Frigatebird

Last updated

Frigatebird
Temporal range: Early Eocene to present 50–present  Ma
Male Frigate bird.jpg
Male magnificent frigatebird
(Fregata magnificens)
displaying gular pouch, Galápagos Islands.
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Suliformes
Family: Fregatidae
Degland & Gerbe, 1867
Genus: Fregata
Lacépède, 1799
Type species
Pelecanus aquilus (Ascension frigatebird)
Linnaeus, 1758
Species
Fregata distribution.png
Range map

Frigatebirds are a family of seabirds called Fregatidae which are found across all tropical and subtropical oceans. The five extant species are classified in a single genus, Fregata. All have predominantly black plumage, long, deeply forked tails and long hooked bills. Females have white underbellies and males have a distinctive red gular pouch, which they inflate during the breeding season to attract females. Their wings are long and pointed and can span up to 2.3 metres (7.5 ft), the largest wing area to body weight ratio of any bird.

Contents

Able to soar for weeks on wind currents, frigatebirds spend most of the day in flight hunting for food, and roost on trees or cliffs at night. Their main prey are fish and squid, caught when chased to the water surface by large predators such as tuna. Frigatebirds are referred to as kleptoparasites as they occasionally rob other seabirds for food, and are known to snatch seabird chicks from the nest. Seasonally monogamous, frigatebirds nest colonially. A rough nest is constructed in low trees or on the ground on remote islands. A single egg is laid each breeding season. The duration of parental care is among the longest of any bird species; frigatebirds are only able to breed every other year.

The Fregatidae are a sister group to Suloidea which consists of cormorants, darters, gannets, and boobies. Three of the five extant species of frigatebirds are widespread (the magnificent, great and lesser frigatebirds), while two are endangered (the Christmas Island and Ascension Island frigatebirds) and restrict their breeding habitat to one small island each. The oldest fossils date to the early Eocene, around 50 million years ago. Classified in the genus Limnofregata , the three species had shorter, less-hooked bills and longer legs, and lived in a freshwater environment.

Taxonomy

Etymology

The term Frigate Bird itself was used in 1738 by the English naturalist and illustrator Eleazar Albin in his A Natural History of the Birds. The book included an illustration of the male bird showing the red gular pouch. [1] Like the genus name, the English term is derived from the French mariners' name for the bird la frégate—a frigate or fast warship. [2] The etymology was mentioned by French naturalist Jean-Baptiste Du Tertre when describing the bird in 1667. [3] [a] Alternative names and spellings include "frigate bird", "frigate-bird", "frigate", "frigate-petrel". [4]

Christopher Columbus encountered frigatebirds when passing the Cape Verde Islands on his first voyage across the Atlantic in 1492. In his journal entry for 29 September he used the word rabiforçado, modern Spanish rabihorcado or forktail. [5] [6] [b] In the Caribbean frigatebirds were called Man-of-War birds by English mariners. This name was used by the English explorer William Dampier in his book An Account of a New Voyage Around the World published in 1697: [7]

The Man-of-War (as it is called by the English) is about the bigness of a Kite, and in shape like it, but black; and the neck is red. It lives on Fish yet never lights on the water, but soars aloft like a Kite, and when it sees its prey, it flys down head foremost to the Waters edge, very swiftly takes its prey out of the Sea with his Bill, and immediately mounts again as swiftly; never touching the Water with his Bill. His Wings are very long; his feet are like other Land-fowl, and he builds on Trees, where he finds any; but where they are wanting on the ground. [7]

Classification

Frigatebirds were grouped with cormorants, and sulids (gannets and boobies) as well as pelicans in the genus Pelecanus by Linnaeus in 1758 in the tenth edition of his Systema Naturae . He described the distinguishing characteristics as a straight bill hooked at the tip, linear nostrils, a bare face, and fully webbed feet. [8] The genus Fregata was introduced by French naturalist Bernard Germain de Lacépède in 1799. [9] The type species was designated as the Ascension frigatebird by French zoologist François Marie Daudin in 1802. [10] [11] Louis Pierre Vieillot described the genus name Tachypetes in 1816 for the great frigatebird. The genus name Atagen had been coined by German naturalist Paul Möhring in 1752, though this has no validity as it predates the official beginning of Linnaean taxonomy. [12]

In 1874, English zoologist Alfred Henry Garrod published a study where he had examined various groups of birds and recorded which muscles of a selected group of five [c] they possessed or lacked. Noting that the muscle patterns were different among the steganopodes (classical Pelecaniformes), he resolved that there were divergent lineages in the group that should be in separate families, including frigatebirds in their own family Fregatidae. [13] Urless N. Lanham observed in 1947 that frigatebirds bore some skeletal characteristics more in common with Procellariiformes than Pelecaniformes, though concluded they still belonged in the latter group (as suborder Fregatae), albeit as an early offshoot. [14] Martyn Kennedy and colleagues derived a cladogram based on behavioural characteristics of the traditional Pelecaniformes, calculating the frigatebirds to be more divergent than pelicans from a core group of gannets, darters and cormorants, and tropicbirds the most distant lineage. [15] The classification of this group as the traditional Pelecaniformes, united by feet that are totipalmate (with all four toes linked by webbing) and the presence of a gular pouch, persisted until the early 1990s. [16] The DNA–DNA hybridization studies of Charles Sibley and Jon Edward Ahlquist placed the frigatebirds in a lineage with penguins, loons, petrels and albatrosses. [17] Subsequent genetic studies place the frigatebirds as a sister group to the group Suloidea, which comprises the gannets and boobies, cormorants and darters. [18] [19] Microscopic analysis of eggshell structure by Konstantin Mikhailov in 1995 found that the eggshells of frigatebirds resembled those of other Pelecaniformes in having a covering of thick microglobular material over the crystalline shells. [20]

Molecular studies have consistently shown that pelicans, the namesake family of the Pelecaniformes, are actually more closely related to herons, ibises and spoonbills, the hamerkop and the shoebill than to the remaining species. In recognition of this, the order comprising the frigatebirds and Suloidea was renamed Suliformes in 2010. [21] [22]

In 1994, the family name Fregatidae, cited as described in 1867 by French naturalists Côme-Damien Degland and Zéphirin Gerbe, was conserved under Article 40(b) of the International Code of Zoological Nomenclature in preference to the 1840 description Tachypetidae by Johann Friedrich von Brandt. This was because the genus names Atagen and Tachypetes had been synonymised with Fregata before 1961, resulting in the aligning of family and genus names. [23]

Fossil record

Fossil of Eocene species Limnofregata azygosternon Limnofregata azygosternon.jpg
Fossil of Eocene species Limnofregata azygosternon

