Cult Gaia Sage Sandal
Cult Gaia
$658.00
Product Insights & Style Tips
The Cult Gaia Sage Sandal in green reads like a sculpted moment for warm-weather wardrobes. The sheep leather upper feels soft to the touch, set on a reconstituted leather sole for a clean, modern line. A square toe keeps things graphic while a slender stiletto heel rises to approx 90mm / 3.5 inches, and the hand-sewn beads catch light with every step. Slip-on styling makes it easy to reach the moment.
With a cushioned leather footbed, the Sage Sandal stays comfortable all day and night. The slip-on form hugs the foot, while the heel brings lift without destabilizing the stride. The beads add texture without overpowering the look, so it layers well with everything from breezy dresses to tailored pants. It moves from daytime gatherings to after-dark dinners with the same confident ease.
An emblem of Cult Gaia's art-forward mood, the Sage Sandal speaks to the label's lineage of sculptural accessories. The combination of raw leather, beadwork, and a clean silhouette makes it feel like an heirloom piece you reach for again and again, seamlessly joining elevated resort style with city cool.
Materials / Fabrication
- Sheep leather upper
- Reconstituted leather sole
- Color: Sage Green
- Made in Brazil
- Slip-on styling
- Cushioned leather footbed
- Square toe
- Hand sewn beads
- Stiletto heel
- Heel height approx 90 mm / 3.5 inches
Recommended Care
- Wipe clean with a soft, damp cloth; avoid soaking leather
- Condition leather periodically to maintain suppleness
- Avoid prolonged moisture and direct sunlight
- Store in a cool, dry place; use shoe trees or stuffing to help maintain shape
- Protect the beaded detailing by avoiding abrasion; spot clean beads with a mild damp cloth if needed
Fit Notes
- Slip-on styling with a cushioned leather footbed supports easy on and off.
- Square toe shape combined with a 3.5 inch stiletto heel defines a sleek silhouette.
- Sheep leather upper with a reconstituted leather sole conveys a premium finish.
- The heel height may influence stability on uneven surfaces during wear.
