Common cuckoo


The common cuckoo is a member of the cuckoo order of birds, Cuculiformes, which includes the roadrunners, the anis and the coucals.
This species is a widespread summer migrant to Europe and Asia, and winters in Africa. It is a brood parasite, which means it lays eggs in the nests of other bird species, particularly of dunnocks, meadow pipits, and reed warblers. Although its eggs are larger than those of its hosts, the eggs in each type of host nest resemble the host's eggs. The adult too is a mimic, in its case of the sparrowhawk; since that species is a predator, the mimicry gives the female time to lay her eggs without being seen to do so.

Taxonomy

The species' binomial name is derived from the Latin cuculus and canorus. The cuckoo family gets its common name and genus name by onomatopoeia for the call of the male common cuckoo. The English word "cuckoo" comes from the Old French cucu, and its earliest recorded usage in English is from around 1240, in the song Sumer Is Icumen In. The song is written in Middle English, and the first two lines are: "Svmer is icumen in / Lhude sing cuccu." In modern English, this translates to "Summer has come in / Loudly sing, Cuckoo!".
There are four subspecies worldwide:
Although the common cuckoo's global population appears to be declining, it is classified of being of least concern by the International Union for Conservation of Nature. It is estimated that the species numbers between 25 million and 100 million individuals worldwide, with around 12.6 million to 25.8 million of those birds breeding in Europe. The maximum recorded lifespan of a common cuckoo in the United Kingdom is 6 years, 11 months and 2 days.

Description

The common cuckoo is long from bill to tail from Pangolakha Wildlife Sanctuary in East Sikkim, India.
All adult males are slate-grey; the grey throat extends well down the bird's breast with a sharp demarcation to the barred underparts. The iris, orbital ring, the base of the bill and feet are yellow. Grey adult females have a pinkish-buff or buff background to the barring and neck sides, and sometimes small rufous spots on the median and greater coverts and the outer webs of the secondary feathers.
Rufous morph adult females have reddish-brown upperparts with dark grey or black bars. The black upperpart bars are narrower than the rufous bars, as opposed to rufous juvenile birds, where the black bars are broader.
Common cuckoos in their first autumn have variable plumage. Some have strongly-barred chestnut-brown upperparts, while others are plain grey. Rufous-brown birds have heavily barred upperparts with some feathers edged with creamy-white. All have whitish edges to the upper wing-coverts and primaries. The secondaries and greater coverts have chestnut bars or spots. In spring, birds hatched in the previous year may retain some barred secondaries and wing-coverts. The most obvious identification features of juvenile common cuckoos are the white nape patch and white feather fringes.
Common cuckoos moult twice a year: a partial moult in summer and a complete moult in winter. Males weigh around and females. The common cuckoo looks very similar to the Oriental cuckoo, which is slightly shorter-winged on average.

Mimicry in adult

A study using stuffed bird models found that small birds are less likely to approach common cuckoos that have barred underparts similar to the Eurasian sparrowhawk, a predatory bird. Eurasian reed warblers were found more aggressive to cuckoos that looked less hawk-like, meaning that the resemblance to the hawk helps the cuckoo to access the nests of potential hosts. Other small birds, great tits and blue tits, showed alarm and avoided attending feeders on seeing either sparrowhawks or cuckoos; this implies that the cuckoo's hawklike appearance functions as protective mimicry, whether to reduce attacks by hawks or to make brood parasitism easier.
Hosts attack cuckoos more when they see neighbors mobbing cuckoos. The existence of the two plumage morphs in females may be due to frequency-dependent selection if this learning applies only to the morph that hosts see neighbors mob. In an experiment with dummy cuckoos of each morph and a sparrowhawk, reed warblers were more likely to attack both cuckoo morphs than the sparrowhawk, and even more likely to mob a certain cuckoo morph when they saw neighbors mobbing that morph, decreasing the reproductive success of that morph and selecting for the less common morph.

Voice

The male's song, goo-ko, is usually given from an open perch. During the breeding season the male typically gives this vocalisation with intervals of 1-1.5 seconds, in groups of 10-20 with a rest of a few seconds between groups. The female has a loud bubbling call. The song starts as a descending minor third early in the year in April, and the interval gets wider, through a major third to a fourth as the season progresses, and in June the cuckoo "forgets its tune" and may make other calls such as ascending intervals. The wings are drooped when calling intensely and when in the vicinity of a potential female, the male often wags its tail from side to side or the body may pivot from side to side.

