Welcome to our Scottish Collection of artisan, vegan friendly soaps, handcrafted and inspired by the people and places of Scotland!
Hebridean Dawn was inspired by my travels around the Western Isles of Scotland. The islands vary dramatically in landscape - from the magestic mountains of Harris to the lower loch peppered peat lands of Lewis, and from the beautiful beaches of Barra to the wild flower machair of Tiree. However, they all have one thing in common - big, big skies that can bring brilliant blue summer's days or wild and windy weather straight off the Atlantic. One of my favourite things to do while visiting the islands is to get up just before dawn and enjoy my first cuppa of the day watching the sky change from deep inky blue, through shades of pink, gold and cerulean.
This soap is also part of our Fine Fragrances collection. A refreshing fragrance with fruity top notes of citrus, orange, and rhubarb. Floral middle notes of jasmine, lily of the valley and orris. Musky bottom notes of amber, complex white woods and white musk.
90g
Also available as a mini soap.
Hebridean Dawn Soap
Ingredients: sodium olivate (olive oil), sodium cocoate (coconut oil), sodium shea butterate (shea butter), glycerine, sodium sweet almondate (sweet almond oil), aqua, parfum, CI 77891, 77019, 77491, 77742, 77007, 77862, apha-isomethyl ionone, hydroxycitronellol, linalool, limonene
If irritation occurs, discontinue use.
Our bars do not contain any animal products, are suitable for vegans and are not tested on animals.
As our bars are handmade in small batches with natural or nature identical ingredients, the shape, size, scent, colour and appearance can vary slightly between batches.
Please note that natural colours and scents may also fade over time. When not in use store in a cool, dark place and use within 6 months of purchase for best results.
Store your bars on a well-drained soap dish between uses and they will last a long time.
Highly pigmented soaps can stain pale coloured wash cloths. Avoid prolonged exposure to porous surfaces.