The adidas Supernova 2.0 is being launched as part of the brand's partnership with Parley for the Oceans as an eco-friendly footwear style created with support and sustainability in mind.
The sneakers come in four color options including Carbon, Chalk White, Silver Violet and Coral Fusion, which are all constructed with Parley Ocean Plastic. The sneakers each feature BOOST and Bounce cushioning to provide just the right level of support for a wide range of activities and wearer needs.
The adidas Supernova 2.0 sneakers will be launched on February 15, 2023 via the brand's website at 3am and will be priced at $120 per pair. The sneakers are part of a larger movement towards more sustainable fashion styles as consumers seek out ways to reduce their impact on the environment.
Supportive Ocean Plastic Sneakers
The adidas Supernova 2.0 is Being Launched in Four Colors
Trend Themes
1. Sustainable Footwear - The launch of the adidas Supernova 2.0 sneakers made with Parley Ocean Plastic showcases a trend towards more eco-friendly and sustainable footwear options.
2. Collaborative Partnerships - The partnership between adidas and Parley for the Oceans demonstrates a trend towards collaborative partnerships in creating sustainable and environmentally friendly products.
3. Consumer Demand for Sustainability - The launch of the adidas Supernova 2.0 sneakers reflects a trend of consumer demand for more sustainable fashion choices and concern for the environment.
Industry Implications
1. Fashion - The fashion industry is being disrupted by an increasing demand for sustainable and environmentally friendly fashion products like the adidas Supernova 2.0 sneakers.
2. Sportswear - The sportswear industry can benefit from the rise of sustainable and eco-friendly products like the adidas Supernova 2.0 sneakers, creating opportunities for innovation.
3. Environmental Conservation - The partnership between adidas and Parley for the Oceans reflects a trend towards the industry's role in protecting the environment and supporting conservation efforts.