What makes a good home for a crowned tree frog Triprion spinosus? That’s the question Smithsonian scientists set out to answer as they work to reintroduce captive-bred frogs back into their natural habitat.
In the wild, male crowned tree frogs are picky about real estate. They search for water-filled tree cavities where they call out to potential mates. If a female approves of his choice, she’ll lay her eggs in that carefully selected pool.
But when releasing frogs bred under human care, researchers wanted to stack the odds in their favor. The solution? Build artificial tree holes from different materials and let the frogs choose their favorites.
Newly released frogs began exploring right away, and we were able to track their movements for the first few weeks using a radiotransmitter. Before long, their calls echoed through the forest as they settled into their new homes, we will continue monitoring the artificial tree holes to see if we get any eggs laid in these structures and continue to explore other tree hole designs.
This research is part of the Tropical Amphibian Research Initiative, supported by the Bezos Earth Fund and conducted through collaboration among the Panama Amphibian Rescue and Conservation Project.
When conservationists prepare to release endangered species back into the wild, they face a critical question: how do we give them the best chance at survival? For the lemur leaf frog (Agalychnis lemur), a species that has vanished from most known sites across its range, researchers are literally thinking outside the box.
Rather than releasing adult frogs directly into Panama’s forests, our research team took an innovative approach: introducing tadpoles bred in human care into large soft-release containers in the wild. Half of the containers were treated with antifungals to see if protecting animals at this critical stage can help frog survival. This early intervention targets one of amphibians’ most devastating threats—the chytrid fungus Batrachochytrium dendrobatidis (Bd)—at a vulnerable life stage, potentially offering protection as the tadpoles metamorphose into adult frogs.
Agalychnis lemur breeds in slow-flowing swampy conditions. The species has experienced dramatic chytridiomycosis-related declines and has disappeared from most known sites, including a formerly occupied location in Altos de Campana National Park. While the species is breeding well in captivity and showing signs of recovery at a few sites in Costa Rica and Panama, these release trials could inform recovery efforts at many sites where this species has disappeared.
Previous research has shown promising results with fungicide treatments in artificial pond environments. Studies found that commonly used agricultural fungicides can reduce or eliminate Bd infections in susceptible tadpoles, with the fungicide degrading quickly and causing no significant harm to pond ecosystems or invertebrate communities.
This lemur leaf frog project brings together expertise from multiple institutions, including Gonçalo Rosa from IMIB Biodiversity Research Institute (CSIC) and ZSL, along with partners from the Panama Amphibian Rescue and Conservation Project, the Cheyenne Mountain Zoo, and Zoo New England. By creating artificial breeding points that can be safely treated with antifungal agents to reduce pathogen loads, the team is developing a replicable model that could help other endangered amphibian species facing similar threats.
The experiment is now underway, and researchers are monitoring whether this early antifungal protection helps the tadpoles survive disease once they complete metamorphosis. The results could inform future amphibian reintroduction programs worldwide, offering a practical tool in the fight against one of the most destructive wildlife diseases on the planet.
This research represents a collaborative effort to develop evidence-based conservation strategies for critically endangered amphibians in the face of emerging infectious diseases called the Tropical Amphibian Resilience Initiative funded by the Bezos Earth Fund and other donors to the Panama Amphibian Rescue and Conservation Project.
