The fire salamander (Salamandra salamandra) is a common species of salamander found in Europe.
It is black with yellow spots or stripes to a varying degree; some specimens can be nearly completely black while on others the yellow is dominant. Shades of red and orange may sometimes appear, either replacing or mixing with the yellow according to subspecies. This bright coloration is highly conspicuous and acts to deter predators by honest signalling of its toxicity (aposematism). Fire salamanders can have a very long lifespan; one specimen lived for more than 50 years in Museum Koenig, a German natural history museum.
Despite its wide distribution and abundance, it is classified as Vulnerable on the IUCN Red List due to its susceptibility to infection by the introduced fungus Batrachochytrium salamandrivorans, which has caused severe declines in fire salamanders in parts of its range.
The diet of the fire salamander consists of various insects, spiders, millipedes, centipedes, earthworms and slugs, but they also occasionally eat newts and young frogs. In captivity, they eat crickets, mealworms, waxworms and silkworm larvae. Small prey will be caught within the range of the vomerine teeth or by the posterior half of the tongue, to which the prey adheres. It weighs about 40 grams. Compared to other salamanders in the region like Luschan's salamander, the fire salamander has been shown to be larger and appears to have a more solid pectoral girdle. Additionally, it has a longer pectoral girdle than Luschan's salamander. The fire salamander is one of Europe's largest salamanders and can grow to be long.
Reproduction
Males and females look very similar, except during the breeding season, when the most conspicuous difference is a swollen gland around the male's vent. This gland produces the spermatophore, which carries a sperm packet at its tip. The courtship happens on land. After the male becomes aware of a potential mate, he confronts her and blocks her path. The male rubs her with his chin to express his interest in mating, then crawls beneath her and grasps her front limbs with his own in amplexus. He deposits a spermatophore on the ground, then attempts to lower the female's cloaca into contact with it. If successful, the female draws the sperm packet in and her eggs are fertilized internally. The eggs develop internally and the female deposits the larvae into a body of water just as they hatch. In some subspecies, the larvae continue to develop within the female until she gives birth to fully formed metamorphs. Breeding has not been observed in neotenic fire salamanders.
In captivity, females may retain sperm long-term and use the stored sperm later to produce another clutch. This behavior has not been observed in the wild, likely due to the ability to obtain fresh sperm and the degradation of stored sperm.
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This salamander is also a "beginner" pet, despite being a toxic defensive amphibian. 1-2 fire salamanders can live in a 22 gallon aquarium. -->
Toxicity
thumb|Samandarin structure
The fire salamander's primary alkaloid toxin, samandarin, causes strong muscle convulsions and hypertension combined with hyperventilation in all vertebrates. Through an analysis of the European fire salamander's skin secretions, scientists have determined that another alkaloid, such as samandarone, is also released by the salamander. These steroids can be swabbed from the salamander's parotid glands. Samandarine was often the dominant alkaloid present but the ratio varied between salamanders. This ratio, however, was not shown to be sex dependent. The fire salamander in the Netherlands is teetering on the brink of extinction, confined to three small populations in the southern part of the country. Prior to these declines, they were already listed as "Endangered" on the national Red List, and their range had reduced by 57% since 1950, mainly due to changes in water availability and habitat degradation. The remaining populations were limited to specific areas of deciduous forests on hillsides, and their surface activity is restricted to humid periods with night temperatures above 5°C.The species had been considered stable until 2008 when dead individuals were observed, and since 2010, there has been a staggering 96% population decline, with the largest population dropping from 241 individuals to only four in 2011. In 2013, the cause of the decline was officially identified as a new chytrid fungus, Batrachochytrium salamandrivorans (Bsal), likely introduced to Europe from east Asia via captive amphibians.
Since its identification in the Netherlands, Bsal has continued to spread across western Europe, and has infected more populations of S. s. terrestris in Belgium and western Germany, with an isolated but contained occurrence in Spain affecting a population of S. s. hispanica. Dramatic declines have been noted in all affected populations, and some may eventually be entirely extirpated, although at most known sites, fire salamanders persist at low numbers even after disease outbreak, and in one case appear to have recovered. Some localities in the Eifel Mountains where fire salamanders were previously known from appear to now be devoid of fire salamanders, suggesting landscape-scale declines that occurred prior to the disease's identification by science. In 2023, the fire salamander was officially moved from 'Least Concern' to 'Vulnerable' on the IUCN Red List, relating to the past and predicted future declines in the species.