.

Is a waterproof shoe sustainable?

Waterproof shoes can be sustainable if made with eco-friendly materials and ethical manufacturing processes. However, they often involve additional synthetic coatings or membranes that may increase their carbon footprint. On average, a waterproof shoe has a footprint of around 15 kg CO2e, but this can vary based on materials and production methods.

How can companies reduce the carbon footprint of a waterproof shoe?

Companies can reduce the carbon footprint of waterproof shoes by using eco-friendly materials like recycled plastics and natural rubbers. Implementing efficient manufacturing processes and optimizing logistics also help lower emissions. Typically, these shoes emit around 15 kg CO2e per pair, but with sustainable practices, companies can cut this footprint significantly.

Are waterproof shoes bad for the environment?

Waterproof shoes can have a higher environmental impact due to water-resistant materials and manufacturing processes, with a typical footprint around 15 kg CO2e. However, their durability and ability to keep your feet dry can reduce the need for replacements, potentially balancing out their environmental costs over time.

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