New Caledonian crow

Last updated

New Caledonian crow
Corvus moneduloides 212163787 (cropped).jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Passeriformes
Family: Corvidae
Genus: Corvus
Species:
C. moneduloides
Binomial name
Corvus moneduloides
Lesson, 1831
Corvus moneduloides map.jpg

The New Caledonian crow (Corvus moneduloides) is a medium-sized member of the family Corvidae, native to New Caledonia. The bird is often referred to as the 'qua-qua' due to its distinctive call. It eats a wide range of food, including many types of invertebrates, eggs, nestlings, small mammals, snails, nuts and seeds. The New Caledonian crow sometimes captures grubs in nooks or crevices by poking a twig at the grub to agitate it into biting the twig, which the crow then withdraws with the grub still attached. This method of feeding indicates the New Caledonian crow is capable of tool use. They are also able to make hooks. [2] This species is also capable of solving a number of sophisticated cognitive tests which suggest that it is particularly intelligent. [3] [4] [5] As a result of these findings, the New Caledonian crow has become a model species for scientists trying to understand the impact of tool use and manufacture on the evolution of intelligence.

Contents

Description

The New Caledonian crow is a moderate-sized crow (40 centimetres (16 in) in length), similar in size to the house crow, but less slender-looking. The bird has an all-black appearance with a rich gloss to its feathers of purple, dark blue and some green in good light. The beak, feet and legs are all black. The beak is moderate in size but is unusual in that the tip of the lower mandible is angled upwards, making it somewhat chisel-like in profile. It has been suggested that this beak morphology evolved due to the selective pressure of needing to hold a tool straight. [6]

The vocalization is described as a soft "waa-waa" or "wak-wak", and sometimes as a hoarse "qua-qua" or "waaaark". Across New Caledonia, the bird is often referred to as a 'qua-qua' due to its distinctive call.

Distribution and habitat

The bird is endemic to the islands of New Caledonia in the Pacific, living in primary forest. It inhabits only the main island, Grande Terre, and one of the Loyalty Islands, Maré Island.

Ecology and behavior

The New Caledonian crow eats a wide range of food, including many types of insects and other invertebrates (some caught in flight with great agility, including night-flying insects which it catches at dusk), eggs and nestlings, small mammals, snails (which it drops from a height onto hard stones), and various nuts and seeds.

This species is known for using plant material to create stick and leaf tools to capture prey hiding in cracks and crevices. These tools can have naturally occurring barbs, or are sometimes fashioned into hooks by the birds. The tool is inserted into the crack or crevice in the log or branch, and the prey is agitated into biting the tool. The crow then withdraws the tool with prey still attached, and devours the prey. Grubs caught in this way have been shown to be an integral part of the crows' diet. [7] The New Caledonian crow appears to fill the ecological niche of the woodpeckers and the woodpecker finch of the Galapagos, since the latter and New Caledonia lack woodpeckers. The feeding method of the woodpecker finch differs in that it stabs at grubs and levers them slowly out of the log using a small twig.

The nest of the New Caledonian crow is built high in a tree with usually 2–3 eggs laid from September to November.

Tool use and manufacture

This species uses stick tools in the wild by finding small twigs and probing them into holes in logs to extract insects and larvae. [2] New Caledonian crows are also able to manufacture tools by breaking twigs off bushes and trimming them to produce functional stick tools. [2] Tool manufacture is rare in comparison to simple tool use and indicates a higher level of cognitive function. The crows can also make leaf tools by tearing rectangular strips off the edges of Pandanus spp. leaves. [8] The creation of such leaf tools allows these crows to exploit naturally occurring hooks – the barbs running along the edges of these leaves can be used as hooks if the tool is held such that the barbs point towards the crows’ head. Other naturally occurring hooks are also incorporated within tools, such as the thorns that grow on vine species in New Caledonia. [8] These crows create hooks by crafting both wood and ferns into hooks. [8] This is done by trimming the junctions between two branches or fern stolons into a tick shape (i.e. one junction has a long piece of wood/stolon attached, one junction has a small piece of wood /stolon attached) and then removing material from this junction to create a functioning hook. This imposition of three-dimensional form onto a natural material resembles carving.[ citation needed ]

This species has a particular method for crafting tools:

Crows snip into the leaf edges and then tear out neat strips of vegetation with which they can probe insect-harboring crevices. These tools have been observed to come in three types: narrow strips, wide strips and multi-stepped strips—which are wide at one end and, via a manufacturing process that involves stepwise snips and tears, become narrow at the opposite end. [9]

