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Starlings are small to medium-sized passerine known for the often dark, glossy iridescent sheen of their plumage; their complex vocalizations including mimicking; and their distinctive, often elaborate swarm behaviour behavior, known as murmuration.
All members of the family Sturnidae, commonly called sturnids, are known collectively as starlings. The Sturnidae are named for the genus Sturnus, which in turn comes from the Latin word for starling, sturnus. The family contains 128 species which are divided into 36 genera. Many Asian species, particularly the larger ones, are called , and many African species are known as Lamprotornis because of their iridescence Feather. Starlings are native to Europe, Asia, and Africa, as well as northern Australia and the islands of the tropical Pacific. Several European and Asian species have been introduced to these areas, as well as North America, Hawaii, and New Zealand, where they generally compete for habitats with native birds and are considered to be invasive species. The starling species familiar to most people in Europe and North America is the common starling, and throughout much of Asia and the Pacific.
Having strong feet, their flight is strong and direct, and they are very gregarious. Their preferred habitat is fairly open country, they eat and fruit, and most species nest in holes and lay blue or white bird egg. Several species live around human habitation and are effectively . Many species search for prey such as grubs by "open-bill probing", that is, forcefully opening the bill after inserting it into a crevice, thus expanding the hole and exposing the prey; this behaviour is referred to by the German verb zirkeln (pronounced ). (See p.429.)
Starlings have diverse and complex vocalizations and have been known to embed sounds from their surroundings into their own calls, including and human speech patterns. The birds can recognize particular individuals by their calls and are the subject of research into the evolution of human language.
Less sexual dimorphism is seen in plumage, but with only 25 species showing such differences between the two sexes. The plumage of the starling is often brightly coloured due to iridescence; this colour is derived from the structure of the feathers, not from any pigment. Some species of Asian starling have crests or erectile feathers on the crest. Other ornamentation includes elongated tail feathers and brightly coloured bare areas on the face. These colours can be derived from pigments, or as in the Bali myna, structural colour, caused by light scattering off parallel collagen fibers. The irises of many species are red and yellow, although those of younger birds are much darker.
Asian species are most common in evergreen forests; 39 species found in Asia are predominantly forest birds as opposed to 24 found in more open or human modified environments. In contrast to this, African species are more likely to be found in open woodlands and savannah; 33 species are open-area specialists compared to 13 true forest species. The high diversity of species found in Asia and Africa is not matched by Europe, which has one widespread (and very common) species and two more restricted species. The European starling is both highly widespread and extremely eclectic in its habitat, occupying most types of open habitat. Like many other starling species, it has also adapted readily to human-modified habitat, including farmland, orchards, plantations, and urban areas.
Some species of starlings are bird migration, either entirely, like Shelley's starling, which breeds in Ethiopia and Somaliland and migrates to Kenya, Tanzania, and Somalia, or like the white-shouldered starling, which is migratory in part of its range, but is resident in others.
The European starling was purposely introduced to North America in the 1870s through the 1890s by multiple acclimatisation societies, organizations dedicated to introducing European flora and fauna into North America for cultural and economic reasons. A persistent story alleges that Eugene Schieffelin, chairman of the American Acclimatization Society, decided all birds mentioned by William Shakespeare should be in North America, leading to the introduction of the starling to the U.S.; however, this claim is more fiction than fact. While Schieffelin and other members of the society did release starlings in Central Park in 1890, the birds had already been in the U.S. since at least the mid-1870s, and Schieffelin was not inspired to do so by Shakespeare's works.
The Starling's sociality is particularly evident in their roosting behavior; in the nonbreeding season, some roosts can number in the thousands.
The sharp pushing, pulling, diving, pulsating and swooping of the flock in response to the individual movements may confuse and discourage predators such as falcons, providing a collective protection. The term murmuration derives from the low, indistinct sounds of a dense flock's wings — i.e., the murmor.
Initial study by ornithologist Edmund Selous (1887-1934) sought to explain the murmurmation of starlings through the idea of Telepathy. By 2013, physicists in Italy along with mechanical and aerospace engineers working with Princeton University, determined that no single bird could control a flock, and certainly not the movements of more than a thousand birds. Researchers used a computer simulation to determine that each bird synchronized with its seven closest neighbors, creating overlapping groups that communicated their movements — focusing on three simple parameters: attraction, repulsion and angular alignment. Thus the flock moves as each individual bird synchronizes with its nearest group. Researchers also confirmed that a particular shape to the flock formation worked most efficiently for data accuracy — and specifically in starlings, a pancake shape. Thinner, thicker or spherical shapes did not improve performance, rather optimal performance was related to a pancake flock shape.
They noted that "information moves across the flock very quickly and with nearly no degradation," describing it as "a high signal-to-noise ratio" enabled by a bird's very high temporal resolution: they can receive and process certain information more quickly than humans and can "see faster" than humans." Unlike the Telephone game where a message is sequentially passed from person to person and very quickly loses information, researchers determined that almost no information is lost across a starling flock.
Starling murmurations can last from a few seconds up to 45 minutes; can involve few birds or up to tens of thousands; may include other species of starlings or species from other families; and sometimes form abstract dramatic shapes, patterns or subtle gradations. In Denmark, where murmurations have been estimated to involve a million starlings, the phenomenon is called the Black Sun, or Sort sol in Danish. In Ireland, starlings’ numbers are boosted during winter, as migrating flocks arrive from breeding grounds around Western Europe and Scandinavia.
Laboratory experiments on European starlings have found that they have disposal enzymes that allow them to break down alcohol very quickly. In addition to consuming fruits, many starlings also consume nectar. The extent to which starlings are important is unknown, but at least some are, such as the slender-billed starling of alpine East Africa, which pollinates megaherb .
