is rarely seen flying. The cuckoos are, for the most part, solitary birds that seldom occur in pairs or groups. The biggest exception to this are the anis of the Americas, which have evolved cooperative breeding and other social behaviours. For the most part, the cuckoos are also diurnal as opposed to nocturnal, but many species
call at night (see below). The cuckoos are also generally a shy and retiring family, more often heard than seen. The exception to this is again the anis, which are often extremely trusting towards
humans and other species.
Diet and feeding Most cuckoos are
insectivores, and in particular are specialised in eating larger insects and
caterpillars, including noxious, hairy types avoided by other birds. They are unusual among birds in processing their prey prior to swallowing, rubbing it back and forth on hard objects such as branches and then crushing it with special bony plates in the back of the mouth. They also take a wide range of other insects and animal prey. Larger, ground types, such as coucals and roadrunners, also feed variously on snakes, lizards, small rodents, and other birds, which they bludgeon with their strong bills. The
lizard cuckoos of the
Caribbean have, in the relative absence of
birds of prey, specialised in taking
lizards. Ground species may employ different techniques to catch prey. A study of two coua species in Madagascar found that
Coquerel's coua obtained prey by walking and gleaning on the
forest floor, whereas the
red-capped coua ran and pounced on prey. Both species also showed seasonal flexibility in prey and foraging techniques. is mostly
frugivorous. The parasitic cuckoos are generally not recorded as participating in
mixed-species feeding flocks, although some studies in eastern Australia found several species participated in the nonbreeding season, but were mobbed and unable to do so in the breeding season. Ground cuckoos of the genus
Neomorphus are sometimes seen feeding in association with
army ant swarms, although they are not obligate
ant followers, as are some
antbirds. The anis are ground feeders that follow cattle and other large mammals when foraging. In a similar fashion to
cattle egrets, they snatch prey flushed by the cattle, so enjoy higher foraging success rates in this way. Several koels, couas, and the channel-billed cuckoo feed mainly on fruit, but they are not exclusively
frugivores. The parasitic koels and channel-billed cuckoo in particular consume mainly fruit when raised by frugivore hosts such as the
Australasian figbird and
pied currawong. Other species occasionally take fruit, as well. Couas consume fruit in the dry season when prey is harder to find.
Polyandry has been confirmed in the
African black coucal and is suspected to occur in the other coucals, perhaps explaining the reversed sexual dimorphism in the group. Most cuckoo species, including malkohas, couas, coucals, and roadrunners, and most other American cuckoos, build their own nests, although a large minority engages in
brood parasitism (see below). Most of these species nest in trees or bushes, but the coucals lay their eggs in nests on the ground or in low shrubs. Though on some occasions nonparasitic cuckoos parasitize other species, the parent still helps feed the chick. The nests of cuckoos vary in the same way as the breeding systems. The nests of malkohas and Asian ground cuckoos are shallow platforms of twigs, but those of coucals are globular or domed nests of grasses. The New World cuckoos build saucers or bowls in the case of the New World ground cuckoos. Nonparasitic cuckoos, like most other nonpasserines, lay white eggs, but many of the parasitic species lay coloured eggs to match those of their
passerine hosts. The young of all species are
altricial. Nonparasitic cuckoos leave the nest before they can fly, and some New World species have the shortest incubation periods among birds.
Brood parasitism About 56 of the Old World species and three of the New World cuckoo species (
pheasant,
pavonine, and
striped) are brood parasites, laying their
eggs in the nests of other birds and giving rise to the metaphor
"cuckoo's egg". These species are obligate brood parasites, meaning that they only reproduce in this fashion. The best-known example is the European common cuckoo. In addition to the above noted species, others sometimes engage in nonobligate brood parasitism, laying their eggs in the nests of members of their own species, in addition to raising their own young. Brood parasitism has even been seen in greater roadrunners, where their eggs were seen in the nests of
common ravens and
northern mockingbirds. The shells of the eggs of brood-parasitic cuckoos are usually thicker and stronger than those of their hosts. This protects the egg if a host parent tries to damage it, and may make it resistant to cracking when dropped into a host nest. Cuckoo eggshells have two distinct layers. In some nesting cuckoos, there is a thick outer chalky layer that is not present on the eggs of most brood-parasitic species, although there are some exceptions and the eggshells of Old World parasitic cuckoos have a thick outer layer that is different from that of nesting cuckoos.
Parasitic cuckoo advanced laying and hatching The cuckoo egg hatches earlier than the host eggs, and the cuckoo chick grows faster. In most cases, the chick evicts the eggs and/or young of the host species. The chick has no time to learn this behavior, nor does any parent stay around to teach it, so it must be an
instinct passed on genetically. raising the young of a
common cuckoo One reason for the cuckoo egg's hatching sooner is that, after the egg is fully formed, the female cuckoo holds it in her oviduct for another 24 hours prior to laying. and the chick's open mouth which serves as a
sign stimulus.