The New Caledonian crow is the only non-primate species for which there is evidence of cumulative cultural evolution in tool manufacture. That is, this species appear to have invented new tools by modifying existing ones, then passing these innovations to other individuals in the cultural group. Gavin R. Hunt and colleagues at the University of Auckland studied tools the crows make out of pandanus (or screw pine) leaves. Observations of the distribution of 5,500 leaf counterparts or stencils left behind by the cutting process suggest that the narrow and the stepped tools are more advanced versions of the wide tool type. "The geographical distribution of each tool type on the island suggests a unique origin, rather than multiple independent inventions". This implies that the inventions, which involve a delicate change in the manufacturing process, were being passed from one individual to another. [8]

The New Caledonian crow also spontaneously makes tools from materials it does not encounter in the wild. In 2002, researcher Alex Kacelnik and colleagues at the University of Oxford observed of a couple of New Caledonian crows called Betty and Abel:

Betty's toolmaking abilities came to light by accident during an experiment in which she and Abel had to choose between a hooked and a straight wire for retrieving small pieces of pig heart, their favorite food. When Abel made off with the hooked wire, Betty bent the straight wire into a hook and used the tool to lift a small bucket of food from a vertical pipe. This experiment was the first time the crows had been presented with wire. [10]

This observation was further investigated in a series of studies. Out of ten successful retrievals, Betty bent the wire into a hook nine times. Abel retrieved the food once, without bending the wire. [3] The process would usually start with Betty trying to get the food bucket with the straight wire, but then she would make a hook from it bending it in different ways, usually by snagging one end of the wire under something, and then using the bent hook to pick up the tray.

Clearly, Betty's creation of hooks cannot be attributed to the shaping or reinforcement of trial-and-error behavior. In 2004, Hunt observed the crows in the wild also making hooks, but the adaptation to the new material of the wire was clearly novel and appeared purposeful. Intentional tool manufacture, even if it is generalizing a prior experience to a novel context, is rare in the animal world.

These crows also use tools to investigate potentially dangerous objects, such as a rubber snake or a flashing LED bike light. [11]

Meta- and compound tools

Meta-tool use is using one tool on another tool to achieve the objective of the task. It is generally considered to be a behaviour requiring more complex cognitive ability than the use of just a single tool. Studies show that New Caledonian crows are capable of meta-tool use, at a level rivalling the best performances seen in primates. [12] [13] [14]

One such study involved putting food in a box out of the crows' reach. The crows were given a stick that was too short to reach the food. However, this short stick could be used to retrieve a longer stick from another box, which could then be used to retrieve the food. This complex behaviour involved the crow realising that a tool could be used on non-food objects, and suppressing the urge to go directly for the food. It was solved by six of seven birds on the first attempt. This behaviour had previously only been observed in primates.

In a study conducted at the Max Planck Society crows have been shown to create compound tools from 2–4 short branches that could be slotted together. [15]

Mirror use

New Caledonian crows have shown they are able to process information from mirrors, a cognitive ability possessed by only a small number of species. By using a mirror, wild-caught New Caledonian crows are able to find objects they cannot see with a direct line of sight. However, the crows were unable to recognise themselves in the mirror – other corvids have tested positive for this capability. [16]

Related Research Articles

<span class="mw-page-title-main">Corvidae</span> Family of perching birds

Corvidae is a cosmopolitan family of oscine passerine birds that contains the crows, ravens, rooks, magpies, jackdaws, jays, treepies, choughs, and nutcrackers. In colloquial English, they are known as the crow family or corvids. Currently, 135 species are included in this family. The genus Corvus containing 47 species makes up over a third of the entire family. Corvids (ravens) are the largest passerines.

<span class="mw-page-title-main">Forest raven</span> Australian native bird

The forest raven, also commonly known as the Tasmanian raven, is a passerine bird in the family Corvidae native to Tasmania and parts of southern Victoria, such as Wilsons Promontory and Portland. Populations are also found in parts of New South Wales, including Dorrigo and Armidale. Measuring 50–53 cm (20–21 in) in length, it has all-black plumage, beak and legs. As with the other two species of raven in Australia, its black feathers have grey bases. Adults have white irises; younger birds have dark brown and then hazel irises with an inner blue rim. New South Wales populations are recognised as a separate subspecies C. tasmanicus boreus, but appear to be nested within the Tasmanian subspecies genetically.

