Bird vocalization includes both bird calls and bird songs. In non-technical use,
bird songs are the bird sounds that are melodious to the human ear. In
ornithology and
birding, songs (relatively complex vocalizations) are distinguished by function from calls (relatively simple vocalizations).
Definition
The distinction between songs and calls is based upon complexity, length, and context. Songs are longer and more complex and are associated with
territory and
courtship and mating, while calls tend to serve such functions as
alarms or keeping members of a
flock in contact. Other authorities such as Howell and Webb (1995) make the distinction based on function, so that short vocalizations, such as those of pigeons, and even non-vocal sounds, such as the drumming of
woodpeckers and the "
winnowing" of
snipes' wings in display flight, are considered songs.
Still others require song to have syllabic diversity and temporal regularity akin to the repetitive and transformative patterns that define
music. It is generally agreed upon in birding and ornithology which sounds are songs and which are calls, and a good field guide will differentiate between the two.
Bird song is best developed in the
order
Order, ORDER or Orders may refer to:
* Categorization, the process in which ideas and objects are recognized, differentiated, and understood
* Heterarchy, a system of organization wherein the elements have the potential to be ranked a number of d ...
Passeriformes. Some groups are nearly voiceless, producing only
percussive and
rhythmic sounds, such as the
stork
Storks are large, long-legged, long-necked wading birds with long, stout bills. They belong to the family called Ciconiidae, and make up the order Ciconiiformes . Ciconiiformes previously included a number of other families, such as herons an ...
s, which clatter their bills. In some manakins (
Pipridae), the males have evolved several mechanisms for mechanical sound production, including mechanisms for
stridulation not unlike those found in some insects.
Song is usually delivered from prominent perches, although some species may sing when flying. The production of sounds by mechanical means as opposed to the use of the
syrinx
In classical Greek mythology, Syrinx (Greek Σύριγξ) was a nymph and a follower of Artemis, known for her chastity. Pursued by the amorous god Pan, she ran to a river's edge and asked for assistance from the river nymphs. In answer, sh ...
has been termed variously ''instrumental music'' by
Charles Darwin, ''mechanical sounds'' and more recently ''
sonation''.
The term ''sonate'' has been defined as the act of producing non-vocal sounds that are intentionally modulated communicative signals, produced using non-syringeal structures such as the bill, wings, tail, feet and body feathers.
In extratropical
Eurasia and
the Americas
The Americas, which are sometimes collectively called America, are a landmass comprising the totality of North America, North and South America. The Americas make up most of the land in Earth's Western Hemisphere and comprise the New World. ...
almost all song is produced by male birds; however, in the tropics and to a greater extent the
desert
A desert is a barren area of landscape where little precipitation occurs and, consequently, living conditions are hostile for plant and animal life. The lack of vegetation exposes the unprotected surface of the ground to denudation. About on ...
belts of
Australia
Australia, officially the Commonwealth of Australia, is a Sovereign state, sovereign country comprising the mainland of the Australia (continent), Australian continent, the island of Tasmania, and numerous List of islands of Australia, sma ...
and
Africa it is more typical for females to sing as much as males. These differences have been known for a long time
and are generally attributed to the much less regular and seasonal climate of Australian and African arid zones requiring that birds breed at any time when conditions are favourable, although they cannot breed in many years because food supply never increases above a minimal level.
With aseasonal irregular breeding, both sexes must be brought into breeding condition and vocalisation, especially duetting, serves this purpose. The high frequency of female vocalisations in the tropics, Australia and Southern Africa may also relate to very low mortality rates producing much stronger pair-bonding and territoriality.
Anatomy and physiology
The avian vocal organ is called the
syrinx
In classical Greek mythology, Syrinx (Greek Σύριγξ) was a nymph and a follower of Artemis, known for her chastity. Pursued by the amorous god Pan, she ran to a river's edge and asked for assistance from the river nymphs. In answer, sh ...