Distribution and habitat

Essentially a bird of open land, the common cuckoo is a widespread summer migrant to Europe and Asia, and winters in Africa. Birds arrive in Europe in April and leave in September. The common cuckoo has also occurred as a vagrant in countries including Barbados, the United States, Greenland, the Faroe Islands, Iceland, Indonesia, Palau, Seychelles, Taiwan and China. Between 1995 and 2015, the distribution of cuckoos within the UK has shifted towards the north, with a decline by 69% in England but an increase by 33% in Scotland.

Behaviour

Food and feeding

The common cuckoo's diet consists of insects, with hairy caterpillars, which are distasteful to many birds, being a specialty of preference. It also occasionally eats eggs and chicks.

Breeding

The common cuckoo is an obligate brood parasite; it lays its eggs in the nests of other birds. At the appropriate moment, the hen cuckoo flies down to the host's nest, pushes one egg out of the nest, lays an egg and flies off. The whole process takes about 10 seconds. A female may visit up to 50 nests during a breeding season. Common cuckoos first breed at the age of two years.

Egg mimicry

More than 100 host species have been recorded: meadow pipit, dunnock and Eurasian reed warbler are the most common hosts in northern Europe; garden warbler, meadow pipit, pied wagtail and European robin in central Europe; brambling and common redstart in Finland; and great reed warbler in Hungary.
Female common cuckoos are divided into gentes – groups of females favouring a particular host species' nest and laying eggs that match those of that species in color and pattern. Evidence from mitochondrial DNA analyses suggest that each gene may have multiple independent origins due to parasitism of specific hosts by different ancestors. One hypothesis for the inheritance of egg appearance mimicry is that this trait is inherited from the female only, suggesting that it is carried on the sex-determining W chromosome. A genetic analysis of gentes supports this proposal by finding significant differentiation in mitochondrial DNA, but not in microsatellite DNA. A second proposal for the inheritance of this trait is that the genes controlling egg characteristics are carried on autosomes rather than just the W chromosome. Another genetic analysis of sympatric gentes supports this second proposal by finding significant genetic differentiation in both microsatellite DNA and mitochondrial DNA. Considering the tendency for common cuckoo males to mate with multiple females and produce offspring raised by more than one host species, it appears as though males do not contribute to the maintenance of common cuckoo gentes. However, it was found that only nine percent of offspring were raised outside of their father's presumed host species. Therefore, both males and females may contribute to the maintenance of common cuckoo egg mimicry polymorphism. It is notable that most non-parasitic cuckoo species lay white eggs, like most non-passerines other than ground-nesters.
As the common cuckoo evolves to lay eggs that better imitate the host's eggs, the host species adapts and is more able to distinguish the cuckoo egg. A study of 248 common cuckoo and host eggs demonstrated that female cuckoos that parasitised common redstart nests laid eggs that matched better than those that targeted dunnocks. Spectroscopy was used to model how the host species saw the cuckoo eggs. Cuckoos that target dunnock nests lay white, brown-speckled eggs, in contrast to the dunnock's own blue eggs. The theory suggests that common redstarts have been parasitised by common cuckoos for longer, and so have evolved to be better than the dunnocks at noticing the cuckoo eggs. The cuckoo, over time, has needed to evolve more accurate mimicking eggs to successfully parasitise the redstart. In contrast, cuckoos do not seem to have experienced evolutionary pressure to develop eggs which closely mimic the dunnock's, as dunnocks do not seem to be able to distinguish between the two species' eggs, despite the significant colour differences. The dunnock's inability to distinguish the eggs suggests that they have not been parasitised for very long, and have not yet evolved defences against it, unlike the redstart.
Studies performed on great reed warbler nests in central Hungary, showed an "unusually high" frequency of common cuckoo parasitism, with 64% of the nests parasitised. Of the nests targeted by cuckoos, 64% contained one cuckoo egg, 23% had two, 10% had three and 3% had four common cuckoo eggs. In total, 58% of the common cuckoo eggs were laid in nests that were multiply parasitised. When laying eggs in nests already parasitised, the female cuckoos removed one egg at random, showing no discrimination between the great reed warbler eggs and those of other cuckoos.