The Eocene frigatebird genus Limnofregata comprises birds whose fossil remains were recovered from prehistoric freshwater environments, unlike the marine preferences of their modern-day relatives. They had shorter less-hooked bills and longer legs, and longer slit-like nasal openings. [24] Three species have been described from fossil deposits in the western United States, two—L. azygosternon and L. hasegawai—from the Green River Formation (48–52 million years old) and one—L. hutchisoni—from the Wasatch Formation (between 53 and 55 million years of age). [25] Fossil material indistinguishable from living species dating to the Pleistocene and Holocene has been recovered from Ascension Island (for F. aquila), [26] Saint Helena Island, [27] both in the southern Atlantic Ocean, and also from various islands in the Pacific Ocean (for F. minor and F. ariel). [28] [29] A tarsometatarsus and pedal phalanx from the Lower Eocene London Clay of the Walton-on-the-Naze resembles Limnofregata, but being notably larger and distinct in other ways, was tentatively referred to Marinavis longirostris due to similar stratigraphy, geography, size, and presumed frigatebird affinities. [30]

A cladistic study of the skeletal and bone morphology of the classical Pelecaniformes and relatives found that the frigatebirds formed a clade with Limnofregata. Birds of the two genera have 15 cervical vertebrae, unlike almost all other Ciconiiformes, Suliformes and Pelecaniformes, which have 17. The age of Limnofregata indicates that these lineages had separated by the Eocene. [19]

Living species and infrageneric classification

Frigatebird phylogeny [31]

Lesser frigatebird (Fregata ariel)

Christmas frigatebird (Fregata andrewsi)

Great frigatebird (Fregata minor)

Ascension frigatebird (Fregata aquila)

Magnificent frigatebird (Fregata magnificens)

The type species of the genus is the Ascension frigatebird (Fregata aquila). [32] For many years, the consensus was to recognise only two species of frigatebird, with larger birds as F. aquila and smaller as F. ariel. In 1914 the Australian ornithologist Gregory Mathews delineated five species, which remain valid. [31] [33] Analysis of ribosomal and mitochondrial DNA indicated that the five species had diverged from a common ancestor only recently—as little as 1.5 million years ago. There are two species pairs, the great and Christmas Island frigatebirds, and the magnificent and Ascension frigatebirds, while the fifth species, the lesser frigatebird, is an early offshoot of the common ancestor of the other four species. [31] Two subspecies of the magnificent, three subspecies of the lesser and five subspecies of the great frigatebird are recognised. [34]

Living species of frigatebirds
Common and binomial namesImageDescriptionRange
Magnificent frigatebird
(Fregata magnificens)
Mathews, 1914
Fregata magnificens -Galapagos, Ecuador -male-8 (1).jpg With a body length of 89–114 cm (35–45 in), it is the largest species and has the longest bill. The adult male is all-black with a scarlet throat pouch that is inflated like a balloon in the breeding season. Although the feathers are black, the scapular feathers have a purple sheen, in contrast to the male great frigatebird's green sheen. The female is brownish-black, but has a white breast and lower neck sides, a brown band on the wings, and a blueish-grey eye-ring. [35] Widespread in the tropical Atlantic, it breeds in colonies in trees in Florida, the Caribbean and Cape Verde Islands, as well as along the Pacific coast of the Americas from Mexico to Ecuador, including the Galápagos Islands. [36]
Ascension frigatebird
(Fregata aquila)
(Linnaeus, 1758)
Male Frigatebird with chick Fregata aquila.jpg Apart from its smaller size, the adult male is very similar to the magnificent frigatebird. The female is brownish black with a rusty brown mantle and chest, and normally lacks any white patches present on the front of female birds of other species. The occasional female observed with a white belly may be breeding before obtaining the full adult plumage. [37] Found on Boatswain Bird Island just off Ascension Island in the tropical Atlantic Ocean, having not bred on the main island since the 1800s. [38]
Christmas frigatebird
(Fregata andrewsi)
Mathews, 1914
Christmas Island Frigatebird.JPG The adult male is the only frigatebird species with white on its belly—an egg shaped patch. It is larger with a longer bill than the related great frigatebird. Its upperparts are black with green metallic gloss on the mantle and scapulars. The female has dark upperparts with brown wing bars, a black head with white belly and white collar (sometimes incomplete) around its neck. [39] Breeds only on Christmas Island in the eastern Indian Ocean. [40]
Great frigatebird
(Fregata minor)
(Gmelin, 1789)
Male greater frigate bird displaying crop.jpg The adult male has black upperparts with green metallic gloss on the mantle and scapulars. It is completely black underneath with subtle brown barring on the axillaries. The upperparts of the female are dark with lighter brown wing bars. Its head is black with a mottled throat and belly. The neck has a white collar. [39] Found in tropical Indian and Pacific oceans, as well as one colony—Trindade and Martim Vaz—in the south Atlantic, generally where the water is warmer than 22 °C (72 °F), and breeding on islands and atolls with sufficient vegetation to nest in. [41]
Lesser frigatebird
(Fregata ariel)
(G. R.Gray, 1845)
Lesser frigatebird lei.jpg With a body length of around 75 cm (30 in), it is the smallest species. The adult male has black upperparts with greenish to purple metallic gloss on the mantle and scapulars, and is black underneath except for bold white axillary spurs. The upperparts of the female are dark with lighter wing bars. The head is black while the belly and the neck collar are white. [39] Tropical and subtropical waters across the Indian and Pacific Oceans. Atlantic race trinitatis was limited to Trindade, off Eastern Brazil but may now be extinct. [42] [43]

Description

Male magnificent frigatebird in the Galapagos Islands Magnificent-Frigate-male.jpg
Male magnificent frigatebird in the Galapagos Islands

Frigatebirds are large slender mostly black-plumaged seabirds, with the five species similar in appearance to each other. The largest species is the magnificent frigatebird, which reaches 114 cm (45 in) in length, with three of the remaining four almost as large. The lesser frigatebird is substantially smaller, at around 71 cm (28 in) long. Frigatebirds exhibit marked sexual dimorphism; females are larger and up to 25 percent heavier than males, [44] and generally have white markings on their underparts. [45] Frigatebirds have short necks and long, slender hooked bills. [44] Their long narrow wings (male wingspan can reach 2.3 metres (7.5 ft)) taper to points. Their wings have eleven primary flight feathers, with the tenth the longest and eleventh a vestigial feather only, and 23 secondaries. Their tails are deeply forked, though this is not apparent unless the tail is fanned. [46] The tail and wings give them a distinctive 'W' silhouette in flight. [44] The legs and face are fully feathered. The totipalmate feet are short and weak, the webbing is reduced and part of each toe is free. [46]