The are sometimes placed here as a subfamily, but the weight of evidence has shifted towards granting them full family status as a more basal member of the Sturnidae-Mimidae group, derived from an early expansion into Africa.
Usually, the starlings are considered a family, as is done here. Sibley & Monroe included the mimids in the family and demoted the starlings to tribe rank, as Sturnini. This treatment was used by Zuccon et al. However, the grouping of Sibley & Monroe is overly coarse due to methodological drawbacks of their DNA-DNA hybridization technique and most of their proposed revisions of taxonomic rank have not been accepted (see for example Ciconiiformes). The all-inclusive Sturnidae grouping conveys little information about biogeography, and obscures the evolutionary distinctness of the three lineages. Establishing a valid name for the clade consisting of Sibley/Monroe's "pan-Sturnidae" would nonetheless be desirable to contrast them with the other major lineages of Muscicapoidea.
Starlings probably originated in the general area of East Asia, perhaps towards the southwestern Pacific, as inferred by the number of lineages to occur there. Expansion into Africa appears to have occurred later, as most Synapomorphy forms are found there. An alternative scenario would be African origin for the entire "sturnoid" group, with the oxpeckers representing an ancient relict and the mimids arriving in South America. This is contradicted by the North American distribution of the most basal Mimidae.
As the fossil record is limited to quite Holocene forms, the proposed Early Miocene (about 25–20 Mya) divergence dates for the "sturnoids" lineages must be considered extremely tentative. Given the overall evidence for the origin of most Passeri families in the first half of the Miocene, it appears to be not too far off the mark, however.
The Philippine creepers, a single genus of three species of treecreeper-like birds, appear to be highly members of the more initial radiation of the Sturnidae. While this may seem odd at first glance, their placement has always been contentious. In addition, biogeography virtually rules out a close relationship of Philippine creepers and treecreepers, as neither the latter nor their close relatives seem to have ever reached Wallacea, let alone the Philippines. Nonetheless, their inclusion in the Sturnidae is not entirely final and eventually, they may remain a separate family.
Genus sequence follows traditional treatments. This is apparently not entirely correct, with Scissirostrum closer to Aplonis than to Gracula, for example, and Acridotheres among the most advanced genera. Too few taxa have yet been studied as regards their relationships, however, thus a change in the sequence has to wait for further studies.
As of 2023, the review by Lovette & Rubenstein (2008) is the most recent work on the phylogeny of the group. This taxonomy is also based on the order of the IOC.
recent studies identified two major [[clade]]s of this family, corresponding to the generally drab, often striped, largish "atypical [[myna]]s" and other mainly Asian-Pacific lineages, and the often smaller, sometimes highly [[apomorph]]ic [[taxa]] which are most common in Africa and the Palearctic, usually have metallic coloration, and in a number of species also bright [[carotinoid]] plumage colors on the underside. Inside this latter group, there is a clade consisting of species which, again, are usually not too brightly colored, and which consists of the "typical" myna-''[[Sturnus]]'' assemblage.
+Oriental-Australasian clade
!Genus
!Species
!Image Acridotheres
Common myna ( A. tristis) Agropsar
Daurian starling
( A. sturninus) Ampeliceps
Golden-crested myna
( A. coronatus) Aplonis 22 extant,
3 recently extinct Metallic starling
( A. metallica) Basilornis
Sulawesi myna
( B. celebensis) Enodes
Fiery-browed myna
( E. erythrophris) Apo myna
Apo myna
( G. miranda) Gracula
Southern hill myna
( G. indica) Gracupica
Indian pied myna
( G. contra) Leucopsar
Bali myna
( L. rothschildi) Mino
Yellow-faced myna
( M. dumontii) Coleto
Coleto
( S. calvus) Scissirostrum
Grosbeak starling
( S. dubium) Spodiopsar
White-cheeked starling
( S. cineraceus) Streptocitta
White-necked myna
( S. albicollis) Sturnia
Brahminy starling
( S. pagodarum) Sturnornis
White-faced starling
( S. albofrontatus) † Fregilupus
Hoopoe starling
(† F. varius) † Necropsar
Rodrigues starling
(† N. rodericanus) +Afrotropical-Palearctic clade
!Genus
!Species
!Image Arizelopsar
Abbott's starling
( A. femoralis) Cinnyricinclus
Violet-backed starling
( C. leucogaster) Creatophora
Wattled starling
( C. cinerea) Grafisia
White-collared starling
( G. torquata) Hartlaubius
Madagascar starling
( H. auratus) Hylopsar
Purple-headed starling
( H. purpureiceps) Lamprotornis
Greater blue-eared starling
( L. chalybaeus) Neocichla
Babbling starling
( N. gutturalis) Notopholia
Black-bellied starling
( N. corusca) Onychognathus
Red-winged starling
( O. morio) Rosy starling
Rosy starling
( P. roseus) Pholia
Sharpe's starling
( P. sharpii) Poeoptera
Stuhlmann's starling
( P. stuhlmanni) Saroglossa
Spot-winged starling
( S. spilopterus) Speculipastor
Magpie starling
( S. bicolor) Sturnus
Common starling
( S. vulgaris) + Rhabdornis clade
!Genus
!Species
!Image Rhabdornis
Grand rhabdornis
( R. grandis)
The extinct Mascarene starlings were formerly of uncertain relationships, but are now thought to belong to the Oriental-Australasian clade, being allied with the Bali myna. However, while the two more recent species ( Fregipilus and Necropsar) have been classified, the prehistoric Cryptopsar has not.
+Unresolved
!Genus
!Species
!Image † Cryptopsar
Mauritius starling
( C. ischyrhynchus)
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