The gyrfalcon (// or //) is a bird of prey (Falco rusticolus), the largest of the falcon species. The abbreviation gyr is also used. It breeds on Arctic coasts and tundra, and the islands of northern North America, Europe, and Asia. It is mainly a resident there also, but some gyrfalcons disperse more widely after the breeding season, or in winter. Individual vagrancy can take birds for long distances. Its plumage varies with location, with birds being coloured from all-white to dark brown. These colour variations are called morphs. Like other falcons, it shows sexual dimorphism, with the female much larger than the male. For centuries, the gyrfalcon has been valued as a hunting bird. Typical prey includes the ptarmigan and waterfowl, which it may take in flight; it also takes fish and mammals.
The gyrfalcon was formally described by the Swedish naturalist Carl Linnaeus in 1758 in the tenth edition of his Systema Naturae under its current binomial name Falco rusticolus. The genus name is the Late Latin term for a falcon, Falco, from falx, falcis, a sickle, referencing the claws of the bird. The species name is from the Latin rusticolus, a countryside-dweller, from rus, ruris, "country" and colere, "to dwell". The bird's common name comes from French gerfaucon; in Medieval Latin, it is gyrofalco. The first part of the word may come from Old High German gîr (cf. modern German Geier) for "vulture", referring to its size compared to other falcons; or from the Latin gȳrus for "circle" or "curved path" – from the species' circling as it searches for prey, distinct from the hunting of other falcons in its range.[nb 1] The male gyrfalcon is called a gyrkin in falconry.
The gyrfalcon is a very large falcon, being about the same size as the largest buteos (buzzards) but probably are slightly heavier. Males are 48 to 61 cm (19 to 24 in) long, weigh 805 to 1,350 g (1.775 to 2.976 lb), with average weights reported as 1,130 or 1,170 g (2.49 or 2.58 lb) and have a wingspan from 110 to 130 cm (43 to 51 in). Females are bulkier and larger, at 51 to 65 cm (20 to 26 in) long, 124 to 160 cm (49 to 63 in) wingspan, and of 1,180 to 2,100 g (2.60 to 4.63 lb) weight, with average weights of 1,585 or 1,752 g (3.494 or 3.862 lb). An outsized female from eastern Siberia was found to have scaled 2,600 g (5.7 lb). Among standard measurements, the wing chord is 34.5 to 41 cm (13.6 to 16.1 in), the tail is 19.5 to 29 cm (7.7 to 11.4 in), the culmen is 2 to 2.8 cm (0.79 to 1.10 in) and the tarsus is 4.9 to 7.5 cm (1.9 to 3.0 in). The gyrfalcon is larger, broader-winged and longer-tailed than the peregrine falcon, which it is known to hunt. It differs from the buzzard in general structure, having pointed wings.
The gyrfalcon is a very polymorphic species, so its plumage varies greatly. The archetypal morphs are called "white", "silver", "brown", and "black", though they can be coloured on a spectrum from all-white to very dark. The brown form of the gyrfalcon is distinguished from the peregrine by the cream streaking on the nape and crown and by the absence of a well-defined malar stripe and cap. The black morph has a strongly black-spotted underside, rather than finely barred as in the peregrine. White form gyrfalcons are the only predominantly white falcons. Silver gyrfalcons resemble a light grey lanner falcon of larger size. The species shows no sex-based colour differences; juveniles are darker and browner than adults.
The black color seems to be sex-linked and to occur mostly in females; it proved difficult for breeders to get males darker than the dark side of slate grey. A color variety that arose in captive breeding is "black chick".
Painting of brown morph adult (center) and juveniles
Systematics and evolution
The gyrfalcon is a member of the hierofalcon complex. In this group, ample evidence indicates hybridisation and incomplete lineage sorting, which confounds analyses of DNA sequence data to a massive extent. The radiation of the entire living diversity of hierofalcons took place around the Eemian Stage at the start of the Late Pleistocene. It represents lineages that expanded into the Holarctic and adapted to local conditions; this is in contrast to less northerly populations of northeastern Africa (where the radiation probably originated) that evolved into the saker falcon. Gyrfalcons hybridize not infrequently with sakers in the Altai Mountains, and this gene flow seems to be the origin of the Altai falcon.