The bones of frigatebirds are markedly pneumatic, making them very light and contributing only 5% to total body weight. The pectoral girdle is strong as its bones are fused. The pectoral muscles are well-developed, and weigh as much as the frigatebird's feathers—around half the body weight is made up equally of these muscles and feathers. [44] The males have inflatable red-coloured throat pouches called gular pouches, which they inflate to attract females during the mating season. [45] The gular sac is, perhaps, the most striking frigatebird feature. These can only deflate slowly, so males that are disturbed will fly off with pouches distended for some time. [44]

Frigatebirds remain in the air and do not settle on the ocean. They produce very little oil from their uropygial glands so their feathers would become sodden if they settled on the surface. In addition, with their long wings relative to body size, they would have great difficulty taking off again. [44]

Distribution and habitat

Frigatebirds are found over tropical oceans, and ride warm updrafts under cumulus clouds. Their range coincides with availability of food such as flying fish, and with the trade winds, which provide the windy conditions that facilitate their flying. [44] They are rare vagrants to temperate regions and not found in polar latitudes. Adults are generally sedentary, remaining near the islands where they breed. [44] However, male frigatebirds have been recorded dispersing great distances after departing a breeding colony—one male great frigatebird relocated from Europa Island in the Mozambique Channel to the Maldives 4,400 km (2,700 mi) away, and a male magnificent frigatebird flew 1,400 km (870 mi) from French Guiana to Trinidad. [47] In 2015, a magnificent frigatebird was spotted as far north as Michigan. [48] Great frigatebirds marked with wing tags on Tern Island in the French Frigate Shoals were found to regularly travel the 873 km (542 mi) to Johnston Atoll, although one was reported in Quezon City in the Philippines. Genetic testing seems to indicate that the species has fidelity to their site of hatching despite their high mobility. [49] Young birds may disperse far and wide, with distances of up to 6,000 km (3,700 mi) recorded. [44]

Behaviour and ecology

Magnificent frigatebirds drinking freshwater Prachtfregattvogel MM01.jpg
Magnificent frigatebirds drinking freshwater

Having the largest wing-area-to-body-weight ratio of any bird, frigatebirds are essentially aerial. [44] This allows them to soar continuously and only rarely flap their wings. One great frigatebird, being tracked by satellite in the Indian Ocean, stayed aloft for two months. They can fly higher than 4,000 meters in freezing conditions. [50] Like swifts they are able to spend the night on the wing, but they will also return to an island to roost on trees or cliffs. [51] Field observations in the Mozambique Channel found that great frigatebirds could remain on the wing for up to 12 days while foraging. [52] Highly adept, they use their forked tails for steering during flight and make strong deep wing-beats, [46] though not suited to flying by sustained flapping. Frigatebirds bathe and clean themselves in flight by flying low and splashing at the water surface before preening and scratching afterwards. [44] Conversely, frigatebirds do not swim and with their short legs cannot walk well or take off from the sea easily. [46]

According to a study in the journal Nature Communications, scientists attached an accelerometer and an electroencephalogram testing device on nine great frigatebirds to measure if they slept during flight. The study found the birds do sleep, but usually only using one hemisphere of the brain at a time and usually sleep while ascending at higher altitudes. The amount of time mid-air sleeping was less than an hour and always at night. [53]

The average life span is unknown but in common with seabirds such as the wandering albatross and Leach's storm petrel, frigatebirds are long-lived. In 2002, 35 ringed great frigatebirds were recovered on Tern Island in the Hawaiian Islands. Of these ten were older than 37 years and one was at least 44 years of age. [54]

Despite having dark plumage in a tropical climate, frigatebirds have found ways not to overheat—particularly as they are exposed to full sunlight when on the nest. They ruffle feathers to lift them away from the skin and improve air circulation, and can extend and upturn their wings to expose the hot undersurface to the air and lose heat by evaporation and convection. Frigatebirds also place their heads in the shade of their wings, and males frequently flutter their gular pouches. [44]

Unlike most seabirds, frigatebirds are thermal soarers, using thermals to glide. [55] [56] This is in contrast to birds like albatrosses, which are dynamic soarers, using winds produced by the waves to stay aloft.

Soaring styles in extinct and extant flyers. Frigatebirds are marked as thermal soarers. Soaring styles.png
Soaring styles in extinct and extant flyers. Frigatebirds are marked as thermal soarers.

Breeding behaviour

Magnificent frigatebird male breeding display Fregata magnificens -Galapagos, Ecuador -male-8.jpg
Magnificent frigatebird male breeding display

Frigatebirds typically breed on remote oceanic islands, generally in colonies of up to 5000 birds. Within these colonies, they most often nest in groups of 10 to 30 (or rarely 100) individuals. [46] Breeding can occur at any time of year, often prompted by commencement of the dry season or plentiful food. [44]

Frigatebirds have the most elaborate mating displays of all seabirds. The male birds take up residence in the colony in groups of up to thirty individuals. [44] They display to females flying overhead by pointing their bills upwards, inflating their red throat pouches and vibrating their outstretched wings, showing the lighter wing undersurfaces in the process. They produce a drumming sound by vibrating their bills together and sometimes give a whistling call. [46] The female descends to join a male she has chosen and allows him to take her bill in his. The pair also engages in mutual "head-snaking". [44]

After copulation it is generally the male who gathers sticks and the female that constructs the loosely woven nest. The nest is subsequently covered with (and cemented by) guano. Frigatebirds prefer to nest in trees or bushes, though when these are not available they will nest on the ground. A single white egg that weighs up to 6–7% of mother's body mass is laid, and is incubated in turns by both birds for 41 to 55 days. The altricial chicks are naked on hatching and develop a white down. They are continuously guarded by the parents for the first 4–6 weeks and are fed on the nest for 5–6 months. [46] Both parents take turns feeding for the first three months, after which the male's attendance trails off leaving the mother to feed the young for another six to nine months on average. [44] The chicks feed by reaching their heads in their parents' throat and eating the part-regurgitated food. It takes so long to rear a chick that frigatebirds generally breed every other year. [46]

Seabird colony with great frigatebirds, red-tailed tropicbird, red-footed boobies, sooty terns and black noddies, French Frigate Shoals Seabird colony.JPG
Seabird colony with great frigatebirds, red-tailed tropicbird, red-footed boobies, sooty terns and black noddies, French Frigate Shoals

The duration of parental care in frigatebirds is among the longest for birds, rivalled only by the southern ground hornbill and some large accipitrids. [57] Frigatebirds take many years to reach sexual maturity. A study of great frigatebirds in the Galapagos Islands found that they only bred once they have acquired the full adult plumage. This was attained by female birds when they were eight to nine years of age and by male birds when they were ten to eleven years of age. [58]

Feeding

An immature great frigatebird snatching a sooty tern chick Frigate sooty.JPG
An immature great frigatebird snatching a sooty tern chick

