Caloenas nicobarica

Written by on April 13, 2012 in Indonesia Bird with 0 Comments

Caloenas nicobarica, Nicobar Pigeon, Punai Emas

The Nicobar Pigeon, Caloenas nicobarica, is a pigeon found on small isCaloenas-nicobarica-01-400lands and in coastal regions from the Nicobar Islands, east through the Malay Archipelago, to the Solomons and Palau. It is the only living member of the genus Caloenas.

This is a large heaviset pigeon, measuring 40 cm in length. The head is grey, like the upper neck plumage, which turns into green and copper hackles towards the breast. The breast and remiges are dark grey. The tail is very short and pure white. The rest of its plumage is metallic green. The cere of the dark bill forms a small blackish knob; the strong legs and feet are dull red. The irides are dark.

Females are slightly smaller than males; they have a smaller bill knob, shorter hackles and browner underparts. Immature birds have a black tail and lack almost all iridescence. There is hardly any variation across the birds’ wide range. Even the Palau subspecies C. n. pelewensis has merely shorter neck hackles, but is otherwise almost identical.

It is not a very vocal species, giving a low-pitched repetitive call.

Systematics

Based on cladistic analysis of mtDNA cytochrome b and 12S rRNA sequences, the Nicobar Pigeon is sometimes called the closest living relative of the extinct didines (Raphinae), which include the famous Dodo (Raphus cucullatus). But the original study only yielded this result as just one possibility of several even from a rather limited sample of taxa, and not with a very high confidence either. In addition, the Passenger Pigeon (of which ancient DNA was also sequenced) turns up in a somewhat implausible position – close to the cuckoo-doves (Macropygia), in a largely Old World radiation –, questioning the accuracy of the proposed DNA sequence of the Dodo (though not of the Rodrigues Solitaire (Pezophaps solitaria) which was independently verified). In any case, nDNA β-fibrinogen intron 7 sequence data agrees with the idea of the Raphinae as a subfamily of pigeons (and not an independent family, as was previously believed due to their bizarre apomorphies) that was part of a diverse Indopacific radiation, to which the Nicobar Pigeon also belongs.

C. nicobarica is a quite singular columbiform (though less autapomorphic as the flightless Raphinae), as are for example the Tooth-billed Pigeon (Didunculus strigirostris) and the crowned pigeons (Goura), which are typically considered distinct subfamilies. Hence, the Nicobar Pigeon may well constitute another now-monotypic subfamily. And while any of the semi-terrestrial pigeons of Southeast Asia and the Wallacea cannot be excluded as possible closest living relative of the Raphinae, the Nicobar Pigeon makes a more plausible candidate than for example the group of imperial-pigeons and fruit-doves, which seems to be part of the same radiation.

Whether it is possible to clarify such deep-time phylogenies without a comprehensive study of all major lineages of living Columbidae remains to be seen. The primitive molecular clock used to infer the date the ancestors of the Nicobar Pigeon and the didines diverged has since turned out to be both unreliable and miscalibrated. But what little evidence is available still suggests that the Nicobar Pigeon is distinct from all other living lifeforms since the Paleogene – most likely some time between 56-34 million years ago during the Eocene, which makes up the bulk of the Paleogene period.

From subfossil bones found on New Caledonia and Tonga, an extinct species of Caloenas, the Greater Maned Pigeon (C. canacorum) was described. It was about one-quarter larger[verification needed] than the Nicobar Pigeon. Considering that it must have been a good source of food, it was most likely hunted to extinction by the first human settlers of its home islands. It probably was extinct by 500 BC. The Liverpool Pigeon (“C.” maculata) is a more recently extinct species from an unknown Pacific locality; it probably disappeared in the 19th century and most likely succumbed to introduced European rats. It is placed in Caloenas as the least awkward possibility; its true affinities are presently undeterminable and it is perhaps more likely to represent a distinct genus of the Indopacific radiation of Columbidae.

Ecology

The Nicobar Pigeon’s breeding range encompasses the Andaman and Nicobar Islands of India, the Mergui Archipelago of Myanmar, offshore islands of south-western Thailand, Peninsular Malaysia, southern Cambodia and Vietnam, and many of the small islands between Sumatra, the Philippines and the Solomon Islands. On Palau, the only distinct subspecies C. n. pelewensis is found.
The white tail is the most conspicuous feature of adult Nicobar Pigeons, particularly when seen at a distance in the twilight

The Nicobar Pigeon roams in flocks from island to island, usually sleeping on offshore islets where no predators occur and spends the day in areas with better food availability, not shying away from areas inhabited by humans. Its food consists of seeds, fruit and some invertebrates, and it is attracted to areas where grain is available. A gizzard stone helps to grind up hard food items. Its flight is quick, with regular beats and an occasional sharp flick of the wings, as is characteristic of pigeons in general. Unlike other pigeons, groups tend to fly in columns or single file, not in a loose flock. The white tail is prominent in flight when seen from beind and may serve as a sort of “taillight”, keeping flocks together when crossing the sea at dawn or dusk. The young birds’ lack of a white tail is a signal of their immaturity clearly visible to conspecifics – to an adult Nicobar Pigeon, it is obvious at a glance which flockmembers are neither potential mates, nor potential competitors for mates, nor old enough to safely guide a flock from one island to another.

This species nests in dense forest on offshore islets, often in large colonies. It builds a loose stick nest in a tree. It lays one elliptical faintly blue-tinged white egg.

Nicobar Pigeons are hunted in considerable numbers for food, and also for their gizzard stone which is used in jewelry. The species is also trapped for the local pet market, but as it is on CITES Appendix I, such trade is generally illegal. Internationally, captive breeding is able to supply the birds demanded by zoos, where this attractive and unusual bird is often seen. Direct exploitation of the species, even including the illegal trade, might be sustainable on its own; however, its available nesting habitat is decreasing. For one thing, the offshore islets which it requires are often logged for plantations, destroyed by construction activity, or polluted by nearby industry or harbours. Also, increased travel introduces predators to more and more of the breeding sites, and colonies of the Nicobar Pigeon may be driven to desert such locations or be destroyed outright. Though the bird is widely distributed and in some locations very common – even on small Palau it is still reasonably plentiful, with an estimated 1,000 adult birds remaining –, its long-term future is increasingly being jeopardized. For these reasons, the IUCN considers C. nicobarica a Near Threatened species.

On the Nicobar Islands (which are referred to in its common and scientific names), the most significant colony in our time was found on Batti Malv, a remote wildlife sanctuary between Car Nicobar and Teressa. The 2004 Indian Ocean tsunami caused massive damage on the Nicobar Islands, and it is still not quite clear to what extent Batti Malv was affected. But while everything on some islets in the Great Nicobar Biosphere Reserve was destroyed, Batti Malv lighthouse – a skeletal tower a dozen metres high, standing a few metres ASL at the highest point of the low-lying island – was little-damaged and put back in operation by the survey ship INS Sandhayak less than one month after the disaster. An April 2007 survey by the Indian Coast Guard vessel ICGS Vikram found the lighthouse tower “totally covered” in vines, indicating rampant regeneration of vegetation – but perhaps also that damage to the island’s forest was severe, as a cover of creeping plants is typical of early succession stages, while a photo of the lighthouse taken before the tsunami shows rather mature forest.

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