Some correlation exists between locality and colour morph. Greenland gyrfalcons are lightest, with white plumage flecked with grey on the back and wings being most common. Other subpopulations have varying amounts of the darker morphs: the Icelandic birds tend towards pale, whereas the Eurasian populations are considerably darker and typically incorporate no white birds. Natural separation into regional subspecies is prevented by gyrfalcons' habit of flying long distances whilst exchanging alleles between subpopulations; thus, the allele distributions for the color polymorphism form clines and in darker birds[nb 2] of unknown origin, theoretically any allele combination might be present. For instance, a mating of a pair of captive gyrfalcons is documented to have produced a clutch of four young: one white, one silver, one brown, and one black. Molecular work suggests plumage color is associated with the melanocortin 1 receptor gene (MC1R), where a nonsynonymous point substitution was perfectly associated with the white/melanic polymorphism.
In general, geographic variation follows Bergmann's rule for size and the demands of crypsis for plumage coloration. Several subspecies have been named according to perceived differences between populations[nb 3] but none of these are consistent and thus no living subspecies are currently accepted. The Icelandic population described as F. r. islandus is perhaps the most distinct. The predominantly white Arctic forms are parapatric and seamlessly grade into the subarctic populations. The Iceland types are presumed to have less gene flow with their neighbors; they show less variation in plumage colors. Comprehensive phylogeographic studies to determine the proper status of the Icelandic population have yet to be performed.
A population genetic study, however, identified the Iceland population as genetically unique relative to other sampled populations in both eastern and western Greenland, Canada, Alaska, and Norway. Further, within Greenland, differing levels of gene flow between western and eastern sampling locations were identified, with apparent asymmetric dispersal in western Greenland from north to south. This dispersal bias is in agreement with the distribution of plumage colour variants with white gyrfalcons in much higher proportion in north Greenland. Although further work is required to determine the ecological factors contributing to these distributions relative to plumage differences, a study using demographic data suggested that plumage color distribution in Greenland may be influenced by nesting chronology with white individuals and pairs laying eggs earlier in the breeding season and producing more offspring.
A paleosubspecies, Falco rusticolus swarthi, existed during the Late Pleistocene (125,000 to 13,000 years ago). Fossils found in Little Box Elder Cave (Converse County, Wyoming), Dark Canyon Cave (Eddy County, New Mexico), and McKittrick, California were initially described as Falco swarthi ("Swarth falcon" or more properly "Swarth's gyrfalcon") on account of their distinct size. They have meanwhile proven to be largely inseparable from those of living gyrfalcons, except for being somewhat larger.
Swarth's gyrfalcon was on the upper end of the present gyrfalcon's size range, with some stronger females even surpassing it. It seems to have had some adaptations to the temperate semiarid climate that predominated in its range during the last ice age. Ecologically more similar to current Siberian populations (which are generally composed of smaller birds) or to the prairie falcon, this temperate steppe population must have preyed on landbirds and mammals rather than the sea and landbirds which make up much of the American gyrfalcon's diet today.
The gyrfalcon was originally thought to be a bird of tundra and mountains only; however, in June 2011, it was revealed to spend considerable periods during the winter on sea ice far from land. It feeds only on birds and mammals, the latter of which it takes more regularly than many other Falco species. Like other hierofalcons, it usually hunts in a horizontal pursuit, rather than with the peregrine's speedy stoop from a height. Most prey is killed on the ground, whether they are captured there, or if the victim is a flying bird, forced to the ground. The diet is to some extent opportunistic, but a majority of breeding birds mostly rely on Lagopus grouse and avian marine species on coastal habitats. Avian prey can range in size from redpolls to geese and can include gulls, corvids, smaller passerines, waders, and other raptors (up to the size of Buteos). Mammalian prey can range in size from shrews to marmots (sometimes thrice the weight of the assaulting falcon), and often includes lemmings, voles, ground squirrels, hares and rarely also bats. They are rarely observed eating carrion.
Threat from climate change
In the early 2000s, it was observed that as climate change began to temper the Arctic summers, peregrine falcons were expanding their range north, and competing with gyrfalcons. Although it is specially adapted for high-Arctic life, and larger than the peregrine, the gyrfalcon is less aggressive and more conflict-averse, and so is unable to compete with peregrines, which regularly attack and overwhelm the gyrs. There is a fear that gyrs will become extinct in their former range within the next ten to fifteen years.
The gyrfalcon almost invariably nests on cliff faces. Breeding pairs do not build their own nests, and often use a bare cliff ledge or the abandoned nest of other birds, particularly golden eagles and common ravens. The clutch can range from 1 to 5 eggs, but is usually 2 to 4. The average size of an egg is 58.46 mm × 45 mm (2.302 in × 1.772 in); the average weight is 62 g (2.2 oz). The incubation period averages 35 days, with the chicks hatching at a weight of around 52 g (1.8 oz). The nestlings are brooded usually for 10 to 15 days and leave the nest at 7 to 8 weeks. At 3 to 4 months of age, the immature gyrfalcons become independent of their parents, though they may associate with their siblings through the following winter.