; it is a bony structure at the bottom of the
trachea (unlike the
larynx
The larynx (), commonly called the voice box, is an organ in the top of the neck involved in breathing, producing sound and protecting the trachea against food aspiration. The opening of larynx into pharynx known as the laryngeal inlet is about ...
at the top of the
mammal
Mammals () are a group of vertebrate animals constituting the class Mammalia (), characterized by the presence of mammary glands which in females produce milk for feeding (nursing) their young, a neocortex (a region of the brain), fur or ...
ian trachea). The syrinx and sometimes a surrounding air sac resonate to sound waves that are made by membranes past which the bird forces air. The bird controls the pitch by changing the tension on the membranes and controls both pitch and volume by changing the force of exhalation. It can control the two sides of the trachea independently, which is how some species can produce two notes at once.
Function
One of the two main functions of bird song is mate attraction.
Scientists hypothesize that bird song evolved through
sexual selection, and experiments suggest that the quality of bird song may be a good indicator of fitness.
Experiments also suggest that parasites and diseases may directly affect song characteristics such as song rate, which thereby act as reliable indicators of health. The song repertoire also appears to indicate fitness in some species.
The ability of male birds to hold and advertise
territories using song also demonstrates their fitness. Therefore, a female bird may select males based on the quality of their songs and the size of their song repertoire.
The second principal function of bird song is territory defense.
Territorial birds will interact with each other using song to negotiate territory boundaries. Since song may be a reliable indicator of quality, individuals may be able to discern the quality of rivals and prevent an energetically costly fight.
In birds with song repertoires, individuals may share the same song type and use these song types for more complex communication.
Some birds will respond to a shared song type with a song-type match (i.e. with the same song type). This may be an aggressive signal; however, results are mixed.
Birds may also interact using repertoire-matches, wherein a bird responds with a song type that is in its rival's repertoire but is not the song that it is currently singing.
This may be a less aggressive act than song-type matching.
Song complexity is also linked to male territorial defense, with more complex songs being perceived as a greater territorial threat.
Birds communicate alarm through vocalizations and movements that are specific to the threat, and bird alarms can be understood by other animal species, including other birds, in order to identify and protect against the specific threat.
Mobbing calls are used to recruit individuals in an area where an owl or other predator may be present. These calls are characterized by wide frequency spectra, sharp onset and termination, and repetitiveness that are common across species and are believed to be helpful to other potential "mobbers" by being easy to locate. The alarm calls of most species, on the other hand, are characteristically high-pitched, making the caller difficult to locate.
Communication through bird calls can be between individuals of the same species or even across species. For example, the
Japanese tit will respond to the recruitment call of the
willow tit
The willow tit (''Poecile montanus'') is a passerine bird in the tit family, Paridae. It is a widespread and common resident breeder throughout temperate and subarctic Europe and across the Palearctic. The plumage is grey-brown and off-white w ...
as long as it follows the Japanese tit alert call in the correct alert+recruitment order.
Individual birds may be sensitive enough to identify each other through their calls. Many birds that nest in colonies can locate their chicks using their calls. Calls are sometimes distinctive enough for individual identification even by human researchers in ecological studies.
Many birds engage in duet calls. In some cases, the duets are so perfectly timed as to appear almost as one call. This kind of calling is termed antiphonal duetting. Such duetting is noted in a wide range of families including quails,
bushshrike
The bushshrikes are smallish passerine birds. They were formerly classed with the true shrikes in the family Laniidae, but are now considered sufficiently distinctive to be separated from that group as the family Malaconotidae, a name that allud ...
s,
babbler
Babbler may refer to:
* Old World babbler, a large family of mostly Old World passerine birds
* Australo-Papuan babbler, passerine birds endemic to Australia-New Guinea
* Babbler (software)
Babbler is a French software company founded in Septem ...
s such as the
scimitar babblers, and some owls and parrots. In territorial songbirds, birds are more likely to
countersing when they have been aroused by simulated intrusion into their territory. This implies a role in intraspecies aggressive competition.
Sometimes, songs vocalized in the post-breeding season act as a cue to
conspecific eavesdroppers. In
black-throated blue warblers, males that have bred and reproduced successfully sing to their offspring to influence their vocal development, while males that have failed to reproduce usually abandon the nests and stay silent. The post-breeding song therefore inadvertently informs the unsuccessful males of particular habitats that have a higher likelihood of reproductive success. The
social communication by vocalization provides a shortcut to locating high quality habitats and saves the trouble of directly assessing various vegetation structures.
