GetBuddy Logo

Flaviana BLT

Available
3-7 years|Jack Russell Terrier, Papillon|Female|Small|Missouri City, TX
🐾 Friendly🤗 Affectionate🎾 Playful🚽 House Trained🧑‍🧒‍🧒 Good with Children

Flaviana BLT is a small, female dog with a medium-length coat, weighing 11 lbs. She has a striking appearance with her white and cream fur highlighted by touches of yellow and tan. While she isn’t housetrained yet, she is spayed and current on vaccinations. Flaviana is located in Missouri City, TX.

About Flaviana BLT

Flaviana BLT is a charming young dog currently residing in Houston, Texas. She's a mixed breed, with Jack Russell Terrier and Papillon heritage, showcasing a delightful blend of intelligence and affection. Flaviana’s coat has a lovely medium length and she shines in her white and cream with touches of yellow and tan. At around 11 lbs, she’s small enough to fit comfortably in your lap but has a spirited personality that keeps things lively. While not yet housetrained, she’ll thrive with patience and the right guidance. Flaviana is spayed and up to date on vaccinations, making her ready for her new home. Please note that adoption will take place without a pre-meeting, so it’s essential to make sure she’s the right fit for you. The adoption fee will cover transport, her shots, microchip, and rabies vaccination. If you're interested, reach out to Mutts and Meows at MuttsAndMeows@Mail.com to start the adoption process. What are you waiting for? Apply today!

Questions about Flaviana BLT

  • What type of living environment is this breed usually best suited for?

    Flaviana BLT thrives in a loving home where she can have companionship and care, ideal for both city and suburban settings.

  • How much outdoor space does this breed typically need?

    A modest yard or access to nearby parks can suit Flaviana’s exercise needs, allowing her to explore and play.

  • Is this breed typically suitable for homes with children?

    Flaviana is friendly; however, supervision around young children is recommended to ensure a smooth interaction.