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Moa

February 16, 2024

This article is about the extinct New Zealand birds known as moa. For other uses, see Moa (disambiguation).

Moa[note 1] (order Dinornithiformes) are an extinct group of flightless birds formerly endemic to New Zealand.[4][note 2] During the Late Pleistocene-Holocene, there were nine species (in six genera). The two largest species, Dinornis robustus and Dinornis novaezelandiae, reached about 3.6 metres (12 ft) in height with neck outstretched, and weighed about 230 kilograms (510 lb)[5] while the smallest, the bush moa (Anomalopteryx didiformis), was around the size of a turkey.[6] Estimates of the moa population when Polynesians settled New Zealand circa 1300 vary between 58,000[7] and approximately 2.5 million.[8]

Moa
Temporal range: MioceneHolocene, 17–0.0006 Ma
North Island giant moa skeleton
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Infraclass: Palaeognathae
Clade: Notopalaeognathae
Order: Dinornithiformes
Bonaparte, 1853[1]
Type species
Dinornis novaezealandiae
Owen, 1843
Subgroups

See text

Diversity[2]
6 genera, 9 species
Synonyms[3]
  • Dinornithes Gadow, 1893
  • Immanes Newton, 1884

Moa are traditionally placed in the ratite group.[4] However, genetic studies have found that their closest relatives are the flighted South American tinamous, once considered a sister group to ratites.[9] The nine species of moa were the only wingless birds, lacking even the vestigial wings that all other ratites have. They were the largest terrestrial animals and dominant herbivores in New Zealand's forest, shrubland, and subalpine ecosystems until the arrival of the Māori, and were hunted only by the Haast's eagle. Moa extinction occurred within 100 years of human settlement of New Zealand, primarily due to overhunting.[7]

Etymology edit

The word moa is a Polynesian term for domestic fowl. The name was not in common use among the Māori by the time of European contact, likely because the bird it described had been extinct for some time, and traditional stories about it were rare. The earliest record of the name was by missionaries William Williams and William Colenso in January 1838; Colenso speculated that the birds may have resembled gigantic fowl. In 1912, Māori chief Urupeni Pūhara claimed that the moa's traditional name was "te kura" (the red bird).[10]

Description edit

 
A size comparison between four moa species and a human
1. Dinornis novaezealandiae
2. Emeus crassus
3. Anomalopteryx didiformis
4. Dinornis robustus

Moa skeletons were traditionally reconstructed in an upright position to create impressive height, but analysis of their vertebral articulations indicates that they probably carried their heads forward,[11] in the manner of a kiwi. The spine was attached to the rear of the head rather than the base, indicating the horizontal alignment. This would have let them graze on low vegetation, while being able to lift their heads and browse trees when necessary. This has resulted in a reconsideration of the height of larger moa. However, Māori rock art depicts moa or moa-like birds (likely geese or adzebills) with necks upright, indicating that moa were more than capable of assuming both neck postures.[12][13]

No records survive of what sounds moa made, though some idea of their calls can be gained from fossil evidence. The trachea of moa were supported by many small rings of bone known as tracheal rings. Excavation of these rings from articulated skeletons has shown that at least two moa genera (Euryapteryx and Emeus) exhibited tracheal elongation, that is, their trachea were up to 1 m (3 ft) long and formed a large loop within the body cavity.[11] They are the only ratites known to exhibit this feature, which is also present in several other bird groups, including swans, cranes, and guinea fowl. The feature is associated with deep resonant vocalisations that can travel long distances.

Evolutionary relationships edit

 
A comparison of a kiwi (l), ostrich (c), and Dinornis (r), each with its egg

The moa's closest relatives are small terrestrial South American birds called the tinamous, which can fly.[9][14][15][16] Previously, the kiwi, the Australian emu, and cassowary[17] were thought to be most closely related to moa.

Although dozens of species were described in the late 19th and early 20th centuries, many were based on partial skeletons and turned out to be synonyms. Currently, 11 species are formally recognised, although recent studies using ancient DNA recovered from bones in museum collections suggest that distinct lineages exist within some of these. One factor that has caused much confusion in moa taxonomy is the intraspecific variation of bone sizes, between glacial and interglacial periods (see Bergmann’s rule and Allen’s rule) as well as sexual dimorphism being evident in several species. Dinornis seems to have had the most pronounced sexual dimorphism, with females being up to 150% as tall and 280% as heavy as males—so much bigger that they were classified as separate species until 2003.[18][19] A 2009 study showed that Euryapteryx curtus and E. gravis were synonyms.[20] A 2010 study explained size differences among them as sexual dimorphism.[21] A 2012 morphological study interpreted them as subspecies, instead.[22]

Analyses of ancient DNA have determined that a number of cryptic evolutionary lineages occurred in several moa genera.[23] These may eventually be classified as species or subspecies; Megalapteryx benhami (Archey) is synonymised with M. didinus (Owen) because the bones of both share all essential characters. Size differences can be explained by a north–south cline combined with temporal variation such that specimens were larger during the Otiran glacial period (the last ice age in New Zealand). Similar temporal size variation is known for the North Island's Pachyornis mappini.[24] Some of the other size variation for moa species can probably be explained by similar geographic and temporal factors.[25]

The earliest moa remains come from the Miocene Saint Bathans Fauna. Known from multiple eggshells and hind limb elements, these represent at least two already fairly large-sized species.[26]

Classification edit

Taxonomy edit

 
Anomalopteryx didiformis skeleton
 
Fossil skeleton of the heavy-footed moa (Pachyornis elephantopus)

The currently recognised genera and species are:[5]

Two unnamed species are also known from the Saint Bathans Fauna.[26]

Phylogeny edit

Because moa are a group of flightless birds with no vestiges of wing bones, questions have been raised about how they arrived in New Zealand, and from where. Many theories exist about the moa's arrival and radiation in New Zealand, but the most recent theory suggests that they arrived in New Zealand about 60 million years ago (Mya) and split from the "basal" (see below) moa species, Megalapteryx, about 5.8 Mya[27] instead of the 18.5 Mya split suggested by Baker et al. (2005). This does not necessarily mean there was no speciation between the arrival 60 Mya and the basal split 5.8 Mya, but the fossil record is lacking and most likely the early moa lineages existed, but became extinct before the basal split 5.8 Mya.[28] The presence of Miocene-aged species certainly suggests that moa diversification began before the split between Megalapteryx and the other taxa.[26]

The Oligocene Drowning Maximum event, which occurred about 22 Mya, when only 18% of present-day New Zealand was above sea level, is very important in the moa radiation. Because the basal moa split occurred so recently (5.8 Mya), it was argued that ancestors of the Quaternary moa lineages could not have been present on both the South and North Island remnants during the Oligocene drowning.[29] This does not imply that moa were previously absent from the North Island, but that only those from the South Island survived, because only the South Island was above sea level. Bunce et al. (2009) argued that moa ancestors survived on the South Island and then recolonised the North Island about 2 Myr later, when the two islands rejoined after 30 Myr of separation.[19] The presence of Miocene moa in the Saint Bathans fauna seems to suggest that these birds increased in size soon after the Oligocene drowning event, if they were affected by it at all.[26]

Bunce et al. also concluded that the highly complex structure of the moa lineage was caused by the formation of the Southern Alps about 6 Mya, and the habitat fragmentation on both islands resulting from Pleistocene glacial cycles, volcanism, and landscape changes.[19] The cladogram below is a phylogeny of Palaeognathae generated by Mitchell (2014)[15] with some clade names after Yuri et al. (2013).[30] It provides the position of the moa (Dinornithiformes) within the larger context of the "ancient jawed" (Palaeognathae) birds:

The cladogram below gives a more detailed, species-level phylogeny, of the moa branch (Dinornithiformes) of the "ancient jawed" birds (Palaeognathae) shown above:[19]

Distribution and habitat edit

Analyses of fossil moa bone assemblages have provided detailed data on the habitat preferences of individual moa species, and revealed distinctive regional moa faunas:[11][31][32][33][34][35][36]

South Island edit

 
A restoration of Dinornis robustus and Pachyornis elephantopus, both from the South Island

The two main faunas identified in the South Island include:

The fauna of the high-rainfall west coast beech (Nothofagus) forests that included Anomalopteryx didiformis (bush moa) and Dinornis robustus (South Island giant moa), and
The fauna of the dry rainshadow forest and shrublands east of the Southern Alps that included Pachyornis elephantopus (heavy-footed moa), Euryapteryx gravis, Emeus crassus, and Dinornis robustus.

A 'subalpine fauna' might include the widespread D. robustus, and the two other moa species that existed in the South Island:

Pachyornis australis, the rarest moa species, the only moa species not yet found in Māori middens. Its bones have been found in caves in the northwest Nelson and Karamea districts (such as Honeycomb Hill Cave), and some sites around the Wānaka district.
Megalapteryx didinus, more widespread, named "upland moa" because its bones are commonly found in the subalpine zone. However, it also occurred down to sea level, where suitable steep and rocky terrain (such as Punakaiki on the west coast and Central Otago) existed. Their distributions in coastal areas have been rather unclear, but were present at least in several locations such as on Kaikōura, Otago Peninsula,[37] and Karitane.[38]
 
The skeletons of an eastern moa (l), ostrich (rear), and Fiordland penguin (r) in the Otago Museum

North Island edit

Significantly less is known about North Island paleofaunas, due to a paucity of fossil sites compared to the South Island, but the basic pattern of moa-habitat relationships was the same.[11] The South Island and the North Island shared some moa species (Euryapteryx gravis, Anomalopteryx didiformis), but most were exclusive to one island, reflecting divergence over several thousand years since lower sea level in the Ice Age had made a land bridge across the Cook Strait.[11]

In the North Island, Dinornis novaezealandiae and Anomalopteryx didiformis dominated in high-rainfall forest habitat, a similar pattern to the South Island. The other moa species present in the North Island (Euryapteryx gravis, E. curtus, and Pachyornis geranoides) tended to inhabit drier forest and shrubland habitats. P. geranoides occurred throughout the North Island. The distributions of E. gravis and E. curtus were almost mutually exclusive, the former having only been found in coastal sites around the southern half of the North Island.[11]

Behaviour and ecology edit

 
Preserved footprints of a D. novaezealandiae found in 1911

About eight moa trackways, with fossilised moa footprint impressions in fluvial silts, have been found in the North Island, including Waikanae Creek (1872), Napier (1887), Manawatū River (1895), Marton (1896), Palmerston North (1911) (see photograph to left), Rangitīkei River (1939), and under water in Lake Taupō (1973). Analysis of the spacing of these tracks indicates walking speeds between 3 and 5 km/h (1.75–3 mph).[11]

Diet edit

 
D. novaezealandiae skull at the Museum für Naturkunde, Berlin

Their diet has been deduced from fossilised contents of their gizzards[39][40] and coprolites,[41] as well as indirectly through morphological analysis of skull and beak, and stable isotope analysis of their bones.[11] Moa fed on a range of plant species and plant parts, including fibrous twigs and leaves taken from low trees and shrubs. The beak of Pachyornis elephantopus was analogous to a pair of secateurs, and could clip the fibrous leaves of New Zealand flax (Phormium tenax) and twigs up to at least 8 mm in diameter.[40]

Moa filled the ecological niche occupied in other countries by large browsing mammals such as antelope and llamas.[42] Some biologists contend that a number of plant species evolved to avoid moa browsing.[42] Divaracating plants such as Pennantia corymbosa (the kaikōmako), which have small leaves and a dense mesh of branches, and Pseudopanax crassifolius (the horoeka or lancewood), which has tough juvenile leaves, are possible examples of plants that evolved in such a way.

Like many other birds, moa swallowed gizzard stones (gastroliths), which were retained in their muscular gizzards, providing a grinding action that allowed them to eat coarse plant material. These stones were commonly smooth rounded quartz pebbles, but stones over 110 millimetres (4 in) long have been found among preserved moa gizzard contents.[40] Dinornis gizzards could often contain several kilograms of stones.[11] Moa likely exercised a certain selectivity in the choice of gizzard stones and chose the hardest pebbles.[43]

Reproduction edit

The pairs of species of moa described as Euryapteryx curtus / E. exilis, Emeus huttonii / E. crassus, and Pachyornis septentrionalis / P. mappini have long been suggested to constitute males and females, respectively. This has been confirmed by analysis for sex-specific genetic markers of DNA extracted from bone material.[18]

For example, before 2003, three species of Dinornis were recognised: South Island giant moa (D. robustus), North Island giant moa (D. novaezealandiae), and slender moa (D. struthioides). However, DNA showed that all D. struthioides were males, and all D. robustus were females. Therefore, the three species of Dinornis were reclassified as two species, one each formerly occurring on New Zealand's North Island (D. novaezealandiae) and South Island (D. robustus);[18][44] D. robustus however, comprises three distinct genetic lineages and may eventually be classified as many species, as discussed above.