The only natural predators of gyrfalcons are golden eagles, and even they rarely engage with these formidable falcons. Gyrfalcons have been recorded as aggressively harassing animals that come near their nests, although common ravens are the only predators known to successfully pick off gyrfalcon eggs and hatchlings. Even brown bears have been reportedly dive-bombed. Humans, whether accidentally (automobile collisions or poisoning of carrion to kill mammalian scavengers) or intentionally (through hunting), are the leading cause of death for gyrfalcons. Gyrfalcons that survive into adulthood can live up to 20 years of age.
As F. rusticolus has such a wide range, it is not considered a threatened species by the IUCN. It is not much affected by habitat destruction, but pollution, for instance by pesticides, depressed its numbers in the mid-20th century, and until 1994 it was considered "Near Threatened". Improving environmental standards in developed countries have allowed the birds to make a comeback.
Interaction with humans
The gyrfalcon has long associated with humans, primarily for hunting and in the art of falconry. It is the official bird of Canada's Northwest Territories. The white falcon in the crest of the Icelandic Republic's coat of arms is a variety of gyrfalcon. The white phase gyrfalcon is the official mascot of the United States Air Force Academy.
In the medieval era, the gyrfalcon was considered a royal bird. The geographer and historian Ibn Sa'id al-Maghribi (d. 1286) described certain northern Atlantic islands west of Ireland where these falcons would be brought from, and how the Egyptian Sultan paid 1,000 dinars for each gyrfalcon (or, if it arrived dead, 500 dinars). Due to its rarity and the difficulties involved in obtaining it, in European falconry the gyrfalcon was reserved for kings and nobles; very rarely was a man of lesser rank seen with a gyrfalcon on his fist.
In the 12th century AD China, swan-hunting with gyrfalcons (海东青 hǎidōngqīng in Chinese) obtained from the Jurchen tribes became fashionable among the Khitan nobility. When demand for gyrfalcons exceeded supply, the Liao Emperor imposed a tax payment-in-kind of gyrfalcons on the Jurchen; under the last Liao emperor, tax collectors were entitled to use force to procure sufficient gyrfalcons. This was one cause of the Jurchen rebellion, whose leader Aguda annihilated the Liao empire in 1125, and established the Jin dynasty in its stead.
Most historians agree that the coat of arms of Ukraine, the medieval symbol, was not intended to depict a trident, but most likely a stylized falcon. Depictions of a flying falcon with a cross above its head have been found in Old Ladoga, the first seat of Kievan Rurik dynasty, of Scandinavian lineage. The falcon along with a cross is also featured on the coins of the Viking King Olaf Guthfrithsson. For centuries falconry has been a royal sport in Europe. Also known also as the Norwegian falcon, it was considered a royal bird and is mentioned (uk: кречет) in one of the earliest epics of Ruthenia, the 12th century poem The Tale of Igor's Campaign.
Gyrfalcons are expensive to buy, and some owners and breeders keep them secret to avoid theft. They can and often do fly long distances, and falconers may fit a radio-tracker to aid recovery. Wild gyrfalcons are not much exposed to disease, and as a result have immune systems that are naive to many avian pathogens found around human environments. As a result, many gyrfalcons taken from the wild quickly die of disease.
Falcons are known to be very susceptible to avian influenza. Therefore, an experiment was done with hybrid gyr-saker falcons, which found that five falcons vaccinated with a commercial H5N2 influenza vaccine survived infection with a highly pathogenic H5N1 strain, whereas five unvaccinated falcons died. Thus, both wild and captive gyrfalcons can be protected from bird flu by vaccination.
- In Scandinavian languages, it is generally named after its use in falconry, whereas the modern Dutch name giervalk is peculiarly ambiguous: gier means "vulture", whereas gieren means changing the yaw angle to circle in the air.
- The allele combination producing the white morph seems to be recessive.
- Falco rusticolus candicans from northern Greenland and adjacent North America, which is often very white, F. r. obsoletus from the southern Greenland into subarctic North America is much darker, often brown or black, F. r. islandus (Iceland), F. r. rusticolus (Scandinavia including the species' type locality, Sweden), as well as F. r. intermedius and F. r. grebnitzkii (Siberia) all tend towards more or less dark "silver" coloration.