Frigatebirds' feeding habits are pelagic, and they may forage up to 500 km (310 mi) from land. They do not land on the water but snatch prey from the ocean surface using their long, hooked bills. [46] They mainly catch small fish such as flying fish, particularly the genera Exocoetus and Cypselurus , that are driven to the surface by predators such as tuna and dolphinfish, [51] but they will also eat cephalopods, particularly squid. [46] Menhaden of the genus Brevoortia can be an important prey item where common, and jellyfish and larger plankton are also eaten. Frigatebirds have learned to follow fishing vessels and take fish from holding areas. [44] Conversely tuna fishermen fish in areas where they catch sight of frigatebirds due to their association with large marine predators. [59] Frigatebirds also at times prey directly on eggs and young of other seabirds, including boobies, petrels, shearwaters and terns, in particular the sooty tern. [44]

Frigatebirds will rob other seabirds such as boobies, particularly the red-footed booby, tropicbirds, shearwaters, petrels, terns, gulls and even ospreys of their catch, using their speed and manoeuvrability to outrun and harass their victims until they regurgitate their stomach contents. They may either assail their targets after they have caught their food or circle high over seabird colonies waiting for parent birds to return laden with food. [44] Although frigatebirds are renowned for their kleptoparasitic feeding behaviour, kleptoparasitism is not thought to play a significant part of the diet of any species, and is instead a supplement to food obtained by hunting. [60] A study of great frigatebirds stealing from masked boobies estimated that the frigatebirds could at most obtain 40% of the food they needed, and on average obtained only 5%. [61]

Unlike most other seabirds, frigatebirds drink freshwater when they come across it, by swooping down and gulping with their bills. [44]

Parasites

Frigatebirds are unusual among seabirds in that they often carry blood parasites. Blood-borne protozoa of the genus Haemoproteus have been recovered from four of the five species. [62] Bird lice of the ischnoceran genus Pectinopygus and amblyceran genus Colpocephalum and species Fregatiella aurifasciata have been recovered from magnificent and great frigatebirds of the Galapagos Islands. Frigatebirds tended to have more parasitic lice than did boobies analysed in the same study. [63]

A heavy chick mortality at a large and important colony of the magnificent frigatebird, located on Île du Grand Connétable off French Guiana, was recorded in summer 2005. Chicks showed nodular skin lesions, feather loss and corneal changes, with around half the year's progeny perishing across the colony. An alphaherpesvirus was isolated and provisionally named Fregata magnificens herpesvirus, though it was unclear whether it caused the outbreak or affected birds already suffering malnutrition. [64]

Status and conservation

Populations and threats

Two of the five species are considered at risk. [44] In 2003, a survey of the four colonies of the critically endangered Christmas Island frigatebirds counted 1200 breeding pairs. As frigatebirds normally breed every other year, the total adult population was estimated to lie between 1800 and 3600 pairs. Larger numbers formerly bred on the island, but the clearance of breeding habitat during World War II and dust pollution from phosphate mining have contributed to the decrease. [40] [65] The population of the vulnerable Ascension frigatebird has been estimated at around 12,500 individuals. [66] The birds formerly bred on Ascension Island itself, but the colonies were exterminated by feral cats introduced in 1815. The birds continued to breed on a rocky outcrop just off the shore of the island. A program conducted between 2002 and 2004 eradicated the feral cats [67] and a few birds have returned to nest on the island. [68] [69]

The other three species are classified by the International Union for Conservation of Nature as being of Least Concern. The populations of all three are large, with that of the magnificent frigatebird thought to be increasing, [36] while the great and lesser frigatebird decreasing. [41] [70] Monitoring populations of all species is difficult due to their movements across the open ocean and low reproductivity. The status of the Atlantic populations of the great and lesser frigatebirds are unknown and possibly extinct. [44]

As frigatebirds rely on large marine predators such as tuna for their prey, overfishing threatens to significantly impact on food availability and jeopardise whole populations. [59] As frigatebirds nest in large dense colonies in small areas, they are vulnerable to local disasters that could wipe out the rare species or significantly impact the widespread ones. [44]

Hunting

In Nauru, catching frigatebirds was an important tradition still practised to some degree. Donald W. Buden writes: "Birds typically are captured by slinging the weighted end of a coil of line in front of an approaching bird attracted to previously captured birds used as decoys. In a successful toss, the line becomes entangled about the bird's wing and bringing [sic] it to ground." [71] Marine birds including frigatebirds were once harvested for food on Christmas Island but this practice ceased in the late 1970s. [65] Eggs and young of magnificent frigatebirds were taken and eaten in the Caribbean. [44] Great frigatebirds were eaten in the Hawaiian Islands and their feathers used for decoration. [72]

Cultural significance

The frigate bird painted in the Nazca desert. Nazca Frigate Bird from 062016 flamingo.jpg
The frigate bird painted in the Nazca desert.

The frigate bird appears on the national Flag of Kiribati. The design is based on its former colonial Gilbert and Ellice Islands coat of arms. The bird also appears on the flag of Barbuda, and is the national bird of Antigua and Barbuda. [73]

There are anecdotal reports of tame frigatebirds being kept across Polynesia and Micronesia in the Pacific. A bird that had come from one island and had been taken elsewhere could be reliably trusted to return to its original home, hence would be used as a speedy way to relay a message there. [44] There is evidence of this practice taking place in the Gilbert Islands and Tuvalu. [74]

The great frigatebird was venerated by the Rapa Nui people on Easter Island; carvings of the birdman Tangata manu depict him with the characteristic hooked beak and throat pouch. [75] Its incorporation into local ceremonies suggests that the now-vanished species was extant there between the 1800s and 1860s. [76]

Maritime folklore around the time of European contact with the Americas held that frigatebirds were birds of good omen as their presence meant land was near. [44]

See also

Explanatory notes

  1. Du Tertre wrote: "Loyseau que les habitans des Indes appellent Fregate (à cause de la vistesse de son vol) n'a pas le corp plus gros qu'une poule ..." ("The bird that the inhabitants of the Indies call "frigate" (because of the speed of its flight) has a body no larger than a chicken's.") [3]
  2. Columbus's journal survives in a version recorded by Bartholomé de las Casas in the 1530s. In English the entry reads: "They saw a bird that is called a frigatebird, which makes the boobies throw up what they eat in order to eat it herself, and she does not sustain herself on anything else. It is a seabird, but does not alight on the sea nor depart from land 20 leagues. There are many of these on the islands of Cape Verde." [6]
  3. ambiens, fermorocaudal, accessory femorocaudal, semitendinosus, and accessory tendinosus [13]

Related Research Articles

<span class="mw-page-title-main">Seabird</span> Birds that have adapted to life within the marine environment

Seabirds are birds that are adapted to life within the marine environment. While seabirds vary greatly in lifestyle, behaviour and physiology, they often exhibit striking convergent evolution, as the same environmental problems and feeding niches have resulted in similar adaptations. The first seabirds evolved in the Cretaceous period, and modern seabird families emerged in the Paleogene.