Examination of growth rings in moa cortical bone has revealed that these birds were K-selected, as are many other large endemic New Zealand birds.[17] They are characterised by having a low fecundity and a long maturation period, taking about 10 years to reach adult size. The large Dinornis species took as long to reach adult size as small moa species, and as a result, had fast skeletal growth during their juvenile years.[17]

No evidence has been found to suggest that moa were colonial nesters. Moa nesting is often inferred from accumulations of eggshell fragments in caves and rock shelters, little evidence exists of the nests themselves. Excavations of rock shelters in the eastern North Island during the 1940s found moa nests, which were described as "small depressions obviously scratched out in the soft dry pumice".[45] Moa nesting material has also been recovered from rock shelters in the Central Otago region of the South Island, where the dry climate has preserved plant material used to build the nesting platform (including twigs clipped by moa bills).[46] Seeds and pollen within moa coprolites found among the nesting material provide evidence that the nesting season was late spring to summer.[46]

Fragments of moa eggshell are often found in archaeological sites and sand dunes around the New Zealand coast. Thirty-six whole moa eggs exist in museum collections and vary greatly in size (from 120–240 millimetres (4.7–9.4 in) in length and 91–178 millimetres (3.6–7.0 in) wide).[47] The outer surface of moa eggshell is characterised by small, slit-shaped pores. The eggs of most moa species were white, although those of the upland moa (Megalapteryx didinus) were blue-green.[48]

A 2010 study by Huynen et al. found that the eggs of certain species were fragile, only around a millimetre in shell thickness: "Unexpectedly, several thin-shelled eggs were also shown to belong to the heaviest moa of the genera Dinornis, Euryapteryx, and Emeus, making these, to our knowledge, the most fragile of all avian eggs measured to date. Moreover, sex-specific DNA recovered from the outer surfaces of eggshells belonging to species of Dinornis and Euryapteryx suggest that these very thin eggs were likely to have been incubated by the lighter males. The thin nature of the eggshells of these larger species of moa, even if incubated by the male, suggests that egg breakage in these species would have been common if the typical contact method of avian egg incubation was used."[48] Despite the bird's extinction, the high yield of DNA available from recovered fossilised eggs has allowed the moa's genome to be sequenced.[49]

  •  
    The skeleton of female upland moa with egg in unlaid position within the pelvic cavity in Otago Museum
  •  
    An egg and embryo fragments of Emeus crassus
  •  
    Restoration of an upland moa

Pre-human forests edit

Studies of accumulated dried vegetation in the pre-human mid-late Holocene period suggests a low Sophora microphylla or Kōwai forest ecosystem in Central Otago that was used and perhaps maintained by moa, for both nesting material and food. Neither the forests nor moa existed when European settlers came to the area in the 1850s.[50]

Relationship with humans edit

Extinction edit

 
An early 20th-century reconstruction of a moa hunt

Before the arrival of humans, the moa's only predator was the massive Haast's eagle. New Zealand had been isolated for 80 million years and had few predators before human arrival, meaning that not only were its ecosystems extremely vulnerable to perturbation by outside species, but also the native species were ill-equipped to cope with human predators.[51][52] Polynesians arrived sometime before 1300, and all moa genera were soon driven to extinction by hunting and, to a lesser extent, by habitat reduction due to forest clearance. By 1445, all moa had become extinct, along with Haast's eagle, which had relied on them for food. Recent research using carbon-14 dating of middens strongly suggests that the events leading to extinction took less than a hundred years,[53] rather than a period of exploitation lasting several hundred years as previously hypothesised.

An expedition in the 1850s under Lieutenant A. Impey reported two emu-like birds on a hillside in the South Island; an 1861 story from the Nelson Examiner told of three-toed footprints measuring 36 cm (14 in) between Tākaka and Riwaka that were found by a surveying party; and finally in 1878, the Otago Witness published an additional account from a farmer and his shepherd.[54] An 80-year-old woman, Alice McKenzie, claimed in 1959 that she had seen a moa in Fiordland bush in 1887, and again on a Fiordland beach when she was 17 years old. She claimed that her brother had also seen a moa on another occasion.[55] In childhood, Mackenzie saw a large bird that she believed to be a takahē, but after its rediscovery in the 1940s, she saw a picture of it and concluded that she had seen something else.[56]

Some authors have speculated that a few Megalapteryx didinus may have persisted in remote corners of New Zealand until the 18th and even 19th centuries, but this view is not widely accepted.[57] Some Māori hunters claimed to be in pursuit of the moa as late as the 1770s; however, these accounts possibly did not refer to the hunting of actual birds as much as a now-lost ritual among South Islanders.[58] Whalers and sealers recalled seeing monstrous birds along the coast of the South Island, and in the 1820s, a man named George Pauley made an unverified claim of seeing a moa in the Otago region of New Zealand.[59][54] Occasional speculation since at least the late 19th century,[60][61] and as recently as 2008,[62] has suggested that some moa may still exist, particularly in the wilderness of South Westland and Fiordland. A 1993 report initially interested the Department of Conservation, but the animal in a blurry photograph was identified as a red deer.[63][64] Cryptozoologists continue to search for them, but their claims and supporting evidence (such as of purported footprints)[62] have earned little attention from experts and are pseudoscientific.[57]

The rediscovery of the takahē in 1948 after none had been seen since 1898 showed that rare birds can exist undiscovered for a long time. However, the takahē is a much smaller bird than the moa, and was rediscovered after its tracks were identified—yet no reliable evidence of moa tracks has ever been found, and experts still contend that moa survival is extremely unlikely, since they would have to be living unnoticed for over 500 years in a region visited often by hunters and hikers.[62]

Surviving remains edit

 
Sir Richard Owen holding the first discovered moa fossil and standing with a Dinornis skeleton, 1879

Joel Polack, a trader who lived on the East Coast of the North Island from 1834 to 1837, recorded in 1838 that he had been shown "several large fossil ossifications" found near Mt Hikurangi. He was certain that these were the bones of a species of emu or ostrich, noting that "the Natives add that in times long past they received the traditions that very large birds had existed, but the scarcity of animal food, as well as the easy method of entrapping them, has caused their extermination". Polack further noted that he had received reports from Māori that a "species of Struthio" still existed in remote parts of the South Island.[65][66]

Dieffenbach[67] also refers to a fossil from the area near Mt Hikurangi, and surmises that it belongs to "a bird, now extinct, called Moa (or Movie) by the natives". 'Movie' is the first transcribed name for the bird.[68][69] In 1839, John W. Harris, a Poverty Bay flax trader who was a natural-history enthusiast, was given a piece of unusual bone by a Māori who had found it in a river bank. He showed the 15 cm (6 in) fragment of bone to his uncle, John Rule, a Sydney surgeon, who sent it to Richard Owen, who at that time was working at the Hunterian Museum at the Royal College of Surgeons in London.[54]

 
Owen's first bone fragment

Owen puzzled over the fragment for almost four years. He established it was part of the femur of a big animal, but it was uncharacteristically light and honeycombed. Owen announced to a skeptical scientific community and the world that it was from a giant extinct bird like an ostrich, and named it Dinornis. His deduction was ridiculed in some quarters, but was proved correct with the subsequent discoveries of considerable quantities of moa bones throughout the country, sufficient to reconstruct skeletons of the birds.[54]

In July 2004, the Natural History Museum in London placed on display the moa bone fragment Owen had first examined, to celebrate 200 years since his birth, and in memory of Owen as founder of the museum.

 
An excavation in Kapua Swamp, 1894

Since the discovery of the first moa bones in the late 1830s, thousands more have been found. They occur in a range of late Quaternary and Holocene sedimentary deposits, but are most common in three main types of site: caves, dunes, and swamps.

 
Palaeontologists working on moa bone deposits in the 'Graveyard', Honeycomb Hill Cave System: This cave is a closed scientific reserve.

Bones are commonly found in caves or tomo (the Māori word for doline or sinkhole, often used to refer to pitfalls or vertical cave shafts). The two main ways that the moa bones were deposited in such sites were birds that entered the cave to nest or escape bad weather, and subsequently died in the cave and birds that fell into a vertical shaft and were unable to escape. Moa bones (and the bones of other extinct birds) have been found in caves throughout New Zealand, especially in the limestone/marble areas of northwest Nelson, Karamea, Waitomo, and Te Anau.

Moa bones and eggshell fragments sometimes occur in active coastal sand dunes, where they may erode from paleosols and concentrate in 'blowouts' between dune ridges. Many such moa bones antedate human settlement, although some originate from Māori midden sites, which frequently occur in dunes near harbours and river mouths (for example the large moa hunter sites at Shag River, Otago, and Wairau Bar, Marlborough).

Densely intermingled moa bones have been encountered in swamps throughout New Zealand. The most well-known example is at Pyramid Valley in north Canterbury,[70] where bones from at least 183 individual moa have been excavated, mostly by Roger Duff of Canterbury Museum.[71] Many explanations have been proposed to account for how these deposits formed, ranging from poisonous spring waters to floods and wildfires. However, the currently accepted explanation is that the bones accumulated slowly over thousands of years, from birds that entered the swamps to feed and became trapped in the soft sediment.[72]

Many New Zealand and international museums hold moa bone collections. Auckland War Memorial Museum – Tāmaki Paenga Hira has a significant collection, and in 2018 several moa skeletons were imaged and 3D scanned to make the collections more accessible.[73] There is also a major collection in Otago Museum in Dunedin.

Feathers and soft tissues edit

 
A Megalapteryx didinus head.

Several examples of moa remains have been found with soft tissues (muscle, skin, feathers) preserved through desiccation after the bird died at a dry site (for example, a cave with a constant dry breeze blowing through it). Most were found in the semiarid Central Otago region, the driest part of New Zealand. These include:

  • Dried muscle on bones of a female Dinornis robustus found at Tiger Hill in the Manuherikia River Valley by gold miners in 1864[74] (currently held by Yorkshire Museum)
  • Several bones of Emeus crassus with muscle attached, and a row of neck vertebrae with muscle, skin, and feathers collected from Earnscleugh Cave near the town of Alexandra in 1870[75] (currently held by Otago Museum)
  • An articulated foot of a male D. giganteus with skin and foot pads preserved, found in a crevice on the Knobby Range in 1874[76] (currently held by Otago Museum)
  • The type specimen of Megalapteryx didinus found near Queenstown in 1878[74] (currently held by Natural History Museum, London; see photograph of foot on this page)
  • The lower leg of Pachyornis elephantopus, with skin and muscle, from the Hector Range in 1884;[57][76] (currently held by the Zoology Department, Cambridge University)
  • The complete feathered leg of a M. didinus from Old Man Range in 1894[77] (currently held by Otago Museum)
  • The head of a M. didinus found near Cromwell sometime before 1949[78] (currently held by the Museum of New Zealand).

Two specimens are known from outside the Central Otago region:

  • A complete foot of M. didinus found in a cave on Mount Owen near Nelson in the 1980s[79] (currently held by the Museum of New Zealand)
  • A skeleton of Anomalopteryx didiformis with muscle, skin, and feather bases collected from a cave near Te Anau in 1980.[80]
 
A preserved Megalapteryx foot, Natural History Museum

In addition to these specimens, loose moa feathers have been collected from caves and rock shelters in the southern South Island, and based on these remains, some idea of the moa plumage has been achieved. The preserved leg of M. didinus from the Old Man Range reveals that this species was feathered right down to the foot. This is likely to have been an adaptation to living in high-altitude, snowy environments, and is also seen in the Darwin’s rhea, which lives in a similar seasonally snowy habitat.[11]

Moa feathers are up to 23 cm (9 in) long, and a range of colours has been reported, including reddish-brown, white, yellowish, and purplish.[11] Dark feathers with white or creamy tips have also been found, and indicate that some moa species may have had plumage with a speckled appearance.[81]

Potential revival edit

The creature has frequently been mentioned as a potential candidate for revival by cloning. Its iconic status, coupled with the facts that it only became extinct a few hundred years ago and that substantial quantities of moa remains exist, mean that it is often listed alongside such creatures as the dodo as leading candidates for de-extinction.[82] Preliminary work involving the extraction of DNA has been undertaken by Japanese geneticist Ankoh Yasuyuki Shirota.[83][84]

Interest in the moa's potential for revival was further stirred in mid-2014 when New Zealand Member of Parliament Trevor Mallard suggested that bringing back some smaller species of moa within 50 years was a viable idea.[85] The idea was ridiculed by many, but gained support from some natural history experts.[86]

In literature and culture edit

 
Harder's illustration of a moa hunt

Heinrich Harder portrayed moa being hunted by Māori in the classic German collecting cards about extinct and prehistoric animals, "Tiere der Urwelt", in the early 1900s.

