Pumpkin toadlet
The pumpkin toadlet, or Spix's saddleback toad, is a small and brightly coloured species of frog in the family Brachycephalidae. This diurnal species is endemic to southeastern Brazil where it is found among leaf litter on the floor of Atlantic rainforests at an altitude of. It is found in Espírito Santo, Rio de Janeiro, southeastern São Paulo and southeastern Minas Gerais. Although its type specimen supposedly was collected in Bahia about 200 years ago, there are no confirmed localities in this state and recent reviews consider it more likely that it was from Rio de Janeiro. B. ephippium is locally common, quite widespread compared to most other species of Brachycephalus and it is not considered threatened.
B. ephippium feeds on tiny invertebrates and breeding is by direct development, with the female laying a few eggs on land that hatch into young toadlets.
Appearance and toxicity
B. ephippium is a very small frog with a snout–to–vent length of in adults, but it is among the largest in its genus together with species like B. darkside, B. garbeanus and B. margaritatus. Females tend to be larger than males. Newly-hatched B. ephippium typically measure just.While newly-hatched B. ephippium are well-camouflaged and brown, adult B. ephippium are bright yellow-orange, which is considered aposematism, warning potential predators of its toxicity, like 11-oxotetrodotoxin. Extremely rare in other animals, even marine species, 11-oxotetrodotoxin is considered four to five times more potent than tetrodotoxin itself. Other analogues isolated from this species include tetrodonic acid, 4-epipetrodotoxin, 4.9-anhydrotetrodotoxin and 11-nortetrodotoxin. The toxins can be found in their skin and ovaries, but are mostly concentrated in the liver.
In 2019, scientists discovered that the head and back of this toadlet and the closely related red pumpkin toadlet glowed under ultraviolet light, due to their fluorescent skeletons. Juveniles that have gained the bright yellow-orange adult colours still lack fluorescence. It was initially speculated that the fluorescent colour also is aposematic or that it is related to mate choice, but later studies indicate that the former explanation is unlikely, as predation attempts on the toadlets appear to be unaffected by either presence or absence of fluorescence.