It was found that nests close to cuckoo perches were most vulnerable: multiple parasitised nests were closest to the vantage points, and unparasitised nests were farthest away. Nearly all the nests "in close vicinity" to the vantage points were parasitised. More visible nests were more likely to be selected by the common cuckoos. Female cuckoos use their vantage points to watch for potential hosts and find it easier to locate the more visible nests while they are egg-laying, however, novel studies highlight that host alarm calls might also play an important role during nest searching.
The great reed warblers' responses to the common cuckoo eggs varied: 66% accepted the egg; 12% ejected them; 20% abandoned the nests entirely; 2% buried the eggs. 28% of the cuckoo eggs were described as "almost perfect" in their mimesis of the host eggs, and the warblers rejected "poorly mimetic" cuckoo eggs more often. The degree of mimicry made it difficult for both the great reed warblers and the observers to tell the eggs apart.
The egg measures and weighs, of which 7% is shell. Research has shown that the female common cuckoo is able to keep its egg inside its body for an extra 24 hours before laying it in a host's nest. This means the cuckoo chick can hatch before the host's chicks do, and it can eject the unhatched eggs from the nest. Scientists incubated common cuckoo eggs for 24 hours at the bird's body temperature of, and examined the embryos, which were found "much more advanced" than those of other species studied. The idea of 'internal incubation' was first put forward in 1802 and 18th- and 19th-century egg collectors had reported finding that cuckoo embryos were more advanced than those of the host species.
Complete list of common cuckoo's nest-host by Aleksander D. Numerov ; names of birds in whose nests cuckoo's eggs and chicks were found more than 10 times :
  1. Yellow-bellied warbler
  2. Common linnet
  3. Common redpoll
  4. Paddyfield warbler
  5. Moustached warbler
  6. Great reed warbler
  7. Black-browed reed warbler
  8. Blyth's reed warbler
  9. Aquatic warbler
  10. Marsh warbler
  11. Sedge warbler
  12. Eurasian reed warbler
  13. Clamorous reed warbler
  14. Rusty-fronted barwing
  15. Long-tailed tit
  16. Eurasian skylark
  17. Dusky fulvetta
  18. Rufous-winged fulvetta
  19. Yellow-throated fulvetta
  20. Nepal fulvetta
  21. Brown-cheeked fulvetta
  22. Tawny pipit
  23. Red-throated pipit
  24. Blyth's pipit
  25. Olive-backed pipit
  26. Australasian pipit
  27. Meadow pipit
  28. Rosy pipit
  29. Buff-bellied pipit
  30. Water pipit
  31. Upland pipit
  32. Tree pipit
  33. Little spiderhunter
  34. Streaked spiderhunter
  35. Lesser shortwing
  36. White-browed shortwing
  37. Red-capped lark
  38. Lapland longspur
  39. Carduelis caniceps
  40. European goldfinch
  41. Twite
  42. Common rosefinch
  43. Pallas's rosefinch
  44. Short-toed treecreeper
  45. Eurasian treecreeper
  46. Cetti's warbler
  47. Brown-flanked bush warbler
  48. Rufous-tailed scrub robin
  49. European greenfinch
  50. Grey-capped greenfinch
  51. Golden-fronted leafbird
  52. Orange-bellied leafbird
  53. Brown dipper
  54. Zitting cisticola
  55. Golden-headed cisticola
  56. Hawfinch
  57. Purple cochoa
  58. Green cochoa
  59. White-rumped shama
  60. Oriental magpie-robin
  61. Black-winged cuckooshrike
  62. Grey-headed canary-flycatcher
  63. Azure-winged magpie
  64. Blue-and-white flycatcher
  65. Blue-throated blue flycatcher
  66. Common house martin
  67. Bronzed drongo
  68. Ashy drongo
  69. Yellow-breasted bunting
  70. Red-headed bunting
  71. Corn bunting
  72. Yellow-browed bunting
  73. Rock bunting
  74. Meadow bunting
  75. Cirl bunting
  76. Yellowhammer
  77. Yellow-throated bunting
  78. Chestnut-eared bunting
  79. Ortolan bunting
  80. Emberiza icterica
  81. Black-headed bunting
  82. Little bunting
  83. Rustic bunting
  84. Chestnut bunting
  85. Common reed bunting
  86. Black-faced bunting
  87. Tristram's bunting
  88. Black-backed forktail
  89. Spotted forktail
  90. Slaty-backed forktail
  91. European robin
  92. Horned lark
  93. Japanese grosbeak
  94. Slaty-backed flycatcher
  95. European pied flycatcher
  96. Narcissus flycatcher
  97. Red-breasted flycatcher
  98. Ultramarine flycatcher
  99. Slaty-blue flycatcher
  100. Common chaffinch
  101. Brambling
  102. Crested lark
  103. Streaked laughingthrush
  104. Ashy bulbul
  105. Rufous-backed sibia
  106. Grey sibia
  107. Booted warbler
  108. Icterine warbler
  109. Eastern olivaceous warbler
  110. Melodious warbler
  111. Sykes's warbler
