Halloween: 5 blood-sucking creatures

Aside from mosquitoes, which creatures feed on blood?


A surprisingly (or perhaps unsurprisingly) large number of species target blood. The essential sanguine fluid carries oxygen and nutrients to brains and, indeed, around the other parts of bodies. Superficially, blood may seem like a strange thing to consume. Not so – at least from an evolutionary perspective. It’s rich in protein and lipids – a power drink, if you can get to it. The trick is access.


As any fan of horror films can tell you, sucking blood relies on stealth. It requires piercing mouthparts, be they teeth, a needle-sharp proboscis or even a beak. It also often depends on special chemical contrivances to keep the blood flowing, inhibit the immune system from reacting and, of course, prevent your chosen victim from smacking you dead. Yet blood-feeding – haematophagy – has evolved again and again. And here are five examples…

Vampire bat

When we think of vampires, we think bats. But of more than 1,200 bat species, only one subfamily, Desmodontinae, has evolved a fondness for blood. The so-called vampire bats find mammals (or, in the case of one of the three extant species, birds) by listening for their victims’ breathing and, once landed nearby, sensing the heat of the blood’s friction beneath the skin to find the spot to bite. A bat can double in weight during a blod-sucking session.

The most common species, and the only one to feed on humans, is Desmodus rotundus. Though they transmit rabies, their overall impact on humans is beneficial. The active ingredient of the drug Desmoteplese, used to increase blood flow in stroke patients, is ananticoagulant found in the bat’s saliva. A bat might save your life.

Candiru fish

No man wants a fish to swim up his penis – which is just what one catfish, the candiru, is reported to do, though the frequency of such attacks may well be exaggerated. The candiru’s usual tactic is to swim inside the gills of a fish to suck blood from its major arteries. The blood is pumped at force by the host’s blood pressure into the submarine vampire, which delights not only in the blood itself but also in the lift it catches. Candiru have been shown to ride along with hosts for thousands of kilometres: theirs is the ultimate ‘lunch to go’.

Vampire moth

If you have any doubt about the irresistable temptation posed by the blood of humankind, you need only talk to Jennifer Zaspel, an entomologist at the University of Florida. She has discovered a group of formerly fructarian moths that at some point in recent history departed from their fruit-only diet in favour of human blood. The moth uses its hook-and-barb-lined mouthparts to pierce human skin and feed. It’s afascinating snapshot of a key step in the evolution of bloodsucking.

Sea lamprey

Marine mammals – lacking gills and proximity to fresh water – are exempt from assaults by the candiru (see above) but they are not entirely free from the attentions of vampires. Like salmon, the sea lamprey goes on amazing pilgrimages up rivers before returning to the sea, followed by its offsrping. But while the salmon that make it back to theopen ocean go about their business of eating small fish and invertebrates, an adult sea lamprey fastens its mouthpart – a sucker lined with rasping tongue and teeth – onto the skin of fish and whales and imbibes their blood.

Vampire finch 

Charles Darwin witnessed many curiosities in the Galapagos Islands – notably, of course, the many varieties of finch that informed his theories. But Darwin missed some things, among them the darker side of Geospiza difficilis spetentrionalis, a finch subspecies endemic to the Wolf and Darwin islands. Its main diet is seeds and insects. But the vampire finch also has a thirst for blood. It crawls onto the backs of seabirds and uses its long bill to peck into blood vessels at the bases of its host’s feathers. Itshome islands are some of the driest among the Galapagos, so perhaps it partakes of its gory refreshment for lack of another source of liquid.


Or perhaps not. It has been speculated that the first step in the finch’s road to parasitism was feeding on the ticks that feed on the seabirds. It may have evolved to cut out the middle-man, taking feed straight from the source.