<span class="mw-page-title-main">Little raven</span> Species of bird

The little raven is a species of the family Corvidae that is native to southeastern Australia. An adult individual is about 48–50 cm (19–19.5 in) in length, with completely black plumage, beak, and legs; as with all Australian species of Corvus, the black feathers have a grey base, and the iris of the adult bird is white . Although the little raven was first named by Gregory Mathews in 1912, it was only in 1967 that there was consensus to separate it from the Australian raven as a distinct species.

<span class="mw-page-title-main">House crow</span> Species of bird

The house crow, also known as the Indian, greynecked, Ceylon or Colombo crow, is a common bird of the crow family that is of Asian origin but now found in many parts of the world, where they arrived assisted by shipping. It is between the jackdaw and the carrion crow in size but is slimmer than either. The forehead, crown, throat and upper breast are a richly glossed black, whilst the neck and breast are a lighter grey-brown in colour. The wings, tail and legs are black. There are regional variations in the thickness of the bill and the depth of colour in areas of the plumage.

<span class="mw-page-title-main">American crow</span> Species of bird

The American crow is a large passerine bird species of the family Corvidae. It is a common bird found throughout much of North America. American crows are the New World counterpart to the carrion crow and the hooded crow of Eurasia; they all occupy the same ecological niche. Although the American crow and the hooded crow are very similar in size, structure and behavior, their calls and visual appearance are different.

<span class="mw-page-title-main">Large-billed crow</span> Species of bird

The large-billed crow, formerly referred to widely as the jungle crow, is a widespread Asian species of crow. It is very adaptable and is able to survive on a wide range of food sources, making it capable of colonizing new areas, due to which it is often considered a nuisance, especially on islands. It has a large bill, which is the source of its scientific name macrorhynchos and it is sometimes known by the common name thick-billed crow. It can also be mistaken for a common raven. Johann Georg Wagler first described the species from a holotype obtained from Java in the year 1827. The eastern jungle crow and Indian jungle crow were once considered conspecific and together called the jungle crow.

<span class="mw-page-title-main">Hawaiian crow</span> Species of bird in the crow family

The Hawaiian crow or ʻalalā is a species of bird in the crow family, Corvidae, that is currently extinct in the wild, though reintroduction programs are underway. It is about the size of the carrion crow at 48–50 cm (19–20 in) in length, but with more rounded wings and a much thicker bill. It has soft, brownish-black plumage and long, bristly throat feathers; the feet, legs, and bill are black. Today, the Hawaiian crow is considered the most endangered of the family Corvidae. They are recorded to have lived up to 18 years in the wild, and 28 years in captivity. Some Native Hawaiians consider the Hawaiian crow an ʻaumakua.

<span class="mw-page-title-main">Common raven</span> Large, black, passerine bird of the Northern Hemisphere

The common raven is a large all-black passerine bird. It is the most widely distributed of all corvids, found across the Northern Hemisphere. It is a raven known by many names at the subspecies level; there are at least eight subspecies with little variation in appearance, although recent research has demonstrated significant genetic differences among populations from various regions. It is one of the two largest corvids, alongside the thick-billed raven, and is possibly the heaviest passerine bird; at maturity, the common raven averages 63 centimetres in length and 1.47 kilograms in mass. Although their typical lifespan is considerably shorter, common ravens can live more than 23 years in the wild. Young birds may travel in flocks but later mate for life, with each mated pair defending a territory.

<span class="mw-page-title-main">Crow</span> Index of animals with the same common name

A crow is a bird of the genus Corvus, or more broadly a synonym for all of Corvus. The word "crow" is used as part of the common name of many species. The related term "raven" is not linked scientifically to any certain trait, but is rather a general grouping for larger species of Corvus.

<span class="mw-page-title-main">Woodpecker finch</span> Species of bird

The woodpecker finch is a monomorphic species of bird in the Darwin's finch group of the tanager family, Thraupidae endemic to the Galapagos Islands. The diet of a woodpecker finch revolves mostly around invertebrates, but also encompasses a variety of seeds. Woodpecker finches, like many other species of birds, form breeding pairs and care for young until they have fledged. The most distinctive characteristic of woodpecker finches is their ability to use tools for foraging. This behaviour indicates that they have highly specialized cognitive abilities. Woodpecker finches have also shown the ability to learn new behaviours regarding tool use via social learning. Not all populations of woodpecker finches use tools equally often, as this is influenced by the environment in which they live.