Some birds are excellent vocal
mimics. In some tropical species, mimics such as the
drongos may have a role in the formation of
mixed-species foraging flocks
A mixed-species feeding flock, also termed a mixed-species foraging flock, mixed hunting party or informally bird wave, is a flock of usually insectivorous birds of different species that join each other and move together while foraging. These are ...
. Vocal mimicry can include conspecifics, other species or even man-made sounds. Many hypotheses have been made on the functions of vocal mimicry including suggestions that they may be involved in sexual selection by acting as an indicator of fitness, help brood parasites, or protect against predation, but strong support is lacking for any function. Many birds, especially those that nest in cavities, are known to produce a snakelike hissing sound that may help deter predators at close range.
Some cave-dwelling species, including the
oilbird and swiftlets (''
Collocalia'' and ''
Aerodramus'' species), use audible sound (with the majority of sonic location occurring between 2 and 5 kHz) to
echolocate in the darkness of caves. The only bird known to make use of
infrasound (at about 20 Hz) is the
western capercaillie.
The hearing range of birds is from below 50 Hz (
infrasound) to around 12 kHz, with maximum sensitivity between 1 and 5 kHz.
The
black jacobin is exceptional in producing sounds at about 11.8 kHz. It is not known if they can hear these sounds.
The range of frequencies at which birds call in an environment varies with the quality of habitat and the ambient sounds. The acoustic adaptation hypothesis predicts that narrow bandwidths, low frequencies, and long elements and inter-element intervals should be found in habitats with complex vegetation structures (which would absorb and muffle sounds), while high frequencies, broad bandwidth, high-frequency modulations (trills), and short elements and inter-elements may be expected in open habitats, without obstructive vegetation.
Low frequency songs are optimal for obstructed, densely vegetated habitats because low frequency, slowly modulated song elements are less susceptible to signal degradation by means of reverberations off of sound-reflecting vegetation. High frequency calls with rapid modulations are optimal for open habitats because they degrade less across open space. The acoustic adaptation hypothesis also states that song characteristics may take advantage of beneficial acoustic properties of the environment. Narrow-frequency bandwidth notes are increased in volume and length by reverberations in densely vegetated habitats.
It has been hypothesized that the available frequency range is partitioned, and birds call so that overlap between different species in frequency and time is reduced. This idea has been termed the "acoustic niche". Birds sing louder and at a higher pitch in urban areas, where there is ambient low-frequency noise. Traffic noise was found to decrease reproductive success in the
great tit (''Parus major'') due to the overlap in acoustic frequency. During the
COVID-19 pandemic, reduced traffic noise led to birds in
San Francisco singing 30% more softly. An increase in song volume restored fitness to birds in urban areas, as did higher frequency songs.
It has been proposed that birds show latitudinal variation in song complexity; however, there is no strong evidence that song complexity increases with latitude or migratory behaviour.
According to a study published in 2019, the
white bellbird makes the loudest call ever recorded for birds, reaching 125
dB. The record was previously held by the
screaming piha
The screaming piha (''Lipaugus vociferans'') is a species of passerine bird in the family Cotingidae. It is found in humid forests in the Amazon and tropical parts of the Mata Atlântica in South America. They are most notable for their extraor ...
with 116 dB.
Neuroanatomy
The acquisition and learning of bird song involves a group of distinct brain areas that are aligned in two connecting pathways:
* Anterior forebrain pathway (
vocal learning): composed of Area X, which is a homologue to mammalian basal ganglia; the lateral part of the
magnocellular nucleus of anterior nidopallium (LMAN), also considered a part of the avian basal ganglia; and the dorso-lateral division of the medial thalamus (DLM).
* Posterior descending pathway (vocal production): composed of HVC (proper name, although sometimes referred to as the
high vocal center); the robust nucleus of the arcopallium (RA); and the tracheosyringeal part of the
hypoglossal nucleus (nXIIts).