<span class="mw-page-title-main">Ascension frigatebird</span> Species of bird

The Ascension frigatebird is a seabird of the frigatebird family Fregatidae which breeds on Boatswain Bird Island and Ascension Island in the tropical Atlantic Ocean.

<span class="mw-page-title-main">Christmas frigatebird</span> Species of bird

The Christmas frigatebird, or Christmas Island frigatebird, is a seabird of the frigatebird family Fregatidae which is an endemic breeder to Christmas Island in the Indian Ocean. Apart from the Ascension frigatebird, the three other species of frigatebird have much more widely distributed breeding locations.

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

The bird family Sulidae comprises the gannets and boobies. Collectively called sulids, they are medium-large coastal seabirds that plunge-dive for fish and similar prey. The 10 species in this family are often considered congeneric in older sources, placing all in the genus Sula. However, Sula and Morus (gannets) can be readily distinguished by morphological, behavioral, and DNA sequence characters. Abbott's booby (Papasula) is given its own genus, as it stands apart from both in these respects. It appears to be a distinct and ancient lineage, maybe closer to the gannets than to the true boobies.

<span class="mw-page-title-main">Great frigatebird</span> Species of bird (Fregata minor)

The great frigatebird is a large seabird in the frigatebird family. There are major nesting populations in the tropical Pacific Ocean, such as Hawaii and the Galápagos Islands; in the Indian Ocean, colonies can be found in the Seychelles and Mauritius, and there is a tiny population in the South Atlantic, mostly on and around St. Helena and Boatswain Bird Island.

<span class="mw-page-title-main">Lesser frigatebird</span> Species of bird

The lesser frigatebird is a seabird of the frigatebird family Fregatidae. At around 75 cm (30 in) in length, it is the smallest species of frigatebird. It occurs over tropical and subtropical waters across the Indian and Pacific Oceans as well as off the Atlantic coast of Brazil.

<i>Limnofregata</i> Extinct genus of birds

Limnofregata is an extinct genus of primitive frigatebird. The two known species were described after fossils from the Early Eocene Green River Formation of Wyoming. A number of good complete and partial skeletons, some with feather impressions, are known of the type species, Limnofregata azygosternon, and L. hasegawai is known from two skulls and most of one torso.

<span class="mw-page-title-main">Magnificent frigatebird</span> Species of bird

The magnificent frigatebird, frigate petrel or man o' war is a seabird of the frigatebird family Fregatidae. With a length of 89–114 centimetres and wingspan of 2.17–2.44 m it is the largest species of frigatebird. It occurs over tropical and subtropical waters off America, between northern Mexico and Perú on the Pacific coast and between Florida and southern Brazil along the Atlantic coast. There are also populations on the Galápagos Islands in the Pacific and the Cape Verde islands in the Atlantic. It is one of the fastest birds in the world, flying at speeds of up to 95 miles per hour.

<span class="mw-page-title-main">Seabird breeding behavior</span>

The term seabird is used for many families of birds in several orders that spend the majority of their lives at sea. Seabirds make up some, if not all, of the families in the following orders: Procellariiformes, Sphenisciformes, Pelecaniformes, and Charadriiformes. Many seabirds remain at sea for several consecutive years at a time, without ever seeing land. Breeding is the central purpose for seabirds to visit land. The breeding period is usually extremely protracted in many seabirds and may last over a year in some of the larger albatrosses; this is in stark contrast with passerine birds. Seabirds nest in single or mixed-species colonies of varying densities, mainly on offshore islands devoid of terrestrial predators. However, seabirds exhibit many unusual breeding behaviors during all stages of the reproductive cycle that are not extensively reported outside of the primary scientific literature.

<span class="mw-page-title-main">Suliformes</span> Order of birds

The order Suliformes is an order of birds recognised by the International Ornithologist's Union. Regarding the recent evidence that the traditional Pelecaniformes is polyphyletic, it has been suggested that the group be divided to reflect the true evolutionary relationships; a 2017 study indicated that they are most closely related to Otidiformes (bustards) and Ciconiiformes (storks).

