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It is often said that the male (usually significantly smaller than the female, down to 1% of her size as seen in Tidarren sisyphoides) is likely to be killed by the female after the coupling, or sometimes even before intercourse has been initiated. This supposed propensity is what gave the black widow spider, Latrodectus mactans, its name. However, the three species of North American black widows do not usually kill the male (although they have been known to do so). Males can sometimes even live in the web of a female for a while without being harmed in any way. The male Australian redback spider Latrodectus hasselti is killed by the female after he inserts his second palpus in the female genital opening; in over 60% of cases the female then eats the male.
Although the male Latrodectus hasselti may sometimes die during mating without the female actually consuming him, this species represents a possible strategy of "male sacrifice." The male redback, while copulating, "somersaults" and twists his abdomen directly onto the fangs of his mate. Approximately 65% of males are consumed at this stage. Males that "sacrifice" themselves gain the benefit of increasing their paternity relative to males who do not get cannibalized.
However, despite these examples and many other similar reports, the theory of the "sacrificial male" has become greater than the truth. Mating of spiders is not always followed by cannibalism. Indeed, scholars have noted that the "supposed aggressiveness of the female spider towards the male is largely a myth" and that cannibalism only occurs in exceptional cases. Even so, spider cannibalism has been shown to occur in some species more than in others, mainly species belonging to Latrodectus.
There has always been speculation on why this sacrifice of male mates might occur despite the fact that there is an obvious disadvantage to the sacrificial males. One theory is that once the male has mated, he is unlikely to mate again and so any further extension of his life is of lesser evolutionary benefit than his indirectly contributing nutrition to the eggs. Having more offspring would give the male the advantage of having his genes passed on over other males that might avoid being eaten. This scenario would be consistent with the hypothesis of Roberts that old or unfit males get eaten, whilst younger and fitter ones may survive to mate again.
Reversing the traditional roles, species that have males consuming females are relatively unknown; the few that do show a male-biased sexual dimorphism. Examples include Allocosa brasiliensis, Evarcha culicivora, and Argyronetia aquatica. Male water spiders, Argyronetia aquatica, show a predilection for mating with larger females, while cannibalizing females smaller than themselves.
As is the case with Allocosa brasiliensis, males cull older females who are less fertile than their young counterparts.
Some spiders, such as Pholcus phalangioides, will prey on their own kind when food is scarce. Also, females of Phidippus johnsoni have been observed carrying dead males in their fangs. This behavior may be triggered by aggression, where females carry over hostility from their juvenile state and consume males just as they would prey. Sih and Johnson surmise that non-reproductive cannibalism can occur due to a remnant of an aggression trait in juvenile females. Known as the “aggressive spillover hypothesis,” this tendency unselectively to attack anything that moves is cultivated by a positive correlation between hostility, foraging capability, and fecundity. Aggression at a young age leads to an increase in prey consumption and as such, a larger adult size. This behavior “spills over” into adulthood, and shows up as a nonadaptive trait that manifests itself through adult females preying on males of their same species.