- BirdLife International (2012). "Falco rusticolus". IUCN Red List of Threatened Species. Version 2013.2. International Union for Conservation of Nature. Retrieved 26 November 2013.
- "Gyrfalcon". Audubon Guide to North American Birds. 2014-11-13. Retrieved 2016-04-04.
- Linnaeus, C. (1758). Systema Naturæ per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis, Volume 1 (in Latin). v.1 (10th ed.). Holmiae:Laurentii Salvii. p. 88.
- Shorter Oxford English dictionary. Oxford: Oxford University Press. 2007. p. 3804. ISBN 978-0199206872.
- Jobling, James A (2010). The Helm Dictionary of Scientific Bird Names. London: Christopher Helm. pp. 266, 344. ISBN 978-1-4081-2501-4.
- Dunning, John B. Jr., ed. (2008). CRC Handbook of Avian Body Masses (2nd ed.). CRC Press. ISBN 978-1-4200-6444-5.
- Palmer, R. S. (1988). Editor. Handbook of North American birds. Volume 5 Diurnal Raptors (part 2) 465 pp.
- Dementiev, G. P. 1960. Der Gerfalke (Falco gyrfalco L. = Falco rusticolus L). Die Neue Brehm-Bücherei, no. 264. A. Ziemen Verlag, Wittenberg, Germany.
- Booms, Travis L.; Cade, Tom J.; Clum, Nancy J. (2008). Poole, A. (ed.). "Gyrfalcon (Falco rusticolus)". The Birds of North America Online. doi:10.2173/bna.114. Retrieved 9 March 2013.
- Lejeune, John; Lejeune, Ginny; Cromarty, Monica. "Black Gyrs". Falconscanada.com. Retrieved 18 December 2011.
- Helbig, A.J.; Seibold, I.; Bednarek, W.; Brüning, H.; Gaucher, P.; Ristow, D.; Scharlau, W.; Schmidl, D.; Wink, Michael (1994). Meyburg, B.-U.; Chancellor, R.D. (eds.). Phylogenetic relationships among falcon species (genus Falco) according to DNA sequence variation of the cytochrome b gene (PDF). Raptor conservation today. pp. 593–599.
- Wink, Michael; Seibold, I.; Lotfikhah, F.; Bednarek, W. (1998). Chancellor, R.D.; Meyburg, B.-U.; Ferrero, J.J. (eds.). Molecular systematics of holarctic raptors (Order Falconiformes) (PDF). Holarctic Birds of Prey. Adenex & WWGBP. pp. 29–48.
- Wink, Michael; Sauer-Gürth, Hedi; Ellis, David; Kenward, Robert (2004). Chancellor, R.D.; Meyburg, B.-U. (eds.). Phylogenetic relationships in the Hierofalco complex (Saker-, Gyr-, Lanner-, Laggar Falcon) (PDF). Raptors Worldwide. Berlin: WWGBP. pp. 499–504.
- Nittinger, F.; Haring, E.; Pinsker, W.; Wink, Michael; Gamauf, A. (2005). "Out of Africa? Phylogenetic relationships between Falco biarmicus and other hierofalcons (Aves Falconidae)" (PDF). Journal of Zoological Systematics and Evolutionary Research. 43 (4): 321–331. doi:10.1111/j.1439-0469.2005.00326.x.
- Johnson, Jeff A.; Ambers, Angie D.; Burnham, Kurt K. (2012). "Genetics of plumage color in the Gyrfalcon (Falco rusticolus): analysis of the melanocortin-1 receptor gene". Journal of Heredity. 103 (3): 315–321. doi:10.1093/jhered/ess023. PMID 22504110.
- Snow, David W.; Perrins, Christopher M.; Doherty, Paul; Cramp, Stanley (1998). The complete birds of the western Palaearctic on CD-ROM. Oxford University Press. ISBN 978-0-19-268579-7.
- Johnson, Jeff A.; Burnham, Kurt K.; Burnham, William A.; Mindell, David P. (2007). "Genetic structure among continental and island populations of Gyrfalcons" (PDF). Molecular Ecology. 16 (15): 3145–3160. doi:10.1111/j.1365-294X.2007.03373.x. PMID 17651193.
- White, Clayton M. (1994). del Hoyo, Josep; Elliott, Andrew; Sargatal, Jordi (eds.). Gyrfalcon. Handbook of Birds of the World. Volume 2: New World Vultures to Guineafowl. Barcelona: Lynx Edicions. pp. 274, plate 28. ISBN 978-84-87334-15-3.