References

  1. Albin, Eleazar (1738). A Natural History of the Birds. Vol. 3. London: Printed for the author and sold by William Innys. p. 75 and plate 80 on previous page.
  2. Jobling, James A. (2010). The Helm Dictionary of Scientific Bird Names. London, United Kingdom: Christopher Helm. p.  164. ISBN   978-1-4081-2501-4.
  3. 1 2 du Tertre, du Jean-Baptiste (1667). Histoire générale des Antilles habitées par les François (in French). Vol. 2. Paris: Thomas Joly. p. 269, Plate p. 246.
  4. Shorter Oxford English Dictionary. Oxford, UK: Oxford University Press. 2007. ISBN   978-0-19-920687-2.
  5. Hartog, J.C. den (1993). "An early note on the occurrence of the Magnificent Frigate Bird, Fregata magnificens Mathews, 1914, in the Cape Verde Islands: Columbus as an ornithologist". Zoologische Mededelingen. 67: 361–64.
  6. 1 2 Dunn, Oliver; Kelley, James E. Jr (1989). The Diario of Christopher Columbus's First Voyage to America, 1492–1493 . Norman, Oklahoma: University of Oklahoma Press. p.  45. ISBN   0-8061-2384-2.
  7. 1 2 Dampier, James (1699) [1697]. An Account of a New Voyage Around the World. London, United Kingdom: James Knapton. p.  49.
  8. Linnaeus, Carolus (1758). Systema Naturae per Regna Tria Naturae, Secundum Classes, Ordines, Genera, Species, cum Characteribus, Differentiis, Synonymis, Locis. Tomus I. Editio Decima, Reformata (in Latin). Vol. 1. Holmiae: Laurentii Salvii. pp. 132–34. Rostrum edentulum, rectum: apice adunco, unguiculato. Nares lineares. Facies nuda. Pedes digitís omnibus palmatis.
  9. Lacépède, Bernard Germain de (1799). "Tableau des sous-classes, divisions, sous-division, ordres et genres des oiseux". Discours d'ouverture et de clôture du cours d'histoire naturelle (in French). Paris: Plassan. p. 15. Page numbering starts at one for each of the three sections.
  10. Lacépède, Bernard Germain de; Daudin, François Marie (1799). "Tableau des sous-classes, divisions, sous-divisions, ordres et genres des oiseaux, par le Cen Lacépède; avec l'indication de toutes les espèces décrites par Buffon, et leur distribution dans chacun des genres, par F. M. Daudin". In Buffon, Georges-Louis Leclerc de (ed.). Histoire Naturelle par Buffon Dédiée au citoyen Lacépède, membre de l'Institut National (in French). Vol. 14: Quadrupedes. Paris: P. Didot l'ainé et Firmin Didot. pp. 197–346 [317]. Although the date of 1799 is printed on the title page, this volume was not published until 1802. For a discussion of the date see: Richmond, Charles W. (1899). "On the date of Lacépède's 'Tableaux'". Auk. 16 (4): 325–329. doi:10.2307/4069359. JSTOR   4069359.
  11. Mayr, Ernst; Cottrell, G. William, eds. (1979). Check-List of Birds of the World. Vol. 1 (2nd ed.). Cambridge, Massachusetts: Museum of Comparative Zoology. p. 159.
  12. Australian Biological Resources Study (26 August 2014). "Family Fregatidae Degland & Gerbe, 1867". Australian Faunal Directory. Canberra, Australian Capital Territory: Department of the Environment, Water, Heritage and the Arts, Australian Government. Archived from the original on 2014-12-07. Retrieved 30 November 2014.
  13. 1 2 Garrod, Alfred Henry (1874). "On certain muscles of birds and their value in classification". Proceedings of the Zoological Society of London. 42 (1): 111–23. doi:10.1111/j.1096-3642.1874.tb02459.x.
  14. Lanham, Urless N. (1947). "Notes on the phylogeny of the Pelecaniformes" (PDF). The Auk. 64 (1): 65–70. doi:10.2307/4080063. JSTOR   4080063.
  15. Kennedy, Martyn; Spencer, Hamish G.; Gray, Russell D. (1996). "Hop, step and gape: do the social displays of the Pelecaniformes reflect phylogeny?" (PDF). Animal Behaviour. 51 (2): 273–91. doi:10.1006/anbe.1996.0028. S2CID   53202305.
  16. Hedges, S. Blair; Sibley, Charles G. (1994). "Molecules vs. morphology in avian evolution: the case of the "pelecaniform" birds". PNAS. 91 (21): 9861–65. Bibcode:1994PNAS...91.9861H. doi: 10.1073/pnas.91.21.9861 . PMC   44917 . PMID   7937906.
  17. Sibley, Charles Gald; Ahlquist, Jon Edward (1990). Phylogeny and classification of birds. New Haven, Connecticut: Yale University Press. ISBN   978-0-300-04085-2.
  18. Hackett, Shannon J.; Kimball, Rebecca T.; Reddy, Sushma; Bowie, Rauri C. K.; Braun, Edward L.; Braun, Michael J.; Chojnowski, Jena L.; Cox, W. Andrew; Han, Kin-Lan; Harshman, John; Huddleston, Christopher J.; Marks, Ben D.; Miglia, Kathleen J.; Moore, William S.; Sheldon, Frederick H.; Steadman, David W.; Witt, Christopher C.; Yuri, Tamaki (2008). "A phylogenomic study of birds reveals their evolutionary history". Science. 320 (5884): 1763–68. Bibcode:2008Sci...320.1763H. doi:10.1126/science.1157704. PMID   18583609. S2CID   6472805.
  19. 1 2 Smith, Nathan D. (2010). "Phylogenetic analysis of Pelecaniformes (Aves) based on osteological data: Implications for waterbird phylogeny and fossil calibration studies". PLOS ONE. 5 (10): e13354. Bibcode:2010PLoSO...513354S. doi: 10.1371/journal.pone.0013354 . PMC   2954798 . PMID   20976229.
  20. Mikhailov, Konstantin E. (1995). "Eggshell structure in the shoebill and pelecaniform birds: comparison with hamerkop, herons, ibises and storks". Canadian Journal of Zoology. 73 (9): 1754–70. doi:10.1139/z95-207.
  21. Chesser, R. Terry; Banks, Richard C.; Barker, F. Keith; Cicero, Carla; Dunn, Jon L.; Kratter, Andrew W.; Lovette, Irby J.; Rasmussen, Pamela C.; Remsen, J.V. Jr; Rising, James D.; Stotz, Douglas F.; Winker, Kevin (2010). "Fifty-First Supplement to the American Ornithologists' Union Check-List of North American Birds". The Auk. 127 (3): 726–44. doi: 10.1525/auk.2010.127.3.726 . S2CID   86363169.
  22. "Taxonomy Version 2". IOC World Bird List: Taxonomy Updates – v2.6 (23 October 2010). 2010. Retrieved 29 November 2014.
  23. Bock, Walter J. (1994). History and nomenclature of avian family-group names. Bulletin of the American Museum of Natural History Issue 222. pp. 131, 166. hdl:2246/830.
  24. Mayr, Gerald (2009). Paleogene Fossil Birds. New York: Springer Science & Business Media. pp. 63–64. ISBN   978-3-540-89628-9.
  25. Stidham, Thomas A. (2014). "A new species of Limnofregata (Pelecaniformes: Fregatidae) from the Early Eocene Wasatch Formation of Wyoming: implications for palaeoecology and palaeobiology". Palaeontology. 58 (2): 1–11. doi: 10.1111/pala.12134 . S2CID   85200173.
