As with other members of its family, the common torpedo can subdue prey and deter threats with strong
electric shocks generated from a pair of large electric organs. Derived from
muscle tissue, each organ is made up of 400–500 columns, each column constituting a stack of around 400 jelly-filled disks ("electroplaques"). The columns together essentially act as
batteries connected in parallel. The discharge of the electric organs can reach 200
volts, and may occur singly or in bursts ("trains"). Experiments
in vitro have found that the
nerves innervating the electric organ essentially stop functioning at temperatures below . Winter water temperatures regularly drop below this threshold in the wild, suggesting the ray may not use its electric organs for part of the year, or has a yet-unknown physiological mechanism to adapt electric organ function to colder conditions. Solitary and
nocturnal, the common torpedo spends much time resting on the sea floor, often buried in sediment. It is an
ambush predator that pounces onto prey and stuns them with electricity, the process taking only a fraction of a second. Once the prey is immobilized, it is manipulated to the mouth with motions of the disc, and swallowed whole. Adults feed almost entirely on small
benthic bony fishes, including
soles,
herring,
mullet,
gobies,
goatfishes,
porgies,
dragonets, and
jack mackerels. Large
decapod crustaceans are a minor secondary food source, while very rarely
skates may be consumed. Juveniles are less exclusively
piscivorous than the adults and feed on a variety of
invertebrates as well. The most significant prey species differ between seasons and geographic regions. For example, in the
Tyrrhenian Sea, juvenile
common sole (
Solea solea) are by far the most important prey item in autumn and winter, but in spring and summer they become less available and other fishes figure more prominently in the ray's diet. Known
parasites of this species include the
tapeworm Phyllobothrium lactuca, and the
monogeneans
Amphibdella paronaperugiae and
Amphibdelloides benhassinae.
Life history The common torpedo is
aplacental viviparous, in which the
embryos are sustained by
yolk, supplemented by
histotroph ("uterine milk") secreted by the mother. However, the organic content of the histotroph in this species is only 1.2%, much lower than in
stingrays, and the embryo loses mass over the course of development as its initial yolk supply is expended for
metabolic processes. Adult females have two functional
ovaries and two functional
uteruses, though the reproductive tract on the right side is more developed and consequently tends to carry more
embryos. It has an annual reproductive cycle with well-defined
seasonality, though the details differ between geographic regions. In the Mediterranean,
mating occurs from December to February and birthing from late August to early September after a
gestation period of 4–6 months; litter sizes range up to 19 and the newborns measure long. By contrast, off West Africa the gestation period lasts 6–8 months and birthing occurs from September to October; litter sizes range up to 28 and the newborns measure long. The litter size increases with female size. Sexual segregation occurs during the breeding season as pregnant females move into shallow coastal waters. The common torpedo is unusual among
sharks and rays in that birthing has been documented both at higher and at lower
salinities than
seawater, in
estuaries and
lagoons. Immediately after birth, this species is capable of producing electric shocks of up to four volts. Newborns grow rapidly, with a commensurate increase in electrogenic capacity: after four months, they almost double in weight and can generate 26 volts. Males and females
mature sexually at similar lengths: respectively in the Tyrrhenian Sea, respectively off
Egypt, for both off
Tunisia, and respectively off
Senegal. ==Human interactions==