The posterior descending pathway (PDP) is required throughout a bird's life for normal song production, while the anterior forebrain pathway (AFP) is necessary for song learning, plasticity, and maintenance, but not for adult song production.
Both neural pathways in the song system begin at the level of
HVC, which projects information both to the RA (premotor nucleus) and to Area X of the anterior forebrain. Information in the posterior descending pathway (also referred to as the vocal production or motor pathway) descends from
HVC to RA, and then from RA to the tracheosyringeal part of the
hypoglossal nerve (nXIIts), which then controls muscular contractions of the syrinx.
Information in the anterior forebrain pathway is projected from
HVC to Area X (basal ganglia), then from Area X to the DLM (thalamus), and from DLM to LMAN, which then links the
vocal learning and vocal production pathways through connections back to the RA. Some investigators have posited a model in which the connection between LMAN and RA carries an instructive signal based on evaluation of auditory feedback (comparing the bird's own song to the memorized song template), which adaptively alters the motor program for song output.
The generation of this instructive signal could be facilitated by auditory neurons in Area X and LMAN that show selectivity for the temporal qualities of the bird's own song (BOS) and its tutor song, providing a platform for comparing the BOS and the memorized tutor song.
Models regarding the real-time error-correction interactions between the AFP and PDP will be considered in the future. Other current research has begun to explore the cellular mechanisms underlying
HVC control of temporal patterns of song structure and RA control of syllable production.
Brain structures involved in both pathways show
sexual dimorphism in many bird species, usually causing males and females to sing differently. Some of the known types of dimorphisms in the brain include the size of nuclei, the number of neurons present, and the number of neurons connecting one nucleus to another.
In the extremely dimorphic zebra finches (''Taeniopygia guttata''), a species in which only males typically sing, the size of the HVC and RA are approximately three to six times larger in males than in females, and Area X does not appear to be recognizable in females. Research suggests that exposure to sex steroids during early development is partially responsible for these differences in the brain. Female zebra finches treated with estradiol after hatching followed by testosterone or
dihydrotestosterone (DHT) treatment in adulthood will develop an RA and HVC similar in size to males and will also display male-like singing behavior.
Hormone treatment alone does not seem to produce female finches with brain structures or behavior exactly like males. Furthermore, other research has shown results that contradict what would be expected based on our current knowledge of mammalian sexual differentiation. For example, male zebra finches castrated or given sex steroid inhibitors as hatchlings still develop normal masculine singing behavior.
This suggests that other factors, such as the activation of genes on the z chromosome, might also play a role in normal male song development.
Hormones also have activational effects on singing and the song nuclei in adult birds. In canaries (''Serinus canaria''), females normally sing less often and with less complexity than males. However, when adult females are given androgen injections, their singing will increase to an almost male-like frequency. Furthermore, adult females injected with androgens also show an increased size in the HVC and RA regions.
Melatonin
Melatonin is a natural product found in plants and animals. It is primarily known in animals as a hormone released by the pineal gland in the brain at night, and has long been associated with control of the sleep–wake cycle.
In vertebrates ...
is another hormone that is also believed to influence song behavior in adults, as many songbirds show melatonin receptors in neurons of the song nuclei.
Both the
European starling (''Sturnus vulgaris'') and
house sparrow
The house sparrow (''Passer domesticus'') is a bird of the sparrow family Passeridae, found in most parts of the world. It is a small bird that has a typical length of and a mass of . Females and young birds are coloured pale brown and grey, a ...
(''Passer domesticus'') have demonstrated changes in song nuclei correlated with differing exposures to darkness and secretions of melatonin. This suggests that melatonin might play a role in the seasonal changes of singing behavior in songbirds that live in areas where the amount of daylight varies significantly throughout the year. Several other studies have looked at seasonal changes in the morphology of brain structures within the song system and have found that these changes (adult neurogenesis, gene expression) are dictated by photoperiod, hormonal changes and behavior.
The gene
FOXP2, defects of which affect both speech production and comprehension of language in humans, becomes highly expressed in Area X during periods of vocal plasticity in both juvenile zebra finches and adult canaries.