- Johnson, Jeff A.; Burnham, Kurt K. (2013). "Timing of breeding and offspring number covary with plumage colour among Gyrfalcons Falco rusticolus". Ibis. 155 (1): 177–188. CiteSeerX 10.1.1.472.3371. doi:10.1111/j.1474-919X.2012.01276.x.
- Miller, Loye H. (1927). "The Falcons of the McKittrick Pleistocene" (PDF). Condor. 29 (3): 150–152. doi:10.2307/1363081. JSTOR 1363081.
- Miller, Loye H. (1935). "A Second Avifauna from the McKittrick Pleistocene" (PDF). Condor. 37 (2): 72–79. doi:10.2307/1363879. JSTOR 1363879.
- Howard, Hildegarde (1971). "Quaternary Avian Remains from Dark Canyon Cave, New Mexico" (PDF). Condor. 73 (2): 237–240. doi:10.2307/1365844. JSTOR 1365844.
- Emslie, Steven D. (1985). "The late Pleistocene (Rancholabrean) avifauna of Little Box Elder Cave, Wyoming". Rocky Mountain Geology. 23 (2): 63–82.
- Burnham, Kurt K.; Newton, Ian (2011). "Seasonal movements of Gyrfalcons Falco rusticolus include extensive periods at sea". Ibis. 153 (3): 468. doi:10.1111/j.1474-919X.2011.01141.x.
- Mikula, P., Morelli, F., Lučan, R.K., Jones, D.N., & Tryjanowski, P. (2016). Bats as prey of diurnal birds: a global perspective. Mammal Review DOI: 10.1111/mam.12060.
- Meyer, Robinson (2017-07-24). "The Battle Over 2,500-Year-Old Shelters Made of Poop". The Atlantic. Retrieved 2018-05-10.
- "Gyrfalcon". Britannica.com. Retrieved 1 October 2014.
- Ibn Sa'id al-Maghribi. "Geographia". sh.rewayat2.com (in Arabic). Archived from the original on 2 March 2012. Retrieved 18 December 2011.
- Berners, Juliana (1486). The Boke of St. Albans. London: St. Albans Press.
- "Contest for the Southern Capital between the Liao, Song and Jin Dynasties". Beijing Municipal Administration of Cultural Heritage. 19 July 2006. Retrieved 13 August 2007.
- Chernov, A. Yu. (July 2008). "Coat of arms of Rurik found in Ladoga" (in Russian).
- "Rurik (Norse leader)". Britannica.com.
- Lejeune, John; Lejeune, Ginny; Cromarty, Monica. "Gyr Genetics". Falconscanada.com. Retrieved 18 December 2011.
- Lierz, Michael; Hafez, Hafez M.; Klopfleisch, Robert; Lüschow, Dörte; Prusas, Christine; Teifke, Jens P.; Rudolf, Miriam; Grund, Christian; Kalthoff, Donata; Mettenleiter, Thomas; Beer, Martin; Harder, Timm (November 2007). "Protection and Virus Shedding of Falcons Vaccinated against Highly Pathogenic Avian Influenza A Virus (H5N1)". Emerging Infectious Diseases. 13 (11): 1667–1674. doi:10.3201/eid1311.070705. PMC 3375792. PMID 18217549.
- Audubon, John James. "The Iceland or Jer Falcon", Ornithological Biography volume 2 (1834). Another specimen described in volume 4 (1838). Illustration from Birds of America octavo edition, 1840.
- Nuttall, Thomas (1832). "Gyrfalcon". A manual of the ornithology of the United States and of Canada. Volume 1, The Land Birds. Hilliard and Brown.
|Look up gyrfalcon in Wiktionary, the free dictionary.|
|Wikimedia Commons has media related to Falco rusticolus.|
|Wikispecies has information related to Falco rusticolus|
- "Blue Falcon – Mark Robb", a falcon breeder
- Alaska Falcons – White and Silver Gyrfalcons
- Gyrfalcon Species Account – Cornell Lab of Ornithology
- Gyrfalcon stamps at bird-stamps.org
- "Gyrfalcon media". Internet Bird Collection.
- BirdLife species factsheet for Falco rusticolus
- "Falco rusticolus". Avibase.
- Gyrfalcon photo gallery at VIREO (Drexel University)
- Interactive range map of Falco rusticolus at IUCN Red List maps
- Audio recordings of Gyrfalcon on Xeno-canto.