  26. Ashmole, Nelson Philip (1963). "Sub-fossil bird remains on Ascension Island". Ibis. 103 (3): 382–89. doi:10.1111/j.1474-919X.1963.tb06761.x.
  27. Olson, Storrs L. (1975). "Paleornithology of St. Helena Island, South Atlantic Ocean" (PDF). Smithsonian Contributions to Paleobiology. 23 (23): 1–49. doi:10.5479/si.00810266.23.1.
  28. James, Helen F. (1987). "A late Pleistocene avifauna from the island of Oahu, Hawaiian Islands" (PDF). Documents des Laboratories de Géologie, Lyon. 99: 221–30.
  29. Steadman, David W. (2006). Extinction and biogeography of tropical Pacific birds. Chicago, Illinois: University of Chicago Press. ISBN   978-0-226-77142-7.
  30. Mayr, Gerald; Kitchener, Andrew (2024). "A large frigatebird-like tarsometatarsus from the London Clay of Walton-on-the-Naze (Essex, UK) may shed light on the affinities of a poorly known early Eocene seabird taxon". Acta Palaeontologica Polonica. 69. doi: 10.4202/app.01169.2024 .
  31. 1 2 3 Kennedy, Martyn; Spencer, Hamish G. (2004). "Phylogenies of the frigatebirds (Fregatidae) and tropicbirds (Phaethonidae), two divergent groups of the traditional order Pelecaniformes, inferred from mitochondrial DNA sequences". Molecular Phylogenetics and Evolution. 31 (1): 31–38. doi:10.1016/j.ympev.2003.07.007. PMID   15019606.
  32. Australian Biological Resources Study (29 July 2014). "Genus Fregata Lacépède, 1799". Australian Faunal Directory. Canberra, Australian Capital Territory: Department of the Environment, Water, Heritage and the Arts, Australian Government. Archived from the original on 2014-12-05. Retrieved 30 November 2014.
  33. Mathews, Gregory M. (1914). "On the species and subspecies of the genus Fregata". Australian Avian Record. 2 (6): 117–21.
  34. "Storks, frigatebirds, boobies, darters, cormorants – IOC World Bird List" . Retrieved 2022-05-09.
  35. Orta, Jaume; Christie, D.A.; Garcia, E.F.J.; Boesman, P. (2020). "Magnificent Frigatebird (Fregata magnificens)". In del Hoyo, J.; Elliott, A.; Sargatal, Sargatal; Christie, D.A.; de Juana, E. (eds.). Handbook of the Birds of the World Alive. Barcelona, Spain: Lynx Edicions. doi:10.2173/bow.magfri.01. S2CID   216360730 . Retrieved 27 May 2015.(subscription required)
  36. 1 2 BirdLife International (2020). "Fregata magnificens". IUCN Red List of Threatened Species . 2020: e.T22697724A168982712. doi: 10.2305/IUCN.UK.2020-3.RLTS.T22697724A168982712.en . Retrieved 12 November 2021.
  37. Orta, Jaume; Christie, D.A.; Garcia, E. F. J.; Jutglar, F.; Boesman, P. (2020). "Ascension Frigatebird (Fregata aquila)". In del Hoyo, J.; Elliott, A.; Sargatal, Sargatal; Christie, D. A.; de Juana, E. (eds.). Handbook of the Birds of the World Alive. Barcelona, Spain: Lynx Edicions. doi:10.2173/bow.asifri1.01. S2CID   242440790 . Retrieved 29 December 2014.(subscription required)
  38. BirdLife International (2018). "Fregata aquila". IUCN Red List of Threatened Species . 2018: e.T22697728A132597828. doi: 10.2305/IUCN.UK.2018-2.RLTS.T22697728A132597828.en . Retrieved 12 November 2021.
  39. 1 2 3 James, David J. (2004). "Identification of Christmas Island, Great and Lesser Frigatebirds" (PDF). BirdingASIA. 1: 22–38. Archived from the original (PDF) on 2014-12-09.
  40. 1 2 BirdLife International (2018). "Fregata andrewsi". IUCN Red List of Threatened Species . 2018: e.T22697742A132599384. doi: 10.2305/IUCN.UK.2018-2.RLTS.T22697742A132599384.en . Retrieved 12 November 2021.
  41. 1 2 BirdLife International (2020). "Fregata minor". IUCN Red List of Threatened Species . 2020: e.T22697733A163770613. doi: 10.2305/IUCN.UK.2020-3.RLTS.T22697733A163770613.en . Retrieved 12 November 2021.
  42. Orta, Jaume; Garcia, E.F.J.; Kirwan, G.M.; Boesman, P. (2020). "Lesser Frigatebird (Fregata ariel)". In del Hoyo, J.; Elliott, A.; Sargatal, J.; Christie, D.A.; de Juana, E. (eds.). Handbook of the Birds of the World Alive. Lynx Edicions. doi:10.2173/bow.lesfri.01. S2CID   216239853 . Retrieved 30 November 2014.(subscription required)
  43. Alves, R.J.V.; da Silva, N.G.; Aguirre-Muñoz, A. (2011). "Return of endemic plant populations on Trindade Island, Brazil, with comments on the fauna" (PDF). In Veitch, CR; Clout, MN; Towns, DR (eds.). Island invasives: eradication and management : proceedings of the International Conference on Island Invasives. Gland, Switzerland: IUCN. pp. 259–263. OCLC   770307954. Archived from the original (PDF) on 2016-03-05. Retrieved 2015-05-27.
  44. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Orta, Jaume (2020). "Family Fregatidae, Frigatebirds". In del Hoyo, J; Elliott, A.; Sargatal, J.; Christie, D.A.; de Juana, E. (eds.). Handbook of the Birds of the World Alive. Lynx Edicions. doi:10.2173/bow.fregat1.01. S2CID   242682341 . Retrieved 13 May 2015.(subscription required)
  45. 1 2 Khanna, D. R. (2005). Biology of Birds. New Delhi, India: Discovery Publishing House. pp. 317–19. ISBN   978-81-7141-933-3.
  46. 1 2 3 4 5 6 7 8 9 10 O'Brien, Rory M. (1990). "Family Fregatidae frigatebirds" (PDF). In Marchant, S.; Higgins, P.G. (eds.). Handbook of Australian, New Zealand & Antarctic Birds. Volume 1: Ratites to ducks; Part B, Australian pelican to ducks. Melbourne, Victoria: Oxford University Press. p. 912. ISBN   978-0-19-553068-1.
  47. Weimerskirch, Henri; Le Corre, Matthieu; Marsac, Francis; Barbraud, Christophe; Tostain, Olivier; Chastel, Olivier (2006). "Postbreeding movements of frigatebirds tracked with satellite telemetry". The Condor. 108 (1): 220–25. doi: 10.1650/0010-5422(2006)108[0220:PMOFTW]2.0.CO;2 . S2CID   55434650.
  48. Engel, Joshua (15 July 2015). "A tropical wanderer visits the Midwest". Field Museum of Natural History. Retrieved 28 January 2022.
  49. Dearborn, D.; Anders, A.; Schreiber, E.; Adams, R.; Muellers, U. (2003). "Inter island movements and population differentiation in a pelagic seabird". Molecular Ecology. 12 (10): 2835–43. Bibcode:2003MolEc..12.2835D. doi:10.1046/j.1365-294X.2003.01931.x. PMID   12969485. S2CID   18679093.
  50. Weimerskirch, H.; Bishop, C.; Jeanniard-du-Dot, T.; Prudor, A.; Sachs, G. (2016). "Frigate birds track atmospheric conditions over months-long transoceanic flights". Science. 353 (6294): 74–78. Bibcode:2016Sci...353...74W. doi:10.1126/science.aaf4374. PMID   27365448. S2CID   206648100.