Evolutionary arms race between cuckoo and host Since obligate brood parasites need to successfully trick their host for them to reproduce, they have evolved adaptations at several stages of breeding. High costs of parasitism are exerted on the host, leading to strong selections on the host to recognize and reject parasitic eggs. The adaptations and counter-adaptations between hosts and parasites have led to a coevolution "arms race". This means that if one of the species involved were to stop adapting, it would lose the race to the other species, resulting in decreased fitness of the losing species. The egg-stage adaptation is the best studied stage of this arms race. Cuckoos have various strategies for getting their eggs into host nests. Different species use different strategies based on host defensive strategies. Female cuckoos have secretive and fast laying behaviors, but in some cases, males have been shown to lure host adults away from their nests so that the females can lay their eggs in the nest. Some host species may directly try to prevent cuckoos laying eggs in their nest in the first place – birds whose nests are at high risk of cuckoo-contamination are known to "mob" attack cuckoos to drive them out of the area. Parasitic cuckoos are grouped into
gentes, with each gens specializing in a particular host. Some evidence suggests that the gentes are genetically different from one another.
Host egg mimicry Female parasitic cuckoos sometimes specialize and lay eggs that closely resemble the eggs of their chosen host. Some birds are able to distinguish cuckoo eggs from their own, leading to those eggs least like the host's being thrown out of the nest. Some hosts do not exhibit egg rejection behavior and the cuckoo eggs look very dissimilar from the host eggs. It has also been shown in a study of the European common cuckoos that females lay their egg in the nest of a host that has eggs that look similar to its own. Other species of cuckoo lay "cryptic" eggs, which are dark in color when their hosts' eggs are light. In these cases, there is selective pressure on cuckoos to lessen their egg size to be a more effective mimic, but physiological constraints hinder the species from doing so. Since cuckoos in this situation can effectively parasitize despite laying eggs slightly larger than those of their hosts, there are little selective pressures to evolve "perfect" mimicry. To select the most suitable host nests, cuckoos may "egg-match" as well. Daurian redstarts (
Phoenicurus auroreus), another cuckoo host, lay clutches of either pink or blue eggs. Cuckoo eggs are more similar in reflectance and color to blue redstart eggs than pink ones. In-field observations revealed parasitism occurred more frequently in blue-egg redstart nests (19.3%) than in pink-egg redstart nests (7.9%). This suggests cuckoos prefer parasitizing nests containing eggs resembling their own. Experiments in the lab show similar findings: cuckoos parasitized artificial nests containing blue eggs more frequently than pink ones, Two main hypotheses on the cognitive mechanisms mediate host distinguishing of eggs. One hypothesis is true recognition, which states that a host compares eggs present in its clutch to an internal template (learnt or innate), to identify if parasitic eggs are present. However, memorizing a template of a parasitic egg is costly and imperfect and likely not identical to each host's egg. The other one is the discordancy hypothesis, which states that a host compares eggs in the clutch and identifies the odd ones.
Possible evidence of host benefits in the face of cuckoo parasitism The parasitism is not necessarily entirely detrimental to the host species. A 16-year dataset was used in 2014 to find that
carrion crow nests in a region of northern
Spain were more successful overall (more likely to produce at least one crow fledgling) when parasitised by the
great spotted cuckoo. The researchers attributed this to a strong-smelling predator-repelling substance secreted by cuckoo chicks when attacked, and noted that the interactions were not necessarily simply parasitic or mutualistic. This relationship was not observed for any other host species, or for any other species of cuckoo. Great spotted cuckoo chicks do not evict host eggs or young, and are smaller and weaker than carrion crow chicks, so both of these factors may have contributed to the effect observed. Subsequent research using a dataset from southern Spain failed to replicate these findings, and the second research team also criticised the methodology used in experiments described in the first paper. The authors of the first study have responded to points made in the second and both groups agree that further research is needed before the mutualistic effect can be considered proven.
Calls Cuckoos are often highly secretive, and in many cases, best known for their wide repertoire of
calls. These are usually relatively simple, resembling whistles, flutes, or hiccups. The calls are used to demonstrate ownership of a
territory and to attract a mate. Within a species, the calls are remarkably consistent across the range, even in species with very large ranges. This suggests, along with the fact that many species are not raised by their true parents, that the calls of cuckoos are innate and not learnt. Although cuckoos are diurnal, many species call at night. The cuckoo family gets its English and scientific names from the call of the male
common cuckoo, also familiar from
cuckoo clocks. In most cuckoos, the calls are distinctive to particular species, and are useful for identification. Several
cryptic species are best identified on the basis of their calls. ==Phylogeny and evolution==