Allen Curnow's poem, "The Skeleton of the Great Moa in the Canterbury Museum, Christchurch" was published in 1943.[87][88]

See also edit

General:

Footnotes edit

  1. ^ Brands, S. (2008)
  2. ^ a b Stephenson, Brent (2009)
  3. ^ Brodkob, Pierce (1963). "Catalogue of fossil birds 1. Archaeopterygiformes through Ardeiformes". Biological Sciences, Bulletin of the Florida State Museum. 7 (4): 180–293. Retrieved 30 December 2015.
  4. ^ a b OSNZ (2009)
  5. ^ a b Davies, S.J.J.F. (2003)
  6. ^ "Little bush moa | New Zealand Birds Online". nzbirdsonline.org.nz. Retrieved 24 July 2020.
  7. ^ a b Perry, George L.W.; Wheeler, Andrew B.; Wood, Jamie R.; Wilmshurst, Janet M. (1 December 2014). "A high-precision chronology for the rapid extinction of New Zealand moa (Aves, Dinornithiformes)". Quaternary Science Reviews. 105: 126–135. Bibcode:2014QSRv..105..126P. doi:10.1016/j.quascirev.2014.09.025. Retrieved 22 December 2014.
  8. ^ Latham, A. David M.; Latham, M. Cecilia; Wilmshurst, Janet M.; Forsyth, David M.; Gormley, Andrew M.; Pech, Roger P.; Perry, George L. W.; Wood, Jamie R. (March 2020). "A refined model of body mass and population density in flightless birds reconciles extreme bimodal population estimates for extinct moa". Ecography. 43 (3): 353–364. Bibcode:2020Ecogr..43..353L. doi:10.1111/ecog.04917. ISSN 0906-7590.
  9. ^ a b Phillips, et al. (2010)
  10. ^ "Story: Moa". govt.nz. Retrieved 15 January 2022.
  11. ^ a b c d e f g h i j k Worthy & Holdaway (2002)
  12. ^ Schoon, Theo. "Cave drawing of a moa". Te Ara Encyclopedia of New Zealand. Te Ara.
  13. ^ "Te Manunui Rock Art Site". Heritage New Zealand.
  14. ^ Allentoft, M.E.; Rawlence, N.J. (20 January 2012). "Moa's Ark or volant ghosts of Gondwana? Insights from nineteen years of ancient DNA research on the extinct moa (Aves: Dinornithiformes) of New Zealand" (PDF). Annals of Anatomy - Anatomischer Anzeiger. 194 (1): 36–51. doi:10.1016/j.aanat.2011.04.002. PMID 21596537.
  15. ^ a b Mitchell, K.J.; Llamas, B.; Soubrier, J.; Rawlence, N.J.; Worthy, Trevor; Wood, J.; Lee, M.S.Y.; Cooper, A. (23 May 2014). (PDF). Science. 344 (6186): 898–900. Bibcode:2014Sci...344..898M. doi:10.1126/science.1251981. hdl:2328/35953. PMID 24855267. S2CID 206555952. Archived from the original (PDF) on 30 May 2019.
  16. ^ Baker, A.J.; Haddrath, O.; McPherson, J.D.; Cloutier, A. (2014). "Genomic Support for a Moa-Tinamou Clade and Adaptive Morphological Convergence in Flightless Ratites". Molecular Biology and Evolution. 31 (7): 1686–1696. doi:10.1093/molbev/msu153. PMID 24825849.  
  17. ^ a b c Turvey et al. (2005)
  18. ^ a b c Huynen, L.J., et al. (2003)
  19. ^ a b c d Bunce, M., et al. (2003)
  20. ^ Bunce, M.; Worthy, Trevor; Phillips, M.J.; Holdaway, Richard; Willerslev, E.; Haile, J.; Shapiro, B.; Scofield, R.P.; Drummond, A.; Kamp, P.J.J.; Cooper, A. (2009). "The evolutionary history of the extinct ratite moa and New Zealand Neogene paleogeography". Proceedings of the National Academy of Sciences. 106 (49): 20646–20651. Bibcode:2009PNAS..10620646B. doi:10.1073/pnas.0906660106. PMC 2791642. PMID 19923428.
  21. ^ Gill, B.J. (2010). (PDF). Records of the Australian Museum. 62: 115–122. doi:10.3853/j.0067-1975.62.2010.1535. Archived from the original (PDF) on 11 April 2019.
  22. ^ Worthy, Trevor; Scofield, R.P. (2012). "Twenty-first century advances in knowledge of the biology of moa (Aves: Dinornithiformes): A new morphological analysis and moa diagnoses revised". New Zealand Journal of Zoology. 39 (2): 87–153. doi:10.1080/03014223.2012.665060. S2CID 83768608.  
  23. ^ Baker, A.J.; Huynen, L.J.; Haddrath, O.; Millar, C.D.; Lambert, D.M. (2005). "Reconstructing the tempo and mode of evolution in an extinct clade of birds with ancient DNA: The giant moas of New Zealand". Proceedings of the National Academy of Sciences. 102 (23): 8257–8262. Bibcode:2005PNAS..102.8257B. doi:10.1073/pnas.0409435102. PMC 1149408. PMID 15928096.
  24. ^ Worthy (1987)
  25. ^ Worthy, et al. (1988)
  26. ^ a b c d Tennyson, A.J.D.; Worthy, Trevor; Jones, C.M.; Scofield, R.P.; Hand, S.J. (2010). (PDF). Records of the Australian Museum. 62: 105–114. doi:10.3853/j.0067-1975.62.2010.1546. Archived from the original (PDF) on 11 April 2019.
  27. ^ Bunce, M.; Worthy, Trevor; Phillips, M.J.; Holdaway, Richard; Willerslev, E.; Hailef, J.; Shapiro, B.; Scofield, R.P.; Drummond, A.; Kampk, P.J.J.; Cooper, A. (2009). "The evolutionary history of the extinct ratite moa and New Zealand Neogene paleogeography". Proceedings of the National Academy of Sciences. 106 (49): 20646–20651. Bibcode:2009PNAS..10620646B. doi:10.1073/pnas.0906660106. PMC 2791642. PMID 19923428.
  28. ^ Allentoft, Morten; Rawlence, Nicolas (2012). "Moa's ark or volant ghosts of Gondwana? Insights from nineteen years of ancient DNA research on the extinct moa (Aves: Dinornithiformes) of New Zealand" (PDF). Annals of Anatomy. 194 (1): 36–51. doi:10.1016/j.aanat.2011.04.002. PMID 21596537.
  29. ^ Allentoft, Morten; Nicloas Rawlence (2012). "Moa's ark or volant ghosts of Gondwana? Insights from nineteen years of ancient DNA research on the extinct moa (Aves: Dinornithiformes) of New Zealand". Annals of Anatomy. 194 (1): 36–51. doi:10.1016/j.aanat.2011.04.002. PMID 21596537.
  30. ^ Yuri, T. (2013). "Parsimony and model-based analyses of indels in avian nuclear genes reveal congruent and incongruent phylogenetic signals". Biology. 2 (1): 419–444. doi:10.3390/biology2010419. PMC 4009869. PMID 24832669.  
  31. ^ Worthy, Trevor (1998)a
  32. ^ Worthy, Trevor (1998)b
  33. ^ Worthy, Trevor & Holdaway, Richard (1993)
  34. ^ Worthy, Trevor & Holdaway, Richard (1994)
  35. ^ Worthy, Trevor & Holdaway, Richard (1995)
  36. ^ Worthy, Trevor & Holdaway, Richard (1996)
  37. ^ Buick L.T. (1937). "The Moa-Hunters of New Zealand: Sportsman of the Stone Age – Chapter I. Did The Maori Know The Moa?". Victoria University of Wellington Catalogue – New Zealand Texts Collection. W & T Avery Ltd. Retrieved 3 February 2015.
  38. ^ Teviotdale D. (1932). "The material culture of the Moa-hunters in Murihiku – 2. Evidence of Zoology". The Journal of the Polynesian Society. 41 (162): 81–120. Retrieved 3 February 2015.
  39. ^ Burrows, et al. (1981)
  40. ^ a b c Wood (2007)
  41. ^ Horrocks, et al. (2004)
  42. ^ a b Gibbs, George W. (2006). Ghosts of Gondwana: the history of life in New Zealand. Nelson, N.Z.: Craig Potton Pub. ISBN 978-1877333484. OCLC 83611783.
  43. ^ Smalley, I.J. (1979). "Moas as rockhounds". Nature. 281 (5727): 103–104. Bibcode:1979Natur.281..103S. doi:10.1038/281103b0. S2CID 33405428.
  44. ^ Bunce, M.; Worthy, Trevor; Ford, T.; Hoppitt, W.; Willerslev, E.; Drummond, A.; Cooper, A. (2003). (PDF). Nature. 425 (6954): 172–175. Bibcode:2003Natur.425..172B. doi:10.1038/nature01871. PMID 12968178. S2CID 1515413. Archived from the original (PDF) on 28 January 2019.
  45. ^ Hartree (1999)
  46. ^ a b Wood, J.R. (2008)
  47. ^ Gill, B.J. (2007)
  48. ^ a b Huynen, Leon; Gill, Brian J.; Millar, Craig D.; and Lambert, David M. (2010)
  49. ^ Yong, Ed. (2010)
  50. ^ Pole, Mike (31 December 2021). "A vanished ecosystem: Sophora microphylla (Kōwhai) dominated forest recorded in mid-late Holocene rock shelters in Central Otago, New Zealand". Palaeontologia Electronica. 25 (1): 1–41. doi:10.26879/1169. ISSN 1094-8074. S2CID 245807815.
  51. ^ Mein Smith, Philippa (2012). A Concise History of New Zealand. Cambridge University Press. pp. 2, 5–6. ISBN 978-1107402171.
  52. ^ Milberg, Per; Tyrberg, Tommy (1993). "Naïve birds and noble savages – a review of man-caused prehistoric extinctions of island birds". Ecography. 16 (3): 229–250. doi:10.1111/j.1600-0587.1993.tb00213.x.
  53. ^ Holdaway & Jacomb (2000)
  54. ^ a b c d Fuller, Errol (1987)
  55. ^ "Alice McKenzie and the Moa". Radio New Zealand.
  56. ^ "Alice Mackenzie describes seeing a moa and talks about her book, Pioneers of Martins Bay".
  57. ^ a b c Anderson (1989)
  58. ^ Anderson, Atholl (1990). Prodigious Birds: Moas and Moa-Hunting in New Zealand. Cambridge University Press.
  59. ^ Purcell, Rosamond (1999)
  60. ^ Gould, C. (1886)
  61. ^ Heuvelmans, B (1959)
  62. ^ a b c Laing, Doug (2008)
  63. ^ Nickell, Joe (26 May 2017). "The New Zealand Moa: From Extinct Bird to Cryptid". Skeptical Briefs. Center for Inquiry. 27 (1): 8–9.
  64. ^ Nickell, Joe (26 May 2017). "The New Zealand Moa: From Extinct Bird to Cryptid". Skeptical Inquirer. Retrieved 12 May 2019.
  65. ^ Polack, J.S. (1838)
  66. ^ Hill, H. (1913)
  67. ^ Dieffenbach, E. (1843)
  68. ^ Taonga, New Zealand Ministry for Culture and Heritage Te Manatu. "4. – Moa – Te Ara: The Encyclopedia of New Zealand". teara.govt.nz. Retrieved 4 May 2019.
  69. ^ Berentson, Quinn. (2012). Moa : the life and death of New Zealand's legendary bird. Nelson, N.Z.: Craig Potton. ISBN 978-1877517846. OCLC 819110163.
  70. ^ Holdaway, Richard & Worthy, Trevor (1997)
  71. ^ Davidson, Janet. "Roger Shepherd Duff". Dictionary of New Zealand Biography. Ministry for Culture and Heritage.
  72. ^ Wood, J.R., et al. (2008)
  73. ^ "Digitising moa". Retrieved 2 February 2022.
  74. ^ a b Owen, R. (1879)
  75. ^ Hutton, F.W. & Coughtrey, M. (1875)
  76. ^ a b Buller, W.L. (1888)
  77. ^ Hamilton, A. (1894)
  78. ^ Vickers-Rich, et al. (1995)
  79. ^ Worthy, Trevor (1989)
  80. ^ Forrest, R.M. (1987)
  81. ^ Rawlence, N.J.; Wood, J.R.; Armstrong, K.N.; Cooper, A. (2009). "DNA content and distribution in ancient feathers and potential to reconstruct the plumage of extinct avian taxa". Proceedings of the Royal Society B: Biological Sciences. 276 (1672): 3395–3402. doi:10.1098/rspb.2009.0755. PMC 2817183. PMID 19570784.
  82. ^ Le Roux, M., "Scientists plan to resurrect a range of extinct animals using DNA and cloning", Courier Mail, 23 April 2013. Retrieved 25 July 2014.
  83. ^ Young, E (1997). "Moa genes could rise from the dead". New Scientist. 153 (2063).
  84. ^ "", New Zealand Science Monthly, February 1997. Retrieved 25 July 2014.
  85. ^ O'Brien, T. ", 3news, 1 July 2014. Retrieved 25 July 2014.
  86. ^ Tohill, M.-J., "Expert supports Moa revival idea", stuff.co.nz, 9 July 2014. Retrieved 25 July 2014.
  87. ^ "A poem a day: The Skeleton of the Great Moa in the Canterbury Museum, Christchurch – Allen Curnow". 25 April 2011. from the original on 1 February 2020.
  88. ^ Curnow, Allen (1944). Sailing or Drowning. Wellington: Progressive Publishing Society.