  51. 1 2 Weimerskirch, Henri; Chastel, Olivier; Barbraud, Christophe; Tostain, Olivier (2003). "Frigatebirds ride high on thermals" (PDF). Nature. 421 (6921): 333–34. doi:10.1038/421333a. PMID   12540890. S2CID   4357404. Archived from the original (PDF) on 2018-09-21. Retrieved 2014-12-23.
  52. Weimerskirch, Henri; Le Corre, Matthieu; Jaquemet, Sébastien; Potier, Michel; Marsac, Francis (2004). "Foraging strategy of a top predator in tropical waters: great frigatebirds in the Mozambique Channel" (PDF). Marine Ecology Progress Series. 275: 297–308. Bibcode:2004MEPS..275..297W. doi: 10.3354/meps275297 .
  53. Ferro, Shaunacy (2016-08-04). "Can Birds Sleep Mid-Flight? Yes, a New Study Confirms". Mental Floss . Retrieved 2019-09-19.
  54. Juola, Frans A.; Haussmann, Mark F.; Dearborn, Donald C.; Vleck, Carol M. (2006). "Telomere shortening in a long-lived marine bird: cross-sectional analysis and test of an aging tool". The Auk. 123 (3): 775–83. doi: 10.1642/0004-8038(2006)123[775:TSIALM]2.0.CO;2 . S2CID   46907175.
  55. Goto, Yusuke; Yoda, Ken; Weimerskirch, Henri; Sato, Katsufumi (2020). "Soaring styles of extinct giant birds and pterosaurs". PNAS Nexus: pgac023. bioRxiv   10.1101/2020.10.31.354605 . doi: 10.1093/pnasnexus/pgac023 . PMC   9802081 . PMID   36712794. S2CID   226263538.
  56. Cone, Clarence D. (1962). "Thermal Soaring of Birds". American Scientist. 50 (1): 180–209. JSTOR   27838346.
  57. Skutch, Alexander Frank; Gardner, Dana (illustrator) (1987). Helpers at Birds' Nests : a worldwide survey of cooperative breeding and related behaviour . Iowa City: University of Iowa Press. pp.  69–71. ISBN   0-87745-150-8.
  58. Valle, Arlos A.; de Vries, Tjitte; Hernández, Cecilia (2006). "Plumage and sexual maturation in the Great frigatebird Fregata minor in the Galapagos Islands" (PDF). Marine Ornithology. 34: 51–59.
  59. 1 2 Weimerskirch, Henri; Le Corre, Matthieu; Kai, Emilie Tew; Marsac, Francis (2010). "Foraging movements of great frigatebirds from Aldabra Island: Relationship with environmental variables and interactions with fisheries". Progress in Oceanography. 86 (1–2): 204–13. Bibcode:2010PrOce..86..204W. doi:10.1016/j.pocean.2010.04.003.
  60. Schreiber, Elizabeth A.; Burger, Joanne (2001). Biology of Marine Birds. Boca Raton, Florida: CRC Press. ISBN   0-8493-9882-7.
  61. Vickery, J.A.; Brooke, M. de L. (1994). "The kleptoparasitic interactions between Great Frigatebirds and Masked Boobies on Henderson Island, South Pacific" (PDF). Condor. 96 (2): 331–40. doi:10.2307/1369318. JSTOR   1369318.
  62. Merino, Santiago; Hennicke, Janos; Martínez, Javier; Ludynia, Katrin; Torres, Roxana; Work, Thierry M.; Stroud, Stedson; Masello, Juan F.; Quillfeldt, Petra (2012). "Infection by Haemoproteus parasites in four species of frigatebirds and the description of a new species of Haemoproteus (Haemosporida: Haemoproteidae)" (PDF). Journal of Parasitology. 98 (2): 388–97. doi:10.1645/GE-2415.1. PMID   21992108. S2CID   3846342. Archived from the original (PDF) on 2016-12-10. Retrieved 2015-05-14.
  63. Rivera-Parra, Jose L.; Levin, Iris I.; Parker, Patricia G. (2014). "Comparative ectoparasite loads of five seabird species in the Galapagos Islands". Journal of Parasitology. 100 (5): 569–77. doi:10.1645/12-141.1. PMID   24911632. S2CID   9735489.
  64. de Thoisy, Benoit; Lavergne, Anne; Semelin, Julien; Pouliquen, Jean-François; Blanchard, Fabian; Hansen, Eric; Lacoste, Vincent (2009). "Outbreaks of disease possibly due to a natural avian herpesvirus infection in a colony of young magnificent frigatebirds (Fregata magnificens) in French Guiana" (PDF). Journal of Wildlife Diseases. 45 (3): 802–07. doi:10.7589/0090-3558-45.3.802. PMID   19617492. S2CID   13466300.
  65. 1 2 James, David J.; McAllan, Ian A.W. (2014). "The birds of Christmas Island, Indian Ocean: A review" (PDF). Australian Field Ornithology. 31 (Supplement): S24 Table 3, S64–S67. Archived from the original (PDF) on 2015-05-18. Retrieved 2015-05-15.
  66. Ratcliffe, Norman; Pelembe, Tara; White, Richard (2008). "Resolving the population status of Ascension Frigatebird Fregata aquila using a 'virtual ecologist' model" (PDF). Ibis. 150 (2): 300–306. doi:10.1111/j.1474-919X.2007.00778.x.
  67. Ratcliffe, Norman; Bella, Mike; Pelembe, Tara; Boyle, Dave; Benjamin, Raymond; White, Richard; Godley, Brendan; Stevenson, Jim; Sanders, Sarah (2010). "The eradication of feral cats from Ascension Island and its subsequent recolonization by seabirds" (PDF). Oryx. 44 (1): 20–29. doi: 10.1017/S003060530999069X (inactive 2024-11-16).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  68. McKie, Robin (8 December 2012). "Frigatebird returns to nest on Ascension for first time since Darwin". The Observer . Retrieved 10 December 2012.
  69. Fisher, Ian (23 January 2014). "Ascension frigatebird – the return continues". Royal Society for the Protection of Birds. Retrieved 8 December 2014.
  70. BirdLife International (2018). "Fregata ariel". IUCN Red List of Threatened Species . 2018: e.T22697738A132598822. doi: 10.2305/IUCN.UK.2018-2.RLTS.T22697738A132598822.en . Retrieved 12 November 2021.
  71. Buden, Donald W. (2008). "The birds of Nauru" (PDF). Notornis. 55: 8–19. Archived from the original (PDF) on 2017-01-06. Retrieved 2014-06-06.
  72. Barwell, Graham (2013). Albatross. London, United Kingdom: Reaktion Books. p. 68. ISBN   978-1-78023-214-0.
  73. "Our National Symbols". Government of Antigua and Barbuda. Retrieved 25 November 2021.
  74. Lewis, David (1994). We, the Navigators: The Ancient Art of Landfinding in the Pacific . University of Hawaii Press. p.  208. ISBN   978-0-8248-1582-0.
  75. Kjellgren, Eric; Van Tilburg, JoAnne; Kaeppler, Adrienne Lois (2001). Splendid Isolation: Art of Easter Island. New York, New York: Metropolitan Museum of Art. pp. 44–45. ISBN   978-1-58839-011-0.
  76. Fischer, Steven Roger (1967). Rongorongo: The Easter Island Script: History, Traditions, Texts. Oxford studies in anthropological linguistics. Vol. 14. Oxford, United Kingdom: Clarendon Press. p. 489. ISBN   978-0-19-823710-5.