Learning
The songs of different species of birds vary and are generally typical of the species. Species vary greatly in the complexity of their songs and in the number of distinct kinds of song they sing (up to 3000 in the
brown thrasher); individuals within some species vary in the same way. In a few species, such as
lyrebirds and
mockingbirds, songs imbed arbitrary elements learned in the individual's lifetime, a form of mimicry (though maybe better called "appropriation" (Ehrlich et al.), as the bird does not pass for another species). As early as 1773, it was established that birds learned calls, and
cross-fostering experiments succeeded in making linnet ''
Acanthis cannabina'' learn the song of a skylark, ''Alauda arvensis''. In many species, it appears that although the basic song is the same for all members of the species, young birds learn some details of their songs from their fathers, and these variations build up over generations to form
dialects.
Song learning in juvenile birds occurs in two stages: sensory learning, which involves the juvenile listening to the father or other conspecific bird and memorizing the spectral and temporal qualities of the song (song template), and sensorimotor learning, which involves the juvenile bird producing its own vocalizations and practicing its song until it accurately matches the memorized song template.
During the sensorimotor learning phase, song production begins with highly variable sub-vocalizations called "sub-song", which is akin to
babbling in human infants. Soon after, the juvenile song shows certain recognizable characteristics of the imitated adult song, but still lacks the stereotypy of the crystallized song – this is called "plastic song".
After two or three months of song learning and rehearsal (depending on species), the juvenile produces a crystallized song, characterized by spectral and temporal stereotypy (very low variability in syllable production and syllable order).
Some birds, such as
zebra finches, which are the most popular species for birdsong research, have overlapping sensory and sensorimotor learning stages.
Research has indicated that birds' acquisition of song is a form of
motor learning that involves regions of the
basal ganglia. Further, the PDP (see ''Neuroanatomy'' below) has been considered
homologous
Homology may refer to:
Sciences
Biology
*Homology (biology), any characteristic of biological organisms that is derived from a common ancestor
*Sequence homology, biological homology between DNA, RNA, or protein sequences
* Homologous chrom ...
to a mammalian motor pathway originating in the
cerebral cortex and descending through the
brain stem, while the AFP has been considered homologous to the mammalian cortical pathway through the basal ganglia and thalamus.
Models of bird-song motor learning can be useful in developing models for how humans learn
speech
Speech is a human vocal communication using language. Each language uses Phonetics, phonetic combinations of vowel and consonant sounds that form the sound of its words (that is, all English words sound different from all French words, even if ...
.
In some species such as zebra finches, learning of song is limited to the first year; they are termed "age-limited" or "close-ended" learners. Other species such as the canaries can develop new songs even as sexually mature adults; these are termed "open-ended" learners.
Researchers have hypothesized that learned songs allow the development of more complex songs through cultural interaction, thus allowing intraspecies dialects that help birds to identify kin and to adapt their songs to different acoustic environments.
Auditory feedback in birdsong learning
Early experiments by Thorpe in 1954 showed the importance of a bird being able to hear a tutor's song. When birds are raised in isolation, away from the influence of conspecific males, they still sing. While the song they produce, called "isolate song", resembles the song of a wild bird, it shows distinctly different characteristics from the wild song and lacks its complexity. The importance of the bird being able to hear itself sing in the sensorimotor period was later discovered by Konishi. Birds deafened before the song-crystallization period went on to produce songs that were distinctly different from the wild type and isolate song. Since the emergence of these findings, investigators have been searching for the neural pathways that facilitate sensory/sensorimotor learning and mediating the matching of the bird's own song with the memorized song template.
Several studies in the 1990s have looked at the neural mechanisms underlying birdsong learning by performing lesions to relevant brain structures involved in the production or maintenance of song or by deafening birds before and/or after song crystallization. Another experimental approach was recording the bird's song and then playing it back while the bird is singing, causing perturbed auditory feedback (the bird hears the superposition of its own song and a fragmented portion of a previous song syllable).