Notes edit

  1. ^ The word moa is from the Māori language and is both singular and plural. Usage in New Zealand English and in the scientific literature in recent years has been changing to reflect this.
  2. ^ At least two distinct forms are also known from the Saint Bathans Fauna.

References edit

  • Anderson, Atholl (1989). "On evidence for the survival of moa in European Fiordland" (PDF). New Zealand Journal of Ecology. 12 (Supplement): 39–44.
  • Baker, Allan J.; Huynen, Leon J.; Haddrath, Oliver; Millar, Craig D.; Lambert, David M. (2005). "Reconstructing the tempo and mode of evolution in an extinct clade of birds with ancient DNA: The giant moas of New Zealand". PNAS. 102 (23): 8257–8262. Bibcode:2005PNAS..102.8257B. doi:10.1073/pnas.0409435102. PMC 1149408. PMID 15928096.
  • Brands, Sheila (14 August 2008). . Project: The Taxonomicon. Archived from the original on 7 March 2009. Retrieved 4 February 2009.
  • Buller, W.L. (1888). A history of the birds of New Zealand. London: Buller.
  • Bunce, Michael; Worthy, Trevor; Ford, Tom; Hoppitt, Will; Willerslev, Eske; Drummond, Alexei; Cooper, Alan (2003). (PDF). Nature. 425 (6954): 172–175. Bibcode:2003Natur.425..172B. doi:10.1038/nature01871. PMID 12968178. S2CID 1515413. Archived from the original (PDF) on 28 January 2019.
  • Burrows, C.; et al. (1981). "The diet of moas based on gizzard contents samples from Pyramid Valley, North Canterbury, and Scaifes Lagoon, Lake Wanaka, Otago". Records of the Canterbury Museum. 9: 309–336.
  • Davies, S.J.J.F. (2003). "Moas". In Hutchins, Michael (ed.). Grzimek's Animal Life Encyclopedia. Vol. 8 Birds I Tinamous and Ratites to Hoatzins (2 ed.). Farmington Hills, MI: Gale Group. pp. 95–98. ISBN 978-0-7876-5784-0.
  • Dawkins, Richard (2004). A Pilgrimage to the Dawn of Life, The Ancestor's Tale. Boston: Houghton Mifflin. p. 292. ISBN 978-0-618-00583-3.
  • Dieffenbach, E. (1843). Travels in New Zealand. Vol. II. London: John Murray. p. 195. ISBN 978-1-113-50843-0.
  • Dutton, Dennis (1994). . New Zealand Skeptics Online. New Zealand: New Zealand Committee for the Scientific Investigation of Claims of the Paranormal. Archived from the original on 8 March 2016. Retrieved 14 February 2011.
  • Forrest, R.M. (1987). "A partially mummified skeleton of Anomalopteryx didiformis from Southland". Journal of the Royal Society of New Zealand. 17 (4): 399–408. Bibcode:1987JRSNZ..17..399F. doi:10.1080/03036758.1987.10426481.  
  • Fuller, Errol (1987). Bunney, Sarah (ed.). Extinct Birds. London, England: The Rainbird Publishing Group. ISBN 978-0-8160-1833-8.
  • Gill, B.J. (2007). "Eggshell characteristics of moa eggs (Aves: Dinornithiformes)". Journal of the Royal Society of New Zealand. 37 (4): 139–150. Bibcode:2007JRSNZ..37..139G. doi:10.1080/03014220709510542. S2CID 85006853.  
  • Gould, Charles (1886). Mythical Monsters. W.H. Allen & Co.
  • Hamilton, A. (1894). "On the feathers of a small species of moa (Megalapteryx didinus) found in a cave at the head of the Waikaia River, with a notice of a moa-hunters camping place on the Old Man Range". Transactions and Proceedings of the New Zealand Institute. 27: 232–238.
  • Hartree, W.H. (1999). "A preliminary report on the nesting habits of moas in the East Coast of the North Island" (PDF). Notornis. 46 (4): 457–460.
  • Bernard Heuvelmans (1959). On the Track of Unknown Animals (3rd [1995] ed.). London: Kegan Paul International Ltd. Chapter 10. ISBN 978-0710304988.
  • Hill, H. (1913). "The Moa – Legendary, Historical and Geographical: Why and When the Moa disappeared". Transactions and Proceedings of the Royal Society of New Zealand. 46: 330.
  • Holdaway, Richard; Jacomb, C. (2000). "Rapid Extinction of the Moas (Aves: Dinornithiformes): Model, Test, and Implications". Science. 287 (5461): 2250–2254. Bibcode:2000Sci...287.2250H. doi:10.1126/science.287.5461.2250. PMID 10731144.
  • Holdaway, Richard; Worthy, Trevor (1997). "A reappraisal of the late Quaternary fossil vertebrates of Pyramid Valley Swamp, North Canterbury". New Zealand Journal of Zoology. 24: 69–121. doi:10.1080/03014223.1997.9518107.  
  • Horrocks, M.; et al. (2004). "Plant remains in coprolites: diet of a subalpine moa (Dinornithiformes) from southern New Zealand". Emu. 104 (2): 149–156. Bibcode:2004EmuAO.104..149H. doi:10.1071/MU03019. S2CID 86345660.
  • Hutton, F.W.; Coughtrey, M. (1874). "Notice of the Earnscleugh Cave". Transactions and Proceedings of the New Zealand Institute. 7: 138–144.
  • Huynen, Leon; Gill, Brian J.; Millar, Craig D.; Lambert, David M. (30 August 2010). "Ancient DNA Reveals Extreme Egg Morphology and Nesting Behavior in New Zealand's Extinct Moa". Proceedings of the National Academy of Sciences. 107 (30): 16201–16206. Bibcode:2010PNAS..10716201H. doi:10.1073/pnas.0914096107. PMC 2941315. PMID 20805485.
  • Huynen, Leon J.; Millar, Craig D.; Scofield, R.P.; Lambert, David M. (2003). "Nuclear DNA sequences detect species limits in ancient moa". Nature. 425 (6954): 175–178. Bibcode:2003Natur.425..175H. doi:10.1038/nature01838. PMID 12968179. S2CID 4413995.
  • Laing, Doug (5 January 2008). . Hawkes Bay Today. APN News & Media Ltd. Archived from the original on 24 July 2011. Retrieved 14 February 2011.
  • Millener, P.R. (1982). "And then there were twelve: the taxonomic status of Anomalopteryx oweni (Aves: Dinornithidae)" (PDF). Notornis. 29 (1): 165–170.
  • OSNZ (January 2009). . Ornithological Society of New Zealand Inc. Archived from the original on 25 April 2015. Retrieved 14 February 2011.
  • Owen, Richard (1879). Memoirs on the Extinct Wingless Birds of New Zealand, with an Appendix of Those of England, Australia, Newfoundland, Mauritius and Rodriguez. London: John van Voorst. hdl:2152/16251.
  • Phillips, Matthew J.; Gibb, Gillian C.; Crimp, Elizabeth A.; Penny, David (2010). "Tinamous and Moa Flock Together: Mitochondrial Genome Sequence Analysis Reveals Independent Losses of Flight among Ratites". Systematic Biology. 59 (1): 90–107. doi:10.1093/sysbio/syp079. PMID 20525622.  
  • Polack, J.S. (1838). New Zealand: Being a Narrative of Travels and Adventures During a Residence in that Country Between the Years 1831 and 1837. Vol. I. London: Richard Bentley. pp. 303, 307.
  • Purcell, Rosamond (1999). Swift as a Shadow. Mariner Books. p. 32. ISBN 978-0-395-89228-2.
  • Stephenson, Brent (5 January 2009). . New Zealand: Ornithological Society of New Zealand. Archived from the original on 25 April 2015. Retrieved 10 May 2010.
  • Turvey, Samuel T.; Green, Owen R.; Holdaway, Richard (2005). "Cortical growth marks reveal extended juvenile development in New Zealand moa". Nature. 435 (7044): 940–943. Bibcode:2005Natur.435..940T. doi:10.1038/nature03635. PMID 15959513. S2CID 4308841.
  • Vickers-Rich, P; Trusler, P; Rowley, MJ; Cooper, A; Chambers, GK; Bock, WJ; Millener, PR; Worthy, Trevor; Yaldwyn, JC (1995). (PDF). Tuhinga: Records of the Museum of New Zealand te Papa Tongarewa. 4: 1–26. Archived from the original (PDF) on 22 May 2010.
  • Wood, J.R. (2007). "Moa gizzard content analyses: further information on the diet of Dinornis robustus and Emeus crassus, and the first evidence for the diet of Pachyornis elephantopus (Aves: Dinornithiformes)". Records of the Canterbury Museum. 21: 27–39.
  • Wood, J.R. (2008). "Moa (Aves: Dinornithiformes) nesting material from rockshelters in the semi-arid interior of South Island, New Zealand". Journal of the Royal Society of New Zealand. 38 (3): 115–129. Bibcode:2008JRSNZ..38..115W. doi:10.1080/03014220809510550. S2CID 129645654.  
  • Wood, J.R.; Worthy, Trevor; Rawlence, N.J.; Jones, S.M.; Read, S.E. (2008). "A deposition mechanism for Holocene miring bone deposits, South Island, New Zealand". Journal of Taphonomy. 6: 1–20. hdl:2440/62495.
  • Worthy, Trevor (1989). "Mummified moa remains from Mt. Owen, northwest Nelson" (PDF). Notornis. 36: 36–38.
  • Worthy, Trevor (1998a). "Quaternary fossil faunas of Otago, South Island, New Zealand". Journal of the Royal Society of New Zealand. 28 (3): 421–521. Bibcode:1998JRSNZ..28..421W. doi:10.1080/03014223.1998.9517573.  
  • Worthy, Trevor (1998b). "The Quaternary fossil avifauna of Southland, South Island, New Zealand". Journal of the Royal Society of New Zealand. 28 (4): 537–589. Bibcode:1998JRSNZ..28..537W. doi:10.1080/03014223.1998.9517575.  
  • Worthy, Trevor; Holdaway, Richard (1993). "Quaternary fossil faunas from caves in the Punakaiki area, West Coast, South Island, New Zealand". Journal of the Royal Society of New Zealand. 23 (3): 147–254. Bibcode:1993JRSNZ..23..147W. doi:10.1080/03036758.1993.10721222.  
  • Worthy, Trevor; Holdaway, Richard (1994). "Quaternary fossil faunas from caves in Takaka Valley and on Takaka Hill, northwest Nelson, South Island, New Zealand". Journal of the Royal Society of New Zealand. 24 (3): 297–391. Bibcode:1994JRSNZ..24..297W. doi:10.1080/03014223.1994.9517474.  
  • Worthy, Trevor; Holdaway, Richard (1995). "Quaternary fossil faunas from caves on Mt. Cookson, North Canterbury, South Island, New Zealand". Journal of the Royal Society of New Zealand. 25 (3): 333–370. Bibcode:1995JRSNZ..25..333W. doi:10.1080/03014223.1995.9517494.  
  • Worthy, Trevor; Holdaway, Richard (1996). "Quaternary fossil faunas, overlapping taphonomies, and paleofaunal reconstructions in North Canterbury, South Island, New Zealand". Journal of the Royal Society of New Zealand. 26 (3): 275–361. Bibcode:1996JRSNZ..26..275W. doi:10.1080/03014223.1996.9517514.  
  • Worthy, Trevor; Holdaway, Richard (2002). The Lost World of the Moa. Bloomington: Indiana University Press. ISBN 978-0-253-34034-4.
  • Worthy, Trevor (March 2009). "A moa sighting?". Te Ara – the Encyclopedia of New Zealand. Retrieved 14 February 2011.
  • Yong, Ed (10 March 2010). . Discover Magazine. Archived from the original on 22 September 2020. Retrieved 14 February 2011.

