Saskatchewan

Sask. fashion student wins award for tobacco-based project

Elise Comrie, a Saskatchewan-born fashion student, has won the 2016 Kering Award for Sustainable Fashion for her project Tailored Tobacco.

Tobacco dye more environmentally friendly than chemical dyes, says Elise Comrie

Elise Comrie, centre, was recognized with an award for her Tailored Tobacco project. (Submitted by Simone Fiore)

A tobacco-inspired project has netted a Saskatchewan-born student a Kering Award for Sustainable Fashion.

Elise Comrie's project Tailored Tobacco is a collaboration with designers Suzanne DeVall and Dimora Colors to design a jacket using tobacco dyes.

Comrie, who was born in Regina but grew up in Saskatoon, is a Master's student at the London College of Fashion. 

I really felt as part of my heritage as a Canadian and someone from Saskatchewan that tobacco is a sacred plant.- Elise Comrie

Tobacco dyes are more sustainable than traditional chemical dyes used by fashion companies, said Comrie. When a chemical dye is used on products, the aftermath of the process involves dumping the remnants of the dye product into water, she said. 

"[It's] really addressing the need for natural dyes where the water comes out clean and that's what's so exciting about tobacco dye," Comrie said. 

She wanted to incorporate tobacco into the project because she felt a connection to it. 

"I really felt as part of my heritage as a Canadian and someone from Saskatchewan that tobacco is a sacred plant," she said. 

Comrie added that tobacco has healing benefits that aren't talked about as much.

"It has been seen in one negative dimension and I really wanted to bring a sustainability project to Kering that meant something more to me than just another sustainability angle," Comrie said.

In addition to the award, Comrie has won an internship with Italian designer Brioni. 

She will depart for Rome in the new year to join a small team of designers.

Comrie said, "It is really exciting to be working at that level."

With files from Nicole Lavergne-Smith