  112. Barn swallow
  113. Black-naped monarch
  114. Malagasy bulbul
  115. Mountain bulbul
  116. White-bellied redstart
  117. Bull-headed shrike
  118. Red-backed shrike
  119. Brown shrike
  120. Great grey shrike
  121. Lesser grey shrike
  122. Long-tailed shrike
  123. Woodchat shrike
  124. Tiger shrike
  125. Silver-eared mesia
  126. Red-billed leiothrix
  127. White-browed tit-warbler
  128. Red-faced liocichla
  129. River warbler
  130. Savi's warbler
  131. Brown bush warbler
  132. Common grasshopper warbler
  133. Middendorff's grasshopper warbler
  134. Woodlark
  135. Indian blue robin
  136. Siberian rubythroat
  137. Siberian blue robin
  138. Thrush nightingale
  139. Common nightingale
  140. Himalayan rubythroat
  141. Bluethroat
  142. Pin-striped tit-babbler
  143. Striated grassbird
  144. Blue-winged minla
  145. Blue-capped rock thrush
  146. Monticola erythrogastra
  147. White-throated rock thrush
  148. Chestnut-bellied rock thrush
  149. Common rock thrush
  150. Blue rock thrush
  151. White wagtail
  152. Grey wagtail
  153. Citrine wagtail
  154. Western yellow wagtail
  155. Japanese wagtail
  156. White wagtail
  157. Motacilla sordidus
  158. Brown-breasted flycatcher
  159. Spotted flycatcher
  160. Verditer flycatcher
  161. White-winged grosbeak
  162. Blue whistling thrush
  163. Streaked wren-babbler
  164. Eyebrowed wren-babbler
  165. Large niltava
  166. Small niltava
  167. Rufous-bellied niltava
  168. Black-eared wheatear
  169. Isabelline wheatear
  170. Northern wheatear
  171. Pied wheatear
  172. Eurasian golden oriole
  173. Dark-necked tailorbird
  174. Common tailorbird
  175. Bearded reedling
  176. Black-breasted parrotbill
  177. Vinous-throated parrotbill
  178. Eurasian blue tit
  179. Great tit
  180. Yellow-cheeked tit
  181. House sparrow
  182. Spanish sparrow
  183. Eurasian tree sparrow
  184. Russet sparrow
  185. Spot-throated babbler
  186. Buff-breasted babbler
  187. Puff-throated babbler
  188. Grey-chinned minivet
  189. Daurian redstart
  190. Eversmann's redstart
  191. Blue-fronted redstart
  192. Plumbeous water redstart
  193. Moussier's redstart
  194. Black redstart
  195. Common redstart
  196. Thick-billed warbler
  197. Western Bonelli's warbler
  198. Arctic warbler
  199. Yellow-vented warbler
  200. Common chiffchaff
  201. Sulphur-bellied warbler
  202. Yellow-browed warbler
  203. Pallas's leaf warbler
  204. Blyth's leaf warbler
  205. Wood warbler
  206. Radde's warbler
  207. Willow warbler
  208. Eurasian magpie
  209. Scaly-breasted cupwing
  210. Pygmy cupwing
  211. Rusty-cheeked scimitar babbler
  212. Coral-billed scimitar babbler
  213. Streak-breasted scimitar babbler
  214. White-browed scimitar babbler
  215. Black-throated prinia
  216. Striated prinia
  217. Yellow-bellied prinia
  218. Graceful prinia
  219. Rufescent prinia
  220. Tawny-flanked prinia
  221. Black-throated accentor
  222. Alpine accentor
  223. Brown accentor
  224. Dunnock
  225. Robin accentor
  226. Rufous-breasted accentor
  227. Trilling shrike-babbler
  228. Red-vented bulbul
  229. Flavescent bulbul
  230. Himalayan bulbul
  231. Black-capped bulbul
  232. Eurasian bullfinch
  233. Goldcrest
  234. White-throated fantail
  235. White-browed fantail
  236. Desert finch
  237. Long-billed wren-babbler
  238. Pied bush chat
  239. Grey bush chat
  240. White-tailed stonechat
  241. Whinchat
  242. Siberian stonechat
  243. Streaked scrub warbler
  244. Green-crowned warbler
  245. Chestnut-crowned warbler
  246. Grey-hooded warbler
  247. Atlantic canary
  248. Red-fronted serin
  249. Indian nuthatch
  250. Velvet-fronted nuthatch
  251. Tawny-breasted wren-babbler
  252. Eurasian siskin
  253. Crested finchbill
  254. Grey-throated babbler
  255. Rufous-fronted babbler
  256. Common starling
  257. Eurasian blackcap
  258. Garden warbler
  259. Subalpine warbler
  260. Common whitethroat
  261. Spectacled warbler
  262. Lesser whitethroat
  263. Tristram's warbler
  264. Western Orphean warbler
  265. Sardinian warbler
  266. Barred warbler
  267. Dartford warbler
  268. Indian paradise flycatcher
  269. Grey-bellied tesia
  270. Chestnut-capped babbler
  271. Brown-capped laughingthrush
  272. Striped laughingthrush
  273. Eurasian wren
  274. Japanese thrush
  275. Black-breasted thrush
  276. Redwing
  277. Common blackbird
  278. Eyebrowed thrush
  279. Song thrush
  280. Fieldfare
  281. Ring ouzel
  282. Tickell's thrush
  283. Mistle thrush
  284. Long-tailed rosefinch
  285. Pale-footed bush warbler
  286. Whiskered yuhina
  287. Rufous-vented yuhina
  288. Orange-headed thrush
  289. Dark-sided thrush
  290. Long-billed thrush
  291. Indian white-eye