External links edit

 
Wikimedia Commons has media related to Moa.
 
Wikispecies has information related to Moa.
  • TerraNature list of New Zealand's extinct birds
  • TerraNature page on Moa
  • Tree of Life classification and references
  • Moa article in Te Ara – the Encyclopedia of New Zealand
  • 3D model of a moa skull

February 16, 2024
this, article, about, extinct, zealand, birds, known, other, uses, disambiguation, note, order, dinornithiformes, extinct, group, flightless, birds, formerly, endemic, zealand, note, during, late, pleistocene, holocene, there, were, nine, species, genera, larg. This article is about the extinct New Zealand birds known as moa For other uses see Moa disambiguation Moa note 1 order Dinornithiformes are an extinct group of flightless birds formerly endemic to New Zealand 4 note 2 During the Late Pleistocene Holocene there were nine species in six genera The two largest species Dinornis robustus and Dinornis novaezelandiae reached about 3 6 metres 12 ft in height with neck outstretched and weighed about 230 kilograms 510 lb 5 while the smallest the bush moa Anomalopteryx didiformis was around the size of a turkey 6 Estimates of the moa population when Polynesians settled New Zealand circa 1300 vary between 58 000 7 and approximately 2 5 million 8 MoaTemporal range Miocene Holocene 17 0 0006 Ma PreꞒ Ꞓ O S D C P T J K Pg NNorth Island giant moa skeletonScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass AvesInfraclass PalaeognathaeClade NotopalaeognathaeOrder DinornithiformesBonaparte 1853 1 Type species Dinornis novaezealandiaeOwen 1843SubgroupsSee textDiversity 2 6 genera 9 speciesSynonyms 3 Dinornithes Gadow 1893 Immanes Newton 1884Moa are traditionally placed in the ratite group 4 However genetic studies have found that their closest relatives are the flighted South American tinamous once considered a sister group to ratites 9 The nine species of moa were the only wingless birds lacking even the vestigial wings that all other ratites have They were the largest terrestrial animals and dominant herbivores in New Zealand s forest shrubland and subalpine ecosystems until the arrival of the Maori and were hunted only by the Haast s eagle Moa extinction occurred within 100 years of human settlement of New Zealand primarily due to overhunting 7 Contents 1 Etymology 2 Description 3 Evolutionary relationships 4 Classification 4 1 Taxonomy 4 2 Phylogeny 5 Distribution and habitat 5 1 South Island 5 2 North Island 6 Behaviour and ecology 6 1 Diet 6 2 Reproduction 7 Pre human forests 8 Relationship with humans 8 1 Extinction 8 2 Surviving remains 8 3 Feathers and soft tissues 8 4 Potential revival 9 In literature and culture 10 See also 11 Footnotes 12 Notes 13 References 14 External linksEtymology editThe word moa is a Polynesian term for domestic fowl The name was not in common use among the Maori by the time of European contact likely because the bird it described had been extinct for some time and traditional stories about it were rare The earliest record of the name was by missionaries William Williams and William Colenso in January 1838 Colenso speculated that the birds may have resembled gigantic fowl In 1912 Maori chief Urupeni Puhara claimed that the moa s traditional name was te kura the red bird 10 Description edit nbsp A size comparison between four moa species and a human1 Dinornis novaezealandiae2 Emeus crassus3 Anomalopteryx didiformis4 Dinornis robustusMoa skeletons were traditionally reconstructed in an upright position to create impressive height but analysis of their vertebral articulations indicates that they probably carried their heads forward 11 in the manner of a kiwi The spine was attached to the rear of the head rather than the base indicating the horizontal alignment This would have let them graze on low vegetation while being able to lift their heads and browse trees when necessary This has resulted in a reconsideration of the height of larger moa However Maori rock art depicts moa or moa like birds likely geese or adzebills with necks upright indicating that moa were more than capable of assuming both neck postures 12 13 No records survive of what sounds moa made though some idea of their calls can be gained from fossil evidence The trachea of moa were supported by many small rings of bone known as tracheal rings Excavation of these rings from articulated skeletons has shown that at least two moa genera Euryapteryx and Emeus exhibited tracheal elongation that is their trachea were up to 1 m 3 ft long and formed a large loop within the body cavity 11 They are the only ratites known to exhibit this feature which is also present in several other bird groups including swans cranes and guinea fowl The feature is associated with deep resonant vocalisations that can travel long distances Evolutionary relationships edit nbsp A comparison of a kiwi l ostrich c and Dinornis r each with its eggThe moa s closest relatives are small terrestrial South American birds called the tinamous which can fly 9 14 15 16 Previously the kiwi the Australian emu and cassowary 17 were thought to be most closely related to moa Although dozens of species were described in the late 19th and early 20th centuries many were based on partial skeletons and turned out to be synonyms Currently 11 species are formally recognised although recent studies using ancient DNA recovered from bones in museum collections suggest that distinct lineages exist within some of these One factor that has caused much confusion in moa taxonomy is the intraspecific variation of bone sizes between glacial and interglacial periods see Bergmann s rule and Allen s rule as well as sexual dimorphism being evident in several species Dinornis seems to have had the most pronounced sexual dimorphism with females being up to 150 as tall and 280 as heavy as males so much bigger that they were classified as separate species until 2003 18 19 A 2009 study showed that Euryapteryx curtus and E gravis were synonyms 20 A 2010 study explained size differences among them as sexual dimorphism 21 A 2012 morphological study interpreted them as subspecies instead 22 Analyses of ancient DNA have determined that a number of cryptic evolutionary lineages occurred in several moa genera 23 These may eventually be classified as species or subspecies Megalapteryx benhami Archey is synonymised with M didinus Owen because the bones of both share all essential characters Size differences can be explained by a north south cline combined with temporal variation such that specimens were larger during the Otiran glacial period the last ice age in New Zealand Similar temporal size variation is known for the North Island s Pachyornis mappini 24 Some of the other size variation for moa species can probably be explained by similar geographic and temporal factors 25 The earliest moa remains come from the Miocene Saint Bathans Fauna Known from multiple eggshells and hind limb elements these represent at least two already fairly large sized species 26 Classification editTaxonomy edit nbsp Anomalopteryx didiformis skeleton nbsp Fossil skeleton of the heavy footed moa Pachyornis elephantopus The currently recognised genera and species are 5 Order Dinornithiformes Gadow 1893 Ridgway 1901 Dinornithes Gadow 1893 Immanes Newton 1884 moa Family Dinornithidae Owen 1843 Palapteryginae Bonaparte 1854 Palapterygidae Haast 1874 Dinornithnideae Stejneger 1884 giant moa Genus Dinornis North Island giant moa Dinornis novaezealandiae North Island New Zealand South Island giant moa Dinornis robustus South Island New Zealand Family Emeidae Bonaparte 1854 Emeinae Bonaparte 1854 Anomalopterygidae Oliver 1930 Anomalapteryginae Archey 1941 lesser moa Genus Anomalopteryx Bush moa Anomalopteryx didiformis North and South Island New Zealand Genus Emeus Eastern moa Emeus crassus South Island New Zealand Genus Euryapteryx Broad billed moa Euryapteryx curtus North and South Island New Zealand Genus Pachyornis Heavy footed moa Pachyornis elephantopus South Island New Zealand Mantell s moa Pachyornis geranoides North Island New Zealand Crested moa Pachyornis australis South Island New Zealand 2 Family Megalapterygidae Genus Megalapteryx Upland moa Megalapteryx didinus South Island New Zealand Two unnamed species are also known from the Saint Bathans Fauna 26 Phylogeny edit Because moa are a group of flightless birds with no vestiges of wing bones questions have been raised about how they arrived in New Zealand and from where Many theories exist about the moa s arrival and radiation in New Zealand but the most recent theory suggests that they arrived in New Zealand about 60 million years ago Mya and split from the basal see below moa species Megalapteryx about 5 8 Mya 27 instead of the 18 5 Mya split suggested by Baker et al 2005 This does not necessarily mean there was no speciation between the arrival 60 Mya and the basal split 5 8 Mya but the fossil record is lacking and most likely the early moa lineages existed but became extinct before the basal split 5 8 Mya 28 The presence of Miocene aged species certainly suggests that moa diversification began before the split between Megalapteryx and the other taxa 26 The Oligocene Drowning Maximum event which occurred about 22 Mya when only 18 of present day New Zealand was above sea level is very important in the moa radiation Because the basal moa split occurred so recently 5 8 Mya it was argued that ancestors of the Quaternary moa lineages could not have been present on both the South and North Island remnants during the Oligocene drowning 29 This does not imply that moa were previously absent from the North Island but that only those from the South Island survived because only the South Island was above sea level Bunce et al 2009 argued that moa ancestors survived on the South Island and then recolonised the North Island about 2 Myr later when the two islands rejoined after 30 Myr of separation 19 The presence of Miocene moa in the Saint Bathans fauna seems to suggest that these birds increased in size soon after the Oligocene drowning event if they were affected by it at all 26 Bunce et al also concluded that the highly complex structure of the moa lineage was caused by the formation of the Southern Alps about 6 Mya and the habitat fragmentation on both islands resulting from Pleistocene glacial cycles volcanism and landscape changes 19 The cladogram below is a phylogeny of Palaeognathae generated by Mitchell 2014 15 with some clade names after Yuri et al 2013 30 It provides the position of the moa Dinornithiformes within the larger context of the ancient jawed Palaeognathae birds Palaeognathae Struthioniformes ostriches nbsp Notopalaeognathae Rheiformes rhea nbsp Tinamiformes tinamous nbsp Dinornithiformes moa nbsp Novaeratitae Apterygiformes kiwi nbsp Aepyornithiformes elephant bird nbsp Casuariiformes Casuariidae cassowary nbsp Dromaiidae emu nbsp The cladogram below gives a more detailed species level phylogeny of the moa branch Dinornithiformes of the ancient jawed birds Palaeognathae shown above 19 Dinornithiformes Megalapterygidae Megalapteryx didinus Dinornithidae Dinornis D robustus D novaezealandiaeEmeidae Pachyornis P australis P elephantopus P geranoides Anomalopteryx didiformis Emeus crassus Euryapteryx curtusDistribution and habitat editAnalyses of fossil moa bone assemblages have provided detailed data on the habitat preferences of individual moa species and revealed distinctive regional moa faunas 11 31 32 33 34 35 36 South Island edit nbsp A restoration of Dinornis robustus and Pachyornis elephantopus both from the South IslandThe two main faunas identified in the South Island include The fauna of the high rainfall west coast beech Nothofagus forests that included Anomalopteryx didiformis bush moa and Dinornis robustus South Island giant moa and The fauna of the dry rainshadow forest and shrublands east of the Southern Alps that included Pachyornis elephantopus heavy footed moa Euryapteryx gravis Emeus crassus and Dinornis robustus A subalpine fauna might include the widespread D robustus and the two other moa species that existed in the South Island Pachyornis australis the rarest moa species the only moa species not yet found in Maori middens Its bones have been found in caves in the northwest Nelson and Karamea districts such as Honeycomb Hill Cave and some sites around the Wanaka district Megalapteryx didinus more widespread named upland moa because its bones are commonly found in the subalpine zone However it also occurred down to sea level where suitable steep and rocky terrain such as Punakaiki on the west coast and Central Otago existed Their distributions in coastal areas have been rather unclear but