After Nordeen & Nordeen made a landmark discovery as they demonstrated that auditory feedback was necessary for the maintenance of song in adult birds with crystallized song, Leonardo & Konishi (1999) designed an auditory feedback perturbation protocol in order to explore the role of auditory feedback in adult song maintenance further, to investigate how adult songs deteriorate after extended exposure to perturbed auditory feedback, and to examine the degree to which adult birds could recover crystallized song over time after being removed from perturbed feedback exposure. This study offered further support for role of auditory feedback in maintaining adult song stability and demonstrated how adult maintenance of crystallized birdsong is dynamic rather than static.
Brainard & Doupe (2000) posit a model in which LMAN (of the anterior forebrain) plays a primary role in error correction, as it detects differences between the song produced by the bird and its memorized song template and then sends an instructive error signal to structures in the vocal production pathway in order to correct or modify the motor program for song production. In their study, Brainard & Doupe (2000) showed that while deafening adult birds led to the loss of song stereotypy due to altered auditory feedback and non-adaptive modification of the motor program, lesioning LMAN in the anterior forebrain pathway of adult birds that had been deafened led to the stabilization of song (LMAN lesions in deafened birds prevented any further deterioration in syllable production and song structure).
Currently, there are two competing models that elucidate the role of LMAN in generating an instructive error signal and projecting it to the motor production pathway:
''Bird's own song (BOS)-tuned error correction model''
: During singing, the activation of LMAN neurons will depend on the match between auditory feedback from the song produced by the bird and the stored song template. If this is true, then the firing rates of LMAN neurons will be sensitive to changes in auditory feedback.
''Efference copy model of error correction''
: An
efference copy of the motor command for song production is the basis of the real-time error-correction signal. During singing, activation of LMAN neurons will depend on the motor signal used to generate the song, and the learned prediction of expected auditory feedback based on that motor command. Error correction would occur more rapidly in this model.
Leonardo tested these models directly by recording spike rates in single LMAN neurons of adult zebra finches during singing in conditions with normal and perturbed auditory feedback. His results did not support the BOS-tuned error correction model, as the firing rates of LMAN neurons were unaffected by changes in auditory feedback and therefore, the error signal generated by LMAN appeared unrelated to auditory feedback. Moreover, the results from this study supported the predictions of the efference copy model, in which LMAN neurons are activated during singing by the efference copy of the motor signal (and its predictions of expected auditory feedback), allowing the neurons to be more precisely time-locked to changes in auditory feedback.
Mirror neurons and vocal learning
A
mirror neuron is a
neuron that discharges both when an individual performs an action and when he/she perceives that same action being performed by another.
These neurons were first discovered in
macaque
The macaques () constitute a genus (''Macaca'') of gregarious Old World monkeys of the subfamily Cercopithecinae. The 23 species of macaques inhabit ranges throughout Asia, North Africa, and (in one instance) Gibraltar. Macaques are principally ...
monkeys, but recent research suggests that mirror neuron systems may be present in other animals including humans.
Mirror neurons have the following characteristics:
* They are located in the
premotor cortex.
* They exhibit both sensory and motor properties.
* They are action-specific – mirror neurons are only active when an individual is performing or observing a certain type of action (e.g., grasping an object).
Because mirror neurons exhibit both
sensory
Sensory may refer to:
Biology
* Sensory ecology, how organisms obtain information about their environment
* Sensory neuron, nerve cell responsible for transmitting information about external stimuli
* Sensory perception, the process of acquiri ...
and
motor activity, some researchers have suggested that mirror neurons may serve to map sensory experience onto motor structures.
This has implications for birdsong learning– many birds rely on auditory feedback to acquire and maintain their songs. Mirror neurons may be mediating this comparison of what the bird hears, how it compares to a memorized song template, and what he produces.
In search of these auditory-motor neurons, Jonathan Prather and other researchers at Duke University recorded the activity of single neurons in the
HVCs of
swamp sparrow
The swamp sparrow (''Melospiza georgiana'') is a medium-sized New World sparrow related to the song sparrow.
Description
Measurements:
* Length: 4.7-5.9 in (12-15 cm)
* Weight: 0.5-0.8 oz (15-23 g)
* Wingspan: 7.1-7.5 in (18-19 cm)
...
s.