<span class="mw-page-title-main">Tufted capuchin</span> Species of New World monkey

The tufted capuchin, also known as brown capuchin, black-capped capuchin, or pin monkey, is a New World primate from South America and the Caribbean islands of Trinidad and Margarita. As traditionally defined, it is one of the most widespread primates in the Neotropics, but it has recently been recommended considering the black-striped, black and golden-bellied capuchins as separate species in a new genus, thereby effectively limiting the tufted capuchin to the Amazon basin and nearby regions. However, the large-headed capuchin, previously defined as a distinct species, has been reclassified as a subspecies of the tufted capuchin, expanding its range east to Peru & Ecuador and south to Bolivia.

<span class="mw-page-title-main">Bird intelligence</span> Study of intelligence in birds

The difficulty of defining or measuring intelligence in non-human animals makes the subject difficult to study scientifically in birds. In general, birds have relatively large brains compared to their head size. The visual and auditory senses are well developed in most species, though the tactile and olfactory senses are well realized only in a few groups. Birds communicate using visual signals as well as through the use of calls and song. The testing of intelligence in birds is therefore usually based on studying responses to sensory stimuli.

<span class="mw-page-title-main">New Zealand raven</span> Extinct species of bird

The New Zealand raven was native to the North Island and South Island of New Zealand but has been extinct since the 16th century. There were two subspecies: the North Island raven and the South Island raven. Another closely related species, the Chatham raven, occurred on the Chatham Islands.

<span class="mw-page-title-main">Chatham raven</span> Extinct species of bird

The Chatham raven is a prehistoric raven formerly native to the Chatham Islands. The closely related New Zealand raven, C. antipodum occurred in the North and South Islands of New Zealand. C. antipodum was formerly included in C. moriorum, and later considered a distinct species, however in 2017 genetic research determined that the two raven populations were subspecies rather than separate species, having only split 130,000 years ago.

<i>Corvus</i> Genus of birds including crows, ravens and rooks

Corvus is a widely distributed genus of birds ranging from medium-sized to large-sized in the family Corvidae. It includes species commonly known as crows, ravens, and rooks. The species commonly encountered in Europe are the carrion crow, hooded crow, common raven, and rook; those discovered later were named "crow" or "raven" chiefly on the basis of their size, crows generally being smaller. The genus name is Latin for "raven".

<span class="mw-page-title-main">Tool use by non-humans</span>

Tool use by non-humans is a phenomenon in which a non-human animal uses any kind of tool in order to achieve a goal such as acquiring food and water, grooming, combat, defence, communication, recreation or construction. Originally thought to be a skill possessed only by humans, some tool use requires a sophisticated level of cognition. There is considerable discussion about the definition of what constitutes a tool and therefore which behaviours can be considered true examples of tool use. A wide range of animals, including mammals, birds, fish, cephalopods, and insects, are considered to use tools.

<span class="mw-page-title-main">Rook (bird)</span> Species of bird in the crow family Corvidae

The rook is a member of the family Corvidae in the passerine order of birds. It is found in the Palearctic, its range extending from Scandinavia and western Europe to eastern Siberia. It is a large, gregarious, black-feathered bird, distinguished from similar species by the whitish featherless area on the face. Rooks nest collectively in the tops of tall trees, often close to farms or villages, the groups of nests being known as rookeries.

The evolution of cognition is the process by which life on Earth has gone from organisms with little to no cognitive function to a greatly varying display of cognitive function that we see in organisms today. Animal cognition is largely studied by observing behavior, which makes studying extinct species difficult. The definition of cognition varies by discipline; psychologists tend define cognition by human behaviors, while ethologists have widely varying definitions. Ethological definitions of cognition range from only considering cognition in animals to be behaviors exhibited in humans, while others consider anything action involving a nervous system to be cognitive.

<span class="mw-page-title-main">Avian foraging</span>

Avian foraging refers to the range of activities and behaviours exhibited by birds in their quest for food. In addition to their unique body adaptations, birds have a range of described behaviours that differ from the foraging behaviours of other animal groups. According to the foraging habitat, birds may be grouped into foraging guilds. Foraging includes a range of activities, starting with the search for food, making use of sensory abilities, and which may involve one or more birds either of a single or even of multiple species. This is followed by locomotion and movements to obtain or capture the food, followed by the processing or handling of the foods prior to ingestion. Like all organisms foraging entails balancing the energy spent and energy gained. The high metabolic rate of birds, among the highest in the homoeotherm groups, constrains them to ensure a net positive gain in energy and have led evolutionary ethologists to develop the idea of optimal foraging.