were present at least in several locations such as on Kaikōura Otago Peninsula 37 and Karitane 38 dd nbsp The skeletons of an eastern moa l ostrich rear and Fiordland penguin r in the Otago MuseumNorth Island edit Significantly less is known about North Island paleofaunas due to a paucity of fossil sites compared to the South Island but the basic pattern of moa habitat relationships was the same 11 The South Island and the North Island shared some moa species Euryapteryx gravis Anomalopteryx didiformis but most were exclusive to one island reflecting divergence over several thousand years since lower sea level in the Ice Age had made a land bridge across the Cook Strait 11 In the North Island Dinornis novaezealandiae and Anomalopteryx didiformis dominated in high rainfall forest habitat a similar pattern to the South Island The other moa species present in the North Island Euryapteryx gravis E curtus and Pachyornis geranoides tended to inhabit drier forest and shrubland habitats P geranoides occurred throughout the North Island The distributions of E gravis and E curtus were almost mutually exclusive the former having only been found in coastal sites around the southern half of the North Island 11 Behaviour and ecology edit nbsp Preserved footprints of a D novaezealandiae found in 1911About eight moa trackways with fossilised moa footprint impressions in fluvial silts have been found in the North Island including Waikanae Creek 1872 Napier 1887 Manawatu River 1895 Marton 1896 Palmerston North 1911 see photograph to left Rangitikei River 1939 and under water in Lake Taupō 1973 Analysis of the spacing of these tracks indicates walking speeds between 3 and 5 km h 1 75 3 mph 11 Diet edit nbsp D novaezealandiae skull at the Museum fur Naturkunde BerlinTheir diet has been deduced from fossilised contents of their gizzards 39 40 and coprolites 41 as well as indirectly through morphological analysis of skull and beak and stable isotope analysis of their bones 11 Moa fed on a range of plant species and plant parts including fibrous twigs and leaves taken from low trees and shrubs The beak of Pachyornis elephantopus was analogous to a pair of secateurs and could clip the fibrous leaves of New Zealand flax Phormium tenax and twigs up to at least 8 mm in diameter 40 Moa filled the ecological niche occupied in other countries by large browsing mammals such as antelope and llamas 42 Some biologists contend that a number of plant species evolved to avoid moa browsing 42 Divaracating plants such as Pennantia corymbosa the kaikōmako which have small leaves and a dense mesh of branches and Pseudopanax crassifolius the horoeka or lancewood which has tough juvenile leaves are possible examples of plants that evolved in such a way Like many other birds moa swallowed gizzard stones gastroliths which were retained in their muscular gizzards providing a grinding action that allowed them to eat coarse plant material These stones were commonly smooth rounded quartz pebbles but stones over 110 millimetres 4 in long have been found among preserved moa gizzard contents 40 Dinornis gizzards could often contain several kilograms of stones 11 Moa likely exercised a certain selectivity in the choice of gizzard stones and chose the hardest pebbles 43 Reproduction edit The pairs of species of moa described as Euryapteryx curtus E exilis Emeus huttonii E crassus and Pachyornis septentrionalis P mappini have long been suggested to constitute males and females respectively This has been confirmed by analysis for sex specific genetic markers of DNA extracted from bone material 18 For example before 2003 three species of Dinornis were recognised South Island giant moa D robustus North Island giant moa D novaezealandiae and slender moa D struthioides However DNA showed that all D struthioides were males and all D robustus were females Therefore the three species of Dinornis were reclassified as two species one each formerly occurring on New Zealand s North Island D novaezealandiae and South Island D robustus 18 44 D robustus however comprises three distinct genetic lineages and may eventually be classified as many species as discussed above Examination of growth rings in moa cortical bone has revealed that these birds were K selected as are many other large endemic New Zealand birds 17 They are characterised by having a low fecundity and a long maturation period taking about 10 years to reach adult size The large Dinornis species took as long to reach adult size as small moa species and as a result had fast skeletal growth during their juvenile years 17 No evidence has been found to suggest that moa were colonial nesters Moa nesting is often inferred from accumulations of eggshell fragments in caves and rock shelters little evidence exists of the nests themselves Excavations of rock shelters in the eastern North Island during the 1940s found moa nests which were described as small depressions obviously scratched out in the soft dry pumice 45 Moa nesting material has also been recovered from rock shelters in the Central Otago region of the South Island where the dry climate has preserved plant material used to build the nesting platform including twigs clipped by moa bills 46 Seeds and pollen within moa coprolites found among the nesting material provide evidence that the nesting season was late spring to summer 46 Fragments of moa eggshell are often found in archaeological sites and sand dunes around the New Zealand coast Thirty six whole moa eggs exist in museum collections and vary greatly in size from 120 240 millimetres 4 7 9 4 in in length and 91 178 millimetres 3 6 7 0 in wide 47 The outer surface of moa eggshell is characterised by small slit shaped pores The eggs of most moa species were white although those of the upland moa Megalapteryx didinus were blue green 48 A 2010 study by Huynen et al found that the eggs of certain species were fragile only around a millimetre in shell thickness Unexpectedly several thin shelled eggs were also shown to belong to the heaviest moa of the genera Dinornis Euryapteryx and Emeus making these to our knowledge the most fragile of all avian eggs measured to date Moreover sex specific DNA recovered from the outer surfaces of eggshells belonging to species of Dinornis and Euryapteryx suggest that these very thin eggs were likely to have been incubated by the lighter males The thin nature of the eggshells of these larger species of moa even if incubated by the male suggests that egg breakage in these species would have been common if the typical contact method of avian egg incubation was used 48 Despite the bird s extinction the high yield of DNA available from recovered fossilised eggs has allowed the moa s genome to be sequenced 49 nbsp The skeleton of female upland moa with egg in unlaid position within the pelvic cavity in Otago Museum nbsp An egg and embryo fragments of Emeus crassus nbsp Restoration of an upland moaPre human forests editStudies of accumulated dried vegetation in the pre human mid late Holocene period suggests a low Sophora microphylla or Kōwai forest ecosystem in Central Otago that was used and perhaps maintained by moa for both nesting material and food Neither the forests nor moa existed when European settlers came to the area in the 1850s 50 Relationship with humans editExtinction edit nbsp An early 20th century reconstruction of a moa huntBefore the arrival of humans the moa s only predator was the massive Haast s eagle New Zealand had been isolated for 80 million years and had few predators before human arrival meaning that not only were its ecosystems extremely vulnerable to perturbation by outside species but also the native species were ill equipped to cope with human predators 51 52 Polynesians arrived sometime before 1300 and all moa genera were soon driven to extinction by hunting and to a lesser extent by habitat reduction due to forest clearance By 1445 all moa had become extinct along with Haast s eagle which had relied on them for food Recent research using carbon 14 dating of middens strongly suggests that the events leading to extinction took less than a hundred years 53 rather than a period of exploitation lasting several hundred years as previously hypothesised An expedition in the 1850s under Lieutenant A Impey reported two emu like birds on a hillside in the South Island an 1861 story from the Nelson Examiner told of three toed footprints measuring 36 cm 14 in between Takaka and Riwaka that were found by a surveying party and finally in 1878 the Otago Witness published an additional account from a farmer and his shepherd 54 An 80 year old woman Alice McKenzie claimed in 1959 that she had seen a moa in Fiordland bush in 1887 and again on a Fiordland beach when she was 17 years old She claimed that her brother had also seen a moa on another occasion 55 In childhood Mackenzie saw a large bird that she believed to be a takahe but after its rediscovery in the 1940s she saw a picture of it and concluded that she had seen something else 56 Some authors have speculated that a few Megalapteryx didinus may have persisted in remote corners of New Zealand until the 18th and even 19th centuries but this view is not widely accepted 57 Some Maori hunters claimed to be in pursuit of the moa as late as the 1770s however these accounts possibly did not refer to the hunting of actual birds as much as a now lost ritual among South Islanders 58 Whalers and sealers recalled seeing monstrous birds along the coast of the South Island and in the 1820s a man named George Pauley made an unverified claim of seeing a moa in the Otago region of New Zealand 59 54 Occasional speculation since at least the late 19th century 60 61 and as recently as 2008 62 has suggested that some moa may still exist particularly in the wilderness of South Westland and Fiordland A 1993 report initially interested the Department of Conservation but the animal in a blurry photograph was identified as a red deer 63 64 Cryptozoologists continue to search for them but their claims and supporting evidence such as of purported footprints 62 have earned little attention from experts and are pseudoscientific 57 The rediscovery of the takahe in 1948 after none had been seen since 1898 showed that rare birds can exist undiscovered for a long time However the takahe is a much smaller bird than the moa and was rediscovered after its tracks were identified yet no reliable evidence of moa tracks has ever been found and experts still contend that moa survival is extremely unlikely since they would have to be living unnoticed for over 500 years in a region visited often by hunters and hikers 62 Surviving remains edit nbsp Sir Richard Owen holding the first discovered moa fossil and standing with a Dinornis skeleton 1879Joel Polack a trader who lived on the East Coast of the North Island from 1834 to 1837 recorded in 1838 that he had been shown several large fossil ossifications found near Mt Hikurangi He was certain that these were the bones of a species of emu or ostrich noting that the Natives add that in times long past they received the traditions that very large birds had existed but the scarcity of animal food as well as the easy method of entrapping them has caused their extermination Polack further noted that he had received reports from Maori that a species of Struthio still existed in remote parts of the South Island 65 66 Dieffenbach 67 also refers to a fossil from the area near Mt Hikurangi and surmises that it belongs to a bird now extinct called Moa or Movie by the natives Movie is the first transcribed name for the bird 68 69 In 1839 John W Harris a Poverty Bay flax trader who was a natural history enthusiast was given a piece of unusual bone by a Maori who had found it in a river bank He showed the 15 cm 6 in fragment of bone to his uncle John Rule a Sydney surgeon who sent it to Richard Owen who at that time was working at the Hunterian Museum at the Royal College of Surgeons in London 54 nbsp Owen s first bone fragmentOwen puzzled over the fragment for almost four years He established it was part of the femur of a big animal but it was uncharacteristically light and honeycombed Owen announced to a skeptical scientific community and the world that it was from a giant extinct bird like an ostrich and named it Dinornis His deduction was ridiculed in some quarters but was proved correct with the subsequent discoveries of considerable quantities of moa bones throughout the country sufficient to reconstruct skeletons of the birds 54 In July 2004 the Natural History Museum in London placed on display the moa bone fragment Owen had first examined to celebrate 200 years since his birth and in memory of Owen as founder of