They discovered that the neurons that project from the HVC to Area X (HVC
X neurons) are highly responsive when the bird is hearing a playback of his own song. These neurons also fire in similar patterns when the bird is singing that same song. Swamp sparrows employ 3–5 different song types, and the neural activity differs depending on which song is heard or sung. The HVC
X neurons only fire in response to the presentation (or singing) of one of the songs, the primary song type. They are also temporally selective, firing at a precise phase in the song syllable.
Prather, et al. found that during the short period of time before and after the bird sings, his HVC
X neurons become insensitive to
auditory input. In other words, the bird becomes "deaf" to his own song. This suggests that these neurons are producing a
corollary discharge
In physiology, an efference copy or efferent copy is an internal copy of an outflowing ('' efferent''), movement-producing signal generated by an organism's motor system.Jeannerod, Marc (2003): "Action Monitoring and Forward Control of Movements". ...
, which would allow for direct comparison of motor output and auditory input. This may be the mechanism underlying learning via auditory feedback. These findings are also in line with Leonardo's (2004) efference copy model of error correction in birdsong learning and production.
Overall, the HVC
X auditory motor neurons in swamp sparrows are very similar to the visual motor mirror neurons discovered in
primates
Primates are a diverse order of mammals. They are divided into the strepsirrhines, which include the lemurs, galagos, and lorisids, and the haplorhines, which include the tarsiers and the simians (monkeys and apes, the latter including huma ...
. Like mirror neurons, the HVC
X neurons:
* Are located in a
premotor
The premotor cortex is an area of the motor cortex lying within the frontal lobe of the brain just anterior to the primary motor cortex. It occupies part of Brodmann's area 6. It has been studied mainly in primates, including monkeys and humans. ...
brain area
* Exhibit both sensory and motor properties
* Are action-specific – a response is only triggered by the "primary song type"
The function of the mirror neuron system is still unclear. Some scientists speculate that mirror neurons may play a role in understanding the actions of others,
imitation,
theory of mind and
language acquisition
Language acquisition is the process by which humans acquire the capacity to perceive and comprehend language (in other words, gain the ability to be aware of language and to understand it), as well as to produce and use words and sentences to ...
, though there is currently insufficient
neurophysiological evidence in support of these theories.
Specifically regarding birds, it is possible that the mirror neuron system serves as a general mechanism underlying
vocal learning, but further research is needed. In addition to the implications for song learning, the mirror neuron system could also play a role in
territorial behaviors such as song-type matching and countersinging.
Learning through cultural transmission
Culture in animals is usually defined to consist of socially transmitted behavior patterns ("traditions") that are characteristic of certain populations.
The learned nature of bird song as well as evidence of "dialect"-like local variations have support theories about the existence of
avian culture.
As mentioned
above, bird song's dependence on learning was studied by Thorpe, who found that
chaffinches
The common chaffinch or simply the chaffinch (''Fringilla coelebs'') is a common and widespread small passerine bird in the finch family. The male is brightly coloured with a blue-grey cap and rust-red underparts. The female is more subdued in ...
raised in isolation from their first week of life produce highly abnormal and less complex songs compared to other chaffinches. This suggested that many aspects of song development in songbirds depends on tutoring by older members of the same species. Later studies observed canary-like elements in the song of a chaffinch raised by
canaries, evidencing the strong role of tutors in the learning of song by juvenile birds.
Similar chaffinch song types (categorized based on their distinct elements and their order) were observed to cluster in similar geographic areas, and this discovery led to hypotheses about "dialects" in birdsong. It has since been postulated that these song type variations are not
dialects like those we found in human language. This is because not all members of a given geographic area will conform to the same song type, and also because there is no singular characteristic of a song type that differentiates it from all other types (unlike human dialects where certain words are unique to certain dialects).
Based on this evidence of learning and localized song types, researchers began to investigate the social learning of birdsong as a form of cultural transmission.
The behavior patterns constituting this culture are the songs themselves, and the song types can be considered as traditions.