    Chicks

The naked, altricial chick hatches after 11–13 days. It methodically evicts all host progeny from host nests. It is a much larger bird than its hosts, and needs to monopolize the food supplied by the parents. The chick will roll the other eggs out of the nest by pushing them with its back over the edge. If the host's eggs hatch before the cuckoo's, the cuckoo chick will push the other chicks out of the nest in a similar way. At 14 days old, the common cuckoo chick is about three times the size of an adult Eurasian reed warbler.
The necessity of eviction behavior is unclear. One hypothesis is that competing with host chicks leads to decreased cuckoo chick weight, which is selective pressure for eviction behavior. An analysis of the amount of food provided to common cuckoo chicks by host parents in the presence and absence of host siblings showed that when competing against host siblings, cuckoo chicks did not receive enough food, showing an inability to compete. Selection pressure for eviction behavior may come from cuckoo chicks lacking the correct visual begging signals, hosts distributing food to all nestlings equally, or host recognition of the parasite. Another hypothesis is that decreased cuckoo chick weight is not selective pressure for eviction behavior. An analysis of resources provided to cuckoo chick in the presence and absence of host siblings also showed that the weights of cuckoos raised with host chicks were much smaller upon fledging than cuckoos raised alone, but within 12 days cuckoos raised with siblings grew faster than cuckoos raised alone and made up for developmental differences, showing a flexibility that would not necessarily select for eviction behavior.
Species whose broods are parasitised by the common cuckoo have evolved to discriminate against cuckoo eggs but not chicks. Experiments have shown that common cuckoo chicks persuade their host parents to feed them by making a rapid begging call that sounds "remarkably like a whole brood of host chicks." The researchers suggested that "the cuckoo needs vocal trickery to stimulate adequate care to compensate for the fact that it presents a visual stimulus of just one gape." However, a cuckoo chick needs the amount of food of a whole brood of host nestlings, and it struggles to elicit that much from the host parents with only the vocal stimulus. This may reflect a tradeoff—the cuckoo chick benefits from eviction by receiving all the food provided, but faces a cost in being the only one influencing feeding rate. For this reason, cuckoo chicks exploit host parental care by remaining with the host parent longer than host chicks do, both before and after fledging.
Common cuckoo chicks fledge about 17–21 days after hatching, compared to 12–13 days for Eurasian reed warblers. If the hen cuckoo is out-of-phase with a clutch of Eurasian reed warbler eggs, she will eat them all so that the hosts are forced to start another brood.
The common cuckoo's behaviour was firstly observed and described by Aristotle and the combination of behaviour and anatomical adaptation by Edward Jenner, who was elected as Fellow of the Royal Society in 1788 for this work rather than for his development of the smallpox vaccine. It was first documented on film in 1922 by Edgar Chance and Oliver G Pike, in their film The Cuckoo's Secret.
A study in Japan found that young common cuckoos probably acquire species-specific feather lice from body-to-body contact with other cuckoos between the time of leaving the nest and returning to the breeding area in spring. A total of 21 nestlings were examined shortly before they left their hosts' nests and none carried feather lice. However, young birds returning to Japan for the first time were found just as likely as older individuals to be lousy.

