
Runway Shows
Stella McCartney Spring 2020

Stella McCartney SS20
About the Stella McCartney Spring 2020 collection: An ode to wild women, risk takers and those who shine their light bravely, the collection clashes natural beauty with modernity, fluid with graphic and eccentricity with simplicity, to build up structure and break it down—expressing strength of heart and a defiant spirit. Continuing to push our eco practices even further, we celebrate this collection as our most sustainable ever, with over 75% of the ready-to-wear made from environmentally-friendly materials. 90% of all of the cotton used is organic, and 100% of the denim, while accessories introduce hemp and sustainable raffia. Photographic florals are personal memories from Stella—captured on her bike rides through the English countryside—while reimaginations of the power suit cast us back to her early Savile Row tailoring. These intentionally mismatched pieces are made from Japanese recycled polyester for a sharpness and a luxurious sheen. Embroidery ushers in a sense of artistry and eccentricity. Bold stripes are a defining statement throughout, but are then sliced by cut-outs and silhouettes that reveal unexpected circular pattern cutting. This shape is also represented in this season’s hero bag, hand woven onto a metal frame. A guiding force for Stella, the circular symbol represents life, vitality and femininity

Already obssesed with Stella’s big acetate frames!

SHOP NOW: Stella McCartney + Hunter rubber and Yulex ankle boots available at STELLAMCCARTNEY.COM NET-A-PORTER
* * The natural rubber used in the boot is sourced from sustainably-managed, certified forests in Guatemala, guaranteeing that no rainforests were culled to farm the trees used and protecting the wellbeing of workers and local communities. The stretch sock insert is made from a material called Yulex™, which is also made from certified natural rubber. This material is used to replace traditional neoprene, generating 80% less climate-altering carbon dioxide but delivering near-identical performance in terms of strength and elasticity.
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