Vehicle details
Land Rover Range Rover Sport 3.0 SDV6 Autobiography Dynamic 5dr Auto Diesel Estate, , Unveiling the epitome of luxury and performance: the Land Rover Range Rover Sport Diesel 3.0 SDV6 Autobiography Dynamic, captivatingly finished in Firenze Red with a striking Piminto red interior. With a history cherished by two discerning owners, this vehicle promises an unparalleled driving experience.
Entertainment meets elegance with the CD/DVD player, ensuring a soundtrack to every journey. Command attention on the road with the impressive 22-inch gloss black alloys, perfectly complementing the Sport's bold design while delivering exceptional handling and stability.
Experience ultimate comfort in all climates with heated and cooled front seats, accompanied by heated rear seats for passenger indulgence. Embrace the outdoors with the sliding glass sunroof, allowing natural light to flood the cabin, while the black contrast roof adds a touch of sophistication.
Delight in the grandeur of the Grand Black veneer, elevating the interior ambiance to new heights of luxury. Whether navigating city streets or conquering off-road terrain, the Land Rover Range Rover Sport Autobiography Dynamic ensures every journey is a statement of style and performance.
Vehicle features
- Front and rear premium carpet mats
- Acoustic laminated front windows
- Gradient acceleration control
- Electronic air suspension with dynamic response (active roll control)
- Bluetooth connectivity
- Traffic sign recognition with adaptive speed limiter
- Powered gesture tailgate/boot lid
- Interactive Driver display instrument cluster
- Power fold
- auto-dimming
- heated door mirrors with memory and approach lights
- Engine cover
- DAB Radio (Digital Audio Broadcasting)
- Illuminated metal tread plates with brand name script
- Headlight power wash
- Pollen filter
- Lockable glovebox
- Configurable Ambient interior lighting
- TPMS (Tyre pressure monitoring system)
- Rear isofix
- Intrusion sensor
- Electrical towing preparation
- Electronic active differential with brake torque vectoring