References

  1. BirdLife International (2018). "Corvus moneduloides". IUCN Red List of Threatened Species . 2018: e.T22705944A131945232. doi: 10.2305/IUCN.UK.2018-2.RLTS.T22705944A131945232.en . Retrieved 11 November 2021.
  2. 1 2 3 Hunt, Gavin R. (January 1996). "Manufacture and use of hook-tools by New Caledonian crows". Nature. 379 (6562): 249–251. Bibcode:1996Natur.379..249H. doi:10.1038/379249a0. S2CID   4352835.
  3. 1 2 Weir, A.A.S.; Chappell, J. & Kacelnik, A. (2002). "Shaping of hooks in New Caledonian crows". Science . 297 (5583): 981. doi:10.1126/science.1073433. PMID   12169726. S2CID   29196266.
  4. Taylor, Alex H.; Hunt, G. R.; Holzhaider, J. C.; Gray, R. D. (September 2007). "Spontaneous metatool use by New Caledonian crows". Current Biology. 17 (17): 1504–1507. doi: 10.1016/j.cub.2007.07.057 . PMID   17702575. S2CID   20717125.
  5. Wimpenny, Joanna H.; Weir, AAS; Clayton, L; Rutz, C; Kacelnik, A (August 2009). "Cognitive Processes Associated with Sequential Tool Use in New Caledonian Crows". PLOS ONE. 4 (8): e6471. Bibcode:2009PLoSO...4.6471W. doi: 10.1371/journal.pone.0006471 . PMC   2714693 . PMID   19654861.
  6. Kenward, Benjamin; Rutz, Christian; Weir, Alex A. S.; Chappell, Jackie; Kacelnik, Alex (October 2004). "Morphology and sexual dimorphism of the New Caledonian Crow Corvus moneduloides, with notes on its behaviour and ecology" (PDF). Ibis . 146 (4): 652–660. doi:10.1111/j.1474-919x.2004.00299.x . Retrieved 12 August 2014.
  7. Rutz, Christian; Lucas A. Bluff; Nicola Reed; Jolyon Troscianko; Jason Newton; Richard Inger; Alex Kacelnik; Stuart Bearhop (17 September 2010). "The Ecological Significance of Tool Use in New Caledonian Crows". Science. 329 (5998): 1523–1526. Bibcode:2010Sci...329.1523R. doi:10.1126/science.1192053. PMID   20847272. S2CID   8888382.
  8. 1 2 3 4 Hunt, G.R. & Gray, R.D. (2004). "Direct observations of pandanus-tool manufacture and use by a New Caledonian crow (Corvus moneduloides)" (PDF). Animal Cognition. 7 (2): 114–120. doi:10.1007/s10071-003-0200-0. PMID   15069611. S2CID   22381110. Archived from the original (PDF) on 2008-10-16. Retrieved 3 May 2007.
  9. John Pickrell (23 April 2003). "Crows Better at Tool Building Than Chimps, Study Says". National Geographic News. Archived from the original on April 24, 2003. Retrieved 3 May 2007.
  10. Robert Winkler (8 August 2002). "Crow makes wire hook to get food". National Geographic News. Archived from the original on August 10, 2002. Retrieved 3 May 2007.
  11. Davies, Ella (14 January 2011). "Curious crows explore with tools". BBC News.
  12. Alex H. Taylor; Gavin R. Hunt; Jennifer C. Holzhaider & Russell D. Gray (2007). "Spontaneous metatool use by New Caledonian crows". Current Biology. 17 (17): 1504–7. doi: 10.1016/j.cub.2007.07.057 . PMID   17702575. S2CID   20717125.
  13. Randerson, James (August 17, 2007). "Crows match great apes in skilful tool use". The Guardian. London. Retrieved 17 August 2007.
  14. Morelle, Rebecca (August 16, 2006). "Cleverest crows opt for two tools". BBC News. Retrieved 17 August 2007.
  15. Bayern, A. M. P. von; Danel, S.; Auersperg, A. M. I.; Mioduszewska, B.; Kacelnik, A. (2018-10-24). "Compound tool construction by New Caledonian crows". Scientific Reports. 8 (1): 15676. Bibcode:2018NatSR...815676B. doi:10.1038/s41598-018-33458-z. ISSN   2045-2322. PMC   6200727 . PMID   30356096.
  16. "Crows use mirrors to find food". BBC Nature. 20 September 2011. Retrieved 19 May 2012.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.