the museum nbsp An excavation in Kapua Swamp 1894Since the discovery of the first moa bones in the late 1830s thousands more have been found They occur in a range of late Quaternary and Holocene sedimentary deposits but are most common in three main types of site caves dunes and swamps nbsp Palaeontologists working on moa bone deposits in the Graveyard Honeycomb Hill Cave System This cave is a closed scientific reserve Bones are commonly found in caves or tomo the Maori word for doline or sinkhole often used to refer to pitfalls or vertical cave shafts The two main ways that the moa bones were deposited in such sites were birds that entered the cave to nest or escape bad weather and subsequently died in the cave and birds that fell into a vertical shaft and were unable to escape Moa bones and the bones of other extinct birds have been found in caves throughout New Zealand especially in the limestone marble areas of northwest Nelson Karamea Waitomo and Te Anau Moa bones and eggshell fragments sometimes occur in active coastal sand dunes where they may erode from paleosols and concentrate in blowouts between dune ridges Many such moa bones antedate human settlement although some originate from Maori midden sites which frequently occur in dunes near harbours and river mouths for example the large moa hunter sites at Shag River Otago and Wairau Bar Marlborough Densely intermingled moa bones have been encountered in swamps throughout New Zealand The most well known example is at Pyramid Valley in north Canterbury 70 where bones from at least 183 individual moa have been excavated mostly by Roger Duff of Canterbury Museum 71 Many explanations have been proposed to account for how these deposits formed ranging from poisonous spring waters to floods and wildfires However the currently accepted explanation is that the bones accumulated slowly over thousands of years from birds that entered the swamps to feed and became trapped in the soft sediment 72 Many New Zealand and international museums hold moa bone collections Auckland War Memorial Museum Tamaki Paenga Hira has a significant collection and in 2018 several moa skeletons were imaged and 3D scanned to make the collections more accessible 73 There is also a major collection in Otago Museum in Dunedin Feathers and soft tissues edit nbsp A Megalapteryx didinus head Several examples of moa remains have been found with soft tissues muscle skin feathers preserved through desiccation after the bird died at a dry site for example a cave with a constant dry breeze blowing through it Most were found in the semiarid Central Otago region the driest part of New Zealand These include Dried muscle on bones of a female Dinornis robustus found at Tiger Hill in the Manuherikia River Valley by gold miners in 1864 74 currently held by Yorkshire Museum Several bones of Emeus crassus with muscle attached and a row of neck vertebrae with muscle skin and feathers collected from Earnscleugh Cave near the town of Alexandra in 1870 75 currently held by Otago Museum An articulated foot of a male D giganteus with skin and foot pads preserved found in a crevice on the Knobby Range in 1874 76 currently held by Otago Museum The type specimen of Megalapteryx didinus found near Queenstown in 1878 74 currently held by Natural History Museum London see photograph of foot on this page The lower leg of Pachyornis elephantopus with skin and muscle from the Hector Range in 1884 57 76 currently held by the Zoology Department Cambridge University The complete feathered leg of a M didinus from Old Man Range in 1894 77 currently held by Otago Museum The head of a M didinus found near Cromwell sometime before 1949 78 currently held by the Museum of New Zealand Two specimens are known from outside the Central Otago region A complete foot of M didinus found in a cave on Mount Owen near Nelson in the 1980s 79 currently held by the Museum of New Zealand A skeleton of Anomalopteryx didiformis with muscle skin and feather bases collected from a cave near Te Anau in 1980 80 nbsp A preserved Megalapteryx foot Natural History MuseumIn addition to these specimens loose moa feathers have been collected from caves and rock shelters in the southern South Island and based on these remains some idea of the moa plumage has been achieved The preserved leg of M didinus from the Old Man Range reveals that this species was feathered right down to the foot This is likely to have been an adaptation to living in high altitude snowy environments and is also seen in the Darwin s rhea which lives in a similar seasonally snowy habitat 11 Moa feathers are up to 23 cm 9 in long and a range of colours has been reported including reddish brown white yellowish and purplish 11 Dark feathers with white or creamy tips have also been found and indicate that some moa species may have had plumage with a speckled appearance 81 Potential revival edit The creature has frequently been mentioned as a potential candidate for revival by cloning Its iconic status coupled with the facts that it only became extinct a few hundred years ago and that substantial quantities of moa remains exist mean that it is often listed alongside such creatures as the dodo as leading candidates for de extinction 82 Preliminary work involving the extraction of DNA has been undertaken by Japanese geneticist Ankoh Yasuyuki Shirota 83 84 Interest in the moa s potential for revival was further stirred in mid 2014 when New Zealand Member of Parliament Trevor Mallard suggested that bringing back some smaller species of moa within 50 years was a viable idea 85 The idea was ridiculed by many but gained support from some natural history experts 86 In literature and culture edit nbsp Harder s illustration of a moa huntHeinrich Harder portrayed moa being hunted by Maori in the classic German collecting cards about extinct and prehistoric animals Tiere der Urwelt in the early 1900s Allen Curnow s poem The Skeleton of the Great Moa in the Canterbury Museum Christchurch was published in 1943 87 88 See also edit nbsp Birds portal nbsp New Zealand portalList of New Zealand species extinct in the Holocene Moa nalo several flightless ducks from the Hawaiian Islands that grew to be as large as geese Elephant birds flightless ratites up to over 3 metres tall that once lived on the island of Madagascar General Late Quaternary prehistoric birds Island gigantism MegafaunaFootnotes edit Brands S 2008 a b Stephenson Brent 2009 Brodkob Pierce 1963 Catalogue of fossil birds 1 Archaeopterygiformes through Ardeiformes Biological Sciences Bulletin of the Florida State Museum 7 4 180 293 Retrieved 30 December 2015 a b OSNZ 2009 a b Davies S J J F 2003 Little bush moa New Zealand Birds Online nzbirdsonline org nz Retrieved 24 July 2020 a b Perry George L W Wheeler Andrew B Wood Jamie R Wilmshurst Janet M 1 December 2014 A high precision chronology for the rapid extinction of New Zealand moa Aves Dinornithiformes Quaternary Science Reviews 105 126 135 Bibcode 2014QSRv 105 126P doi 10 1016 j quascirev 2014 09 025 Retrieved 22 December 2014 Latham A David M Latham M Cecilia Wilmshurst Janet M Forsyth David M Gormley Andrew M Pech Roger P Perry George L W Wood Jamie R March 2020 A refined model of body mass and population density in flightless birds reconciles extreme bimodal population estimates for extinct moa Ecography 43 3 353 364 Bibcode 2020Ecogr 43 353L doi 10 1111 ecog 04917 ISSN 0906 7590 a b Phillips et al 2010 Story Moa govt nz Retrieved 15 January 2022 a b c d e f g h i j k Worthy amp Holdaway 2002 Schoon Theo Cave drawing of a moa Te Ara Encyclopedia of New Zealand Te Ara Te Manunui Rock Art Site Heritage New Zealand Allentoft M E Rawlence N J 20 January 2012 Moa s Ark or volant ghosts of Gondwana Insights from nineteen years of ancient DNA research on the extinct moa Aves Dinornithiformes of New Zealand PDF Annals of Anatomy Anatomischer Anzeiger 194 1 36 51 doi 10 1016 j aanat 2011 04 002 PMID 21596537 a b Mitchell K J Llamas B Soubrier J Rawlence N J Worthy Trevor Wood J Lee M S Y Cooper A 23 May 2014 Ancient DNA reveals elephant birds and kiwi are sister taxa and clarifies ratite bird evolution PDF Science 344 6186 898 900 Bibcode 2014Sci 344 898M doi 10 1126 science 1251981 hdl 2328 35953 PMID 24855267 S2CID 206555952 Archived from the original PDF on 30 May 2019 Baker A J Haddrath O McPherson J D Cloutier A 2014 Genomic Support for a Moa Tinamou Clade and Adaptive Morphological Convergence in Flightless Ratites Molecular Biology and Evolution 31 7 1686 1696 doi 10 1093 molbev msu153 PMID 24825849 nbsp a b c Turvey et al 2005 a b c Huynen L J et al 2003 a b c d Bunce M et al 2003 Bunce M Worthy Trevor Phillips M J Holdaway Richard Willerslev E Haile J Shapiro B Scofield R P Drummond A Kamp P J J Cooper A 2009 The evolutionary history of the extinct ratite moa and New Zealand Neogene paleogeography Proceedings of the National Academy of Sciences 106 49 20646 20651 Bibcode 2009PNAS 10620646B doi 10 1073 pnas 0906660106 PMC 2791642 PMID 19923428 Gill B J 2010 Regional comparisons of the thickness of moa eggshell fragments Aves Dinornithiformes In Proceedings of the VII International Meeting of the Society of Avian Paleontology and Evolution ed W E Boles and Trevor Worthy PDF Records of the Australian Museum 62 115 122 doi 10 3853 j 0067 1975 62 2010 1535 Archived from the original PDF on 11 April 2019 Worthy Trevor Scofield R P 2012 Twenty first century advances in knowledge of the biology of moa Aves Dinornithiformes A new morphological analysis and moa diagnoses revised New Zealand Journal of Zoology 39 2 87 153 doi 10 1080 03014223 2012 665060 S2CID 83768608 nbsp Baker A J Huynen L J Haddrath O Millar C D Lambert D M 2005 Reconstructing the tempo and mode of evolution in an extinct clade of birds with ancient DNA The giant moas of New Zealand Proceedings of the National Academy of Sciences 102 23 8257 8262 Bibcode 2005PNAS 102 8257B doi 10 1073 pnas 0409435102 PMC 1149408 PMID 15928096 Worthy 1987 Worthy et al 1988 a b c d Tennyson A J D Worthy Trevor Jones C M Scofield R P Hand S J 2010 Moa s Ark Miocene fossils reveal the great antiquity of moa Aves Dinornithiformes in Zealandia PDF Records of the Australian Museum 62 105 114 doi 10 3853 j 0067 1975 62 2010 1546 Archived from the original PDF on 11 April 2019 Bunce M Worthy Trevor Phillips M J Holdaway Richard Willerslev E Hailef J Shapiro B Scofield R P Drummond A Kampk P J J Cooper A 2009 The evolutionary history of the extinct ratite moa and New Zealand Neogene paleogeography Proceedings of the National Academy of Sciences 106 49 20646 20651 Bibcode 2009PNAS 10620646B doi 10 1073 pnas 0906660106 PMC 2791642 PMID 19923428 Allentoft Morten Rawlence Nicolas 2012 Moa s ark or volant ghosts of Gondwana Insights from nineteen years of ancient DNA research on the extinct moa Aves Dinornithiformes of New Zealand PDF Annals of Anatomy 194 1 36 51 doi 10 1016 j aanat 2011 04 002 PMID 21596537 Allentoft Morten Nicloas Rawlence 2012 Moa s ark or volant ghosts of Gondwana Insights from nineteen years of ancient DNA research on the extinct moa Aves Dinornithiformes of New Zealand Annals of Anatomy 194 1 36 51 doi 10 1016 j aanat 2011 04 002 PMID 21596537 Yuri T 2013 Parsimony and model based analyses of indels in avian nuclear genes reveal congruent and incongruent phylogenetic signals Biology 2 1 419 444 doi 10 3390 biology2010419 PMC 4009869 PMID 24832669 nbsp Worthy Trevor 1998 a Worthy Trevor 1998 b Worthy Trevor amp Holdaway Richard 1993 Worthy Trevor amp Holdaway Richard 1994 Worthy Trevor amp Holdaway Richard 1995 Worthy Trevor amp Holdaway Richard 1996 Buick L T 1937 The Moa Hunters of New Zealand Sportsman of the Stone Age Chapter I Did The Maori Know The Moa Victoria University of Wellington Catalogue New Zealand Texts Collection W amp T Avery Ltd Retrieved 3 February 2015 Teviotdale D 1932 The material culture of the Moa hunters in Murihiku 2 Evidence of Zoology The Journal of the Polynesian Society 41 162 81 120 Retrieved 3 February 2015 Burrows et al 1981 a b c Wood 2007 Horrocks et al 2004 a b Gibbs George W 2006 Ghosts of Gondwana the history of life in New Zealand Nelson N Z Craig Potton Pub ISBN 978 1877333484 OCLC 83611783 Smalley I J 1979 Moas as rockhounds Nature 281 5727 103 104 Bibcode 1979Natur 281 103S doi 10 1038 281103b0 S2CID 33405428 Bunce M Worthy Trevor Ford T Hoppitt W Willerslev E Drummond A Cooper A 2003 Extreme reversed sexual size dimorphism in the extinct New Zealand moa Dinornis PDF Nature 425 6954 172 175 Bibcode 2003Natur 425 172B doi 10 1038 nature01871 PMID 12968178 S2CID 1515413 Archived from the original PDF on 28 January 2019 Hartree 1999 a b Wood J R 2008 Gill B J 2007 a b Huynen Leon Gill Brian J