https://tnuck.com/products/rose-bud-wildflower-hat8275841745118Exclusive Rose Bud Wildflower Hat240.00//tnuck.com/cdn/shop/products/pQTQV7zcA2kOhRfMHnDlZXzwoplK5EGl-1.jpg?v=1707323934//tnuck.com/cdn/shop/products/pQTQV7zcA2kOhRfMHnDlZXzwoplK5EGl-1_large.jpg?v=1707323934USDInStockAccessories425978396894A Spring Escape414964285662All Available416250659038All Products416000016606All Products BUT Exclude Promo Over 20%416267010270All Products BUT Private Label & Promo Exclusions428977783006Color Crush: Red416205930718Exclusive to Tuckernuck419341238494How to Wear Red427631378654In Bloom: Spring Accessories415361859806Ladies419745071326Ladies Accessories415074255070Ladies Hats419573203166Ladies Shoes & Accessories418147336414Mother's Day Gifts422843744478PS/SS24418753315038Sarah Bray Bermuda428496847070That Weekend Feeling426567827678The Guest Editor: Sarah Bray-West426942398686The Look: Amalfi Aesthetic418533507294The Vacation Shop428496912606Weekend Accessories
Sarah Bray Bermuda creates sustainable, biodegradable sun hats in an an effort to stop adding non-essential waste to our beautiful world.
A Tuckernuck exclusive, the retro-style Rose Bud Wildflower Hat fits like a bucket hat, but with an elevated look. Made from biodegradable palm tree leaves, this style features a brass grommet on each side so you can easily interchange looks! Featuring an intricate floral stitched ribbon, this classic style will perfectly compliment your warm-weather wardrobe. Wear with a bathing suit on the beach or with a maxi dress and espadrilles for strolling around town!
Sun hat
Wide brim
Ribbon (included)
Brass grommet on each side
Straw structure
Oversized fit
Material: Palm Tree Leaves
Care: If your hat is in need of reshaping, use a household steamer to mold the brim and crown into your desired shape. Store your hat in its original packaging or gently stuff its interior with colorless tissue paper.
Made from 100% natural palm tree leaves, giving them a lightweight feel with great solid sun coverage.
Note: There may be natural color differentiation within the weave.