As a biodiversity indicator

The occurrence of common cuckoo in Europe is a good surrogate for biodiversity facets including taxonomic diversity and functional diversity in bird communities, and better than the traditional use of top predators as bioindicators. The reason for this is the strong correlation between the cuckoo's host species richness and overall bird species richness, due to co-evolutionary relationships. This may be useful for citizen science.

In culture

was aware of the old tale that cuckoos turned into hawks in winter. The tale was an explanation for their absence outside the summer season, later accepted by Pliny the Elder in his Natural History. Aristotle rejected the claim, observing in his History of Animals that cuckoos do not have the predators' talons or hooked bills. These Classical era accounts were known to the Early Modern English naturalist, William Turner.
The 13th-century medieval English round, "Sumer Is Icumen In", celebrates the cuckoo as a sign of spring, the beginning of summer, in the first stanza, and in the chorus:
;Middle English

Svmer is icumen in
Lhude sing cuccu
Groweþ sed
and bloweþ med
and springþ þe wde nu
Sing cuccu

;Modern English

Summer has arrived,
Sing loudly, cuckoo!
The seed is growing
And the meadow is blooming,
And the wood is coming into leaf now,
Sing, cuckoo!

In England, William Shakespeare alludes to the common cuckoo's association with spring, and with cuckoldry, in the courtly springtime song in his play Love's Labours Lost:
In Europe, hearing the call of the common cuckoo is regarded as the first harbinger of spring. Many local legends and traditions are based on this. In Scotland, gowk stanes sometimes associated with the arrival of the first cuckoo of spring. "Gowk" is an old name for the common cuckoo in northern England, derived from the harsh repeated "gowk" call the bird makes when excited. The well-known cuckoo clock features a mechanical bird and is fitted with bellows and pipes that imitate the call of the common cuckoo. Cuckoos feature in traditional rhymes, such as '"In April the cuckoo comes, In May she'll stay, In June she changes her tune, In July she prepares to fly, Come August, go she must,"' quoted Peggy. 'But you haven't said it all,' put in Bobby. '"And if the cuckoo stays till September, It's as much as the oldest man can remember."'
On Hearing the First Cuckoo in Spring is a symphonic poem from Norway composed for orchestra by Frederick Delius.
Two English folk songs feature cuckoos. One usually called The Cuckoo starts:

The cuckoo is a fine bird and she sings as she flies,

She brings us good tidings, she tells us no lies.

She sucks little birds' eggs to make her voice clear,

And never sings cuckoo till the summer draws near


The second, "The Cuckoo's Nest" is a song about a courtship, with the eponymous nest serving as a metaphor for the vulva and its tangled "nest" of pubic hair.

Some like a girl who is pretty in the face

and some like a girl who is slender in the waist

But give me a girl who will wriggle and will twist

At the bottom of the belly lies the cuckoo's nest...

...Me darling, says she, I can do no such thing

For me mother often told me it was committing sin

Me maidenhead to lose and me sex to be abused

So have no more to do with me cuckoo's nest


One of the tales of the Wise Men of Gotham tells how they built a hedge round a tree in order to trap a cuckoo so that it would always be summer.