Millar Craig D and Lambert David M 2010 Yong Ed 2010 Pole Mike 31 December 2021 A vanished ecosystem Sophora microphylla Kōwhai dominated forest recorded in mid late Holocene rock shelters in Central Otago New Zealand Palaeontologia Electronica 25 1 1 41 doi 10 26879 1169 ISSN 1094 8074 S2CID 245807815 Mein Smith Philippa 2012 A Concise History of New Zealand Cambridge University Press pp 2 5 6 ISBN 978 1107402171 Milberg Per Tyrberg Tommy 1993 Naive birds and noble savages a review of man caused prehistoric extinctions of island birds Ecography 16 3 229 250 doi 10 1111 j 1600 0587 1993 tb00213 x Holdaway amp Jacomb 2000 a b c d Fuller Errol 1987 Alice McKenzie and the Moa Radio New Zealand Alice Mackenzie describes seeing a moa and talks about her book Pioneers of Martins Bay a b c Anderson 1989 Anderson Atholl 1990 Prodigious Birds Moas and Moa Hunting in New Zealand Cambridge University Press Purcell Rosamond 1999 Gould C 1886 Heuvelmans B 1959 a b c Laing Doug 2008 Nickell Joe 26 May 2017 The New Zealand Moa From Extinct Bird to Cryptid Skeptical Briefs Center for Inquiry 27 1 8 9 Nickell Joe 26 May 2017 The New Zealand Moa From Extinct Bird to Cryptid Skeptical Inquirer Retrieved 12 May 2019 Polack J S 1838 Hill H 1913 Dieffenbach E 1843 Taonga New Zealand Ministry for Culture and Heritage Te Manatu 4 Moa Te Ara The Encyclopedia of New Zealand teara govt nz Retrieved 4 May 2019 Berentson Quinn 2012 Moa the life and death of New Zealand s legendary bird Nelson N Z Craig Potton ISBN 978 1877517846 OCLC 819110163 Holdaway Richard amp Worthy Trevor 1997 Davidson Janet Roger Shepherd Duff Dictionary of New Zealand Biography Ministry for Culture and Heritage Wood J R et al 2008 Digitising moa Retrieved 2 February 2022 a b Owen R 1879 Hutton F W amp Coughtrey M 1875 a b Buller W L 1888 Hamilton A 1894 Vickers Rich et al 1995 Worthy Trevor 1989 Forrest R M 1987 Rawlence N J Wood J R Armstrong K N Cooper A 2009 DNA content and distribution in ancient feathers and potential to reconstruct the plumage of extinct avian taxa Proceedings of the Royal Society B Biological Sciences 276 1672 3395 3402 doi 10 1098 rspb 2009 0755 PMC 2817183 PMID 19570784 Le Roux M Scientists plan to resurrect a range of extinct animals using DNA and cloning Courier Mail 23 April 2013 Retrieved 25 July 2014 Young E 1997 Moa genes could rise from the dead New Scientist 153 2063 Life in the Old Moa Yet New Zealand Science Monthly February 1997 Retrieved 25 July 2014 O Brien T Mallard Bring the moa back to life within 50 years 3news 1 July 2014 Retrieved 25 July 2014 Tohill M J Expert supports Moa revival idea stuff co nz 9 July 2014 Retrieved 25 July 2014 A poem a day The Skeleton of the Great Moa in the Canterbury Museum Christchurch Allen Curnow 25 April 2011 Archived from the original on 1 February 2020 Curnow Allen 1944 Sailing or Drowning Wellington Progressive Publishing Society Notes edit The word moa is from the Maori language and is both singular and plural Usage in New Zealand English and in the scientific literature in recent years has been changing to reflect this At least two distinct forms are also known from the Saint Bathans Fauna References editAnderson Atholl 1989 On evidence for the survival of moa in European Fiordland PDF New Zealand Journal of Ecology 12 Supplement 39 44 Baker Allan J Huynen Leon J Haddrath Oliver Millar Craig D Lambert David M 2005 Reconstructing the tempo and mode of evolution in an extinct clade of birds with ancient DNA The giant moas of New Zealand PNAS 102 23 8257 8262 Bibcode 2005PNAS 102 8257B doi 10 1073 pnas 0409435102 PMC 1149408 PMID 15928096 Brands Sheila 14 August 2008 Systema Naturae 2000 Classification Order Dinornithiformes Project The Taxonomicon Archived from the original on 7 March 2009 Retrieved 4 February 2009 Buller W L 1888 A history of the birds of New Zealand London Buller Bunce Michael Worthy Trevor Ford Tom Hoppitt Will Willerslev Eske Drummond Alexei Cooper Alan 2003 Extreme reversed sexual size dimorphism in the extinct New Zealand moa Dinornis PDF Nature 425 6954 172 175 Bibcode 2003Natur 425 172B doi 10 1038 nature01871 PMID 12968178 S2CID 1515413 Archived from the original PDF on 28 January 2019 Burrows C et al 1981 The diet of moas based on gizzard contents samples from Pyramid Valley North Canterbury and Scaifes Lagoon Lake Wanaka Otago Records of the Canterbury Museum 9 309 336 Davies S J J F 2003 Moas In Hutchins Michael ed Grzimek s Animal Life Encyclopedia Vol 8 Birds I Tinamous and Ratites to Hoatzins 2 ed Farmington Hills MI Gale Group pp 95 98 ISBN 978 0 7876 5784 0 Dawkins Richard 2004 A Pilgrimage to the Dawn of Life The Ancestor s Tale Boston Houghton Mifflin p 292 ISBN 978 0 618 00583 3 Dieffenbach E 1843 Travels in New Zealand Vol II London John Murray p 195 ISBN 978 1 113 50843 0 Dutton Dennis 1994 Skeptics Meet Moa Spotters New Zealand Skeptics Online New Zealand New Zealand Committee for the Scientific Investigation of Claims of the Paranormal Archived from the original on 8 March 2016 Retrieved 14 February 2011 Forrest R M 1987 A partially mummified skeleton of Anomalopteryx didiformis from Southland Journal of the Royal Society of New Zealand 17 4 399 408 Bibcode 1987JRSNZ 17 399F doi 10 1080 03036758 1987 10426481 nbsp Fuller Errol 1987 Bunney Sarah ed Extinct Birds London England The Rainbird Publishing Group ISBN 978 0 8160 1833 8 Gill B J 2007 Eggshell characteristics of moa eggs Aves Dinornithiformes Journal of the Royal Society of New Zealand 37 4 139 150 Bibcode 2007JRSNZ 37 139G doi 10 1080 03014220709510542 S2CID 85006853 nbsp Gould Charles 1886 Mythical Monsters W H Allen amp Co Hamilton A 1894 On the feathers of a small species of moa Megalapteryx didinus found in a cave at the head of the Waikaia River with a notice of a moa hunters camping place on the Old Man Range Transactions and Proceedings of the New Zealand Institute 27 232 238 Hartree W H 1999 A preliminary report on the nesting habits of moas in the East Coast of the North Island PDF Notornis 46 4 457 460 Bernard Heuvelmans 1959 On the Track of Unknown Animals 3rd 1995 ed London Kegan Paul International Ltd Chapter 10 ISBN 978 0710304988 Hill H 1913 The Moa Legendary Historical and Geographical Why and When the Moa disappeared Transactions and Proceedings of the Royal Society of New Zealand 46 330 Holdaway Richard Jacomb C 2000 Rapid Extinction of the Moas Aves Dinornithiformes Model Test and Implications Science 287 5461 2250 2254 Bibcode 2000Sci 287 2250H doi 10 1126 science 287 5461 2250 PMID 10731144 Holdaway Richard Worthy Trevor 1997 A reappraisal of the late Quaternary fossil vertebrates of Pyramid Valley Swamp North Canterbury New Zealand Journal of Zoology 24 69 121 doi 10 1080 03014223 1997 9518107 nbsp Horrocks M et al 2004 Plant remains in coprolites diet of a subalpine moa Dinornithiformes from southern New Zealand Emu 104 2 149 156 Bibcode 2004EmuAO 104 149H doi 10 1071 MU03019 S2CID 86345660 Hutton F W Coughtrey M 1874 Notice of the Earnscleugh Cave Transactions and Proceedings of the New Zealand Institute 7 138 144 Huynen Leon Gill Brian J Millar Craig D Lambert David M 30 August 2010 Ancient DNA Reveals Extreme Egg Morphology and Nesting Behavior in New Zealand s Extinct Moa Proceedings of the National Academy of Sciences 107 30 16201 16206 Bibcode 2010PNAS 10716201H doi 10 1073 pnas 0914096107 PMC 2941315 PMID 20805485 Huynen Leon J Millar Craig D Scofield R P Lambert David M 2003 Nuclear DNA sequences detect species limits in ancient moa Nature 425 6954 175 178 Bibcode 2003Natur 425 175H doi 10 1038 nature01838 PMID 12968179 S2CID 4413995 Laing Doug 5 January 2008 Birdman says moa surviving in the Bay Hawkes Bay Today APN News amp Media Ltd Archived from the original on 24 July 2011 Retrieved 14 February 2011 Millener P R 1982 And then there were twelve the taxonomic status of Anomalopteryx oweni Aves Dinornithidae PDF Notornis 29 1 165 170 OSNZ January 2009 New Zealand Recognised Bird Names NZRBN database Ornithological Society of New Zealand Inc Archived from the original on 25 April 2015 Retrieved 14 February 2011 Owen Richard 1879 Memoirs on the Extinct Wingless Birds of New Zealand with an Appendix of Those of England Australia Newfoundland Mauritius and Rodriguez London John van Voorst hdl 2152 16251 Phillips Matthew J Gibb Gillian C Crimp Elizabeth A Penny David 2010 Tinamous and Moa Flock Together Mitochondrial Genome Sequence Analysis Reveals Independent Losses of Flight among Ratites Systematic Biology 59 1 90 107 doi 10 1093 sysbio syp079 PMID 20525622 nbsp Polack J S 1838 New Zealand Being a Narrative of Travels and Adventures During a Residence in that Country Between the Years 1831 and 1837 Vol I London Richard Bentley pp 303 307 Purcell Rosamond 1999 Swift as a Shadow Mariner Books p 32 ISBN 978 0 395 89228 2 Stephenson Brent 5 January 2009 New Zealand Recognised Bird Names NZRBN database New Zealand Ornithological Society of New Zealand Archived from the original on 25 April 2015 Retrieved 10 May 2010 Turvey Samuel T Green Owen R Holdaway Richard 2005 Cortical growth marks reveal extended juvenile development in New Zealand moa Nature 435 7044 940 943 Bibcode 2005Natur 435 940T doi 10 1038 nature03635 PMID 15959513 S2CID 4308841 Vickers Rich P Trusler P Rowley MJ Cooper A Chambers GK Bock WJ Millener PR Worthy Trevor Yaldwyn JC 1995 Morphology myology collagen and DNA of a mummified moa Megalapteryx didinus Aves Dinornithiformes from New Zealand PDF Tuhinga Records of the Museum of New Zealand te Papa Tongarewa 4 1 26 Archived from the original PDF on 22 May 2010 Wood J R 2007 Moa gizzard content analyses further information on the diet of Dinornis robustus and Emeus crassus and the first evidence for the diet of Pachyornis elephantopus Aves Dinornithiformes Records of the Canterbury Museum 21 27 39 Wood J R 2008 Moa Aves Dinornithiformes nesting material from rockshelters in the semi arid interior of South Island New Zealand Journal of the Royal Society of New Zealand 38 3 115 129 Bibcode 2008JRSNZ 38 115W doi 10 1080 03014220809510550 S2CID 129645654 nbsp Wood J R Worthy Trevor Rawlence N J Jones S M Read S E 2008 A deposition mechanism for Holocene miring bone deposits South Island New Zealand Journal of Taphonomy 6 1 20 hdl 2440 62495 Worthy Trevor 1989 Mummified moa remains from Mt Owen northwest Nelson PDF Notornis 36 36 38 Worthy Trevor 1998a Quaternary fossil faunas of Otago South Island New Zealand Journal of the Royal Society of New Zealand 28 3 421 521 Bibcode 1998JRSNZ 28 421W doi 10 1080 03014223 1998 9517573 nbsp Worthy Trevor 1998b The Quaternary fossil avifauna of Southland South Island New Zealand Journal of the Royal Society of New Zealand 28 4 537 589 Bibcode 1998JRSNZ 28 537W doi 10 1080 03014223 1998 9517575 nbsp Worthy Trevor Holdaway Richard 1993 Quaternary fossil faunas from caves in the Punakaiki area West Coast South Island New Zealand Journal of the Royal Society of New Zealand 23 3 147 254 Bibcode 1993JRSNZ 23 147W doi 10 1080 03036758 1993 10721222 nbsp Worthy Trevor Holdaway Richard 1994 Quaternary fossil faunas from caves in Takaka Valley and on Takaka Hill northwest Nelson South Island New Zealand Journal of the Royal Society of New Zealand 24 3 297 391 Bibcode 1994JRSNZ 24 297W doi 10 1080 03014223 1994 9517474 nbsp Worthy Trevor Holdaway Richard 1995 Quaternary fossil faunas from caves on Mt Cookson North Canterbury South Island New Zealand Journal of the Royal Society of New Zealand 25 3 333 370 Bibcode 1995JRSNZ 25 333W doi 10 1080 03014223 1995 9517494 nbsp Worthy Trevor Holdaway Richard 1996 Quaternary fossil faunas overlapping taphonomies and paleofaunal reconstructions in North Canterbury South Island New Zealand Journal of the Royal Society of New Zealand 26 3 275 361 Bibcode 1996JRSNZ 26 275W doi 10 1080 03014223 1996 9517514 nbsp Worthy Trevor Holdaway Richard 2002 The Lost World of the Moa Bloomington Indiana University Press ISBN 978 0 253 34034 4 Worthy Trevor March 2009 A moa sighting Te Ara the Encyclopedia of New Zealand Retrieved 14 February 2011 Yong Ed 10 March 2010 DNA from the Largest Bird Ever Sequenced from Fossil Eggshells Discover Magazine Archived from the original on 22 September 2020 Retrieved 14 February 2011 External links edit nbsp Wikimedia Commons has media related to Moa nbsp Wikispecies has information related to Moa TerraNature list of New Zealand s extinct birds TerraNature page on Moa Tree of Life classification and references Moa article in Te Ara the Encyclopedia of New Zealand 3D model of a moa skull Retrieved from https en wikipedia org w index php title Moa amp oldid 1190871899, wikipedia, wiki, book, books, library,

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