Bufo melanostictus

About: Bufo melanostictus is a research topic. Over the lifetime, 196 publications have been published within this topic receiving 1168 citations.

Antimicrobial activity of skin secretions isolated from Indian toad, Bufo melanostictus Schneider 1799

Abstract: Amphibians like toads have been known to secrete antimicrobial secretions outside their body into their environments, through skin pores and parotid glands. Toad skin-secretions contain four types of compounds namely, biogenic amines, bufadienolides, alkaloids & steroids and peptides & proteins. Bulk of research relating to amphibian antimicrobial secretions has been done on frogs. In toads, such research has only been done in South America, Europe and China. Antimicrobial secretions vary considerably from specie-to-specie and drastically across various biomes. This prompted us to examine and confirm presence of antimicrobial activity (if any) in Indian Common Toad (Bufo melanostictus Schneider 1799) skin secretions since; no such analysis had been previously done on this toad which is found all across the South-east Asia. The antibacterial potency of toad skin secretions was tested against the bacteria, Escherichia coli. After running preliminary antibacterial analysis assays, we found that these cutaneous secretions retrieved from Indian Common Toad possessed potential bactericidal activity. The results that we got confirmed that some unexplored bactericidal components were present in skin secretions of these toads. These conclusions call for further research into biochemistry and molecular characterization of these components.

Invasive toxic prey may imperil the survival of an iconic giant lizard, the Komodo dragon.

Abstract: Although invasive species constitute a major threat to global biodiversity, the introduction of toxic prey into naive predator faunas may become particularly destructive. An example of such an introduction was the deliberate release of the highly toxic cane toad (Bufo marinus) to the toad-free Australian continent in 1935. Naive large Australian varanid lizards have recently been shown to suffer a massive increase in mortality (> 95%) when attempting to feed on this toxic amphibian. The high susceptibility of Australian varanids to toad toxin is caused by minor mutations in the sodiumpotassium- ATPase enzyme. In the present study we show that Komodo dragons (Varanus komodoensis) have similar mutations within this enzyme as observed in Australian varanids demonstrating that dragons are extremely susceptible to toad toxin. During the last decade the black-spined toad (Bufo melanostictus) has been able to invade areas close to the five toad-free islands constituting the habitat of Komodo dragons. An invasion of highly toxic black-spined toads into dragon habitats may therefore cause similar dramatic increase in dragon mortality as recorded in Australian varanids imperiling the long-term survival of this giant and iconic lizard.