This comprehensive guide introduces the delicate glass frog, known for its translucent skin and unique behavior. Covering care, habitat setup, feeding, breeding, and conservation, it is ideal for exotic amphibian enthusiasts and terrarium hobbyists. Learn about their rainforest ecology, nocturnal habits, and species-specific needs. With practical instructions for maintaining optimal conditions, this book ensures your glass frogs thrive in captivity while promoting conservation awareness. Glass frogs are members of the amphibian family Centrolenidae, a lineage of predominantly arboreal frogs renowned for their partially or fully transparent ventral skin. This unique adaptation allows observers to see the internal organs-heart, liver, digestive tract-through the belly, a characteristic that has fascinated herpetologists, educators, and wildlife enthusiasts alike. Although their dorsal surfaces often appear in varying shades of green, helping them blend into foliage, it is their ventral transparency that has inspired their common name. Glass frogs are generally small, with adult body lengths ranging from approximately 2 to 8 centimeters depending on the species. They are nocturnal insectivores, relying heavily on stealth and camouflage to avoid predators, and their life cycles remain closely tied to the clean, flowing streams where they breed. This combination of visual novelty and ecological specialization has elevated glass frogs to a position of scientific and conservation interest throughout their range.One of the most striking features of glass frogs is their translucent or transparent ventral skin, a trait rarely seen in terrestrial vertebrates. Through the abdominal skin, observers can view the beating heart, pulsing arteries, coiled intestines, and even developing eggs in gravid females. The dorsal surface, in contrast, is typically opaque green, providing camouflage among leaves while maintaining the visual novelty that captivates researchers and hobbyists. The degree of transparency varies among species and may be influenced by pigment distribution, skin thickness, and microscopic structural arrangements that scatter light differently across body regions. From an evolutionary perspective, the function of this transparency is still debated. Some studies suggest it may help break up the outline of the frog's body when viewed from below, blending the frog's silhouette into the leaf it rests on. Others propose that the transparency evolved as a byproduct of other adaptations rather than as direct camouflage. Regardless of its evolutionary pathway, this unique anatomy has made glass frogs a focal point for research into amphibian physiology, light scattering in biological tissues, and even biomimetic design in optics. In herpetology, their unusual appearance continues to inspire both field investigations and public curiosity, making them powerful ambassadors for amphibian diversity.