Dopamine circuits and cultural transmission
A recent study has shown that a dopamine circuit in zebra finches may promote social learning of bird song from tutors. Their data shows that certain brain areas in juvenile zebra finches are excited by the singing of conspecific (i.e. same-species) tutors and not by loudspeakers playing zebra finch song. Additionally, they show that dopamine released into the HVC aids in the encoding of song.
Evolutionary preservation of bird vocal learning
The cultural trap hypothesis
Although a significant amount of research was done on bird song during the 20th century, none was able to elucidate the evolutionary "use" behind birdsong, especially with regards to large vocal repertoires. In response, Lachlan and Slater proposed a "cultural trap" model to explain persistence of wide varieties of song.
This model is based on a concept of "filters", in which:
* a male songbird's (i.e. singer's) filter contains the range of songs that it can develop
* a female songbird's (i.e. receiver's) filter contains the range of songs that it finds acceptable for
mate choice
Mate choice is one of the primary mechanisms under which evolution can occur. It is characterized by a "selective response by animals to particular stimuli" which can be observed as behavior.Bateson, Paul Patrick Gordon. "Mate Choice." Mate Choic ...
In one possible situation, the population consists mainly of birds with wide filters. In this population, a male songbird with a wide filter will rarely be chosen by the few females with narrow filters (as the male's song is unlikely to fall within a narrower filter). Such females will have a relatively small choice of males to mate with, so the genetic basis of the females' narrow filter does not persist. Another possible situation deals with a population with mostly narrow filters. In the latter population, wide-filter males can feasibly avoid mate choice rejection by learning from older, narrow-filter males. Therefore, the average reproductive success of wide-filter birds is enhanced by the possibility of learning, and vocal learning and large song repertoires (i.e. wide filters) go hand-in-hand.
The cultural trap hypothesis is one example of gene-culture coevolution, in which selective pressures emerge from the interaction between genotypes and their cultural consequences.
Possible correlation with cognitive ability
Various studies have shown that adult birds that underwent stress during critical developmental periods produce less complex songs and have smaller HVC brain regions. This has led some researchers to hypothesize that sexual selection for more complex songs indirectly selects for stronger cognitive ability in males. Further investigation showed that male
song sparrows with larger vocal repertoires required less time to solve detour-reaching cognitive tasks. Some have proposed that bird song (among other sexually selected traits such as flashy coloring, body symmetry, and elaborate courtship) allow female songbirds to quickly assess the cognitive skills and development of multiple males.
Identification and systematics
The specificity of bird calls has been used extensively for species identification. The calls of birds have been described using words or nonsense syllables or line diagrams. Common terms in English include words such as ''quack'', ''chirp'' and ''chirrup''. These are subject to imagination and vary greatly; a well-known example is the
white-throated sparrow's song, given in
Canada as ''O sweet Canada Canada Canada'' and in
New England as ''Old Sam Peabody Peabody Peabody'' (also ''Where are you Frederick Frederick Frederick?''). In addition to nonsense words, grammatically correct phrases have been constructed as likenesses of the vocalizations of birds. For example, the
barred owl produces a motif which some bird guides describe as ''Who cooks for you? Who cooks for you all?'' with the emphasis placed on ''you''. The term "warblish" has been coined to explain this approach to bird call description.
Kay Electric Company, started by former Bell Labs engineers Harry Foster and Elmo Crump, made a device that was marketed as the "Sona-Graph" in 1948. This was adopted by early researchers including C.E.G. Bailey who demonstrated its use for studying bird song in 1950. The use of
spectrograms to visualize bird song was then adopted by
Donald J. Borror
Donald Joyce Borror (24 August 1907 – 28 April 1988) was an American entomologist and a pioneer of bioacoustics. He is famous for co-authoring a comprehensive textbook of entomology titled ''An Introduction to the Study of Insects'' which contin ...
and developed further by others including W. H. Thorpe.
These visual representations are also called sonograms or . Beginning in 1983, some field guides for birds use sonograms to document the calls and songs of birds. The sonogram is objective, unlike descriptive phrases, but proper interpretation requires experience. Sonograms can also be roughly converted back into sound.
Bird song is an integral part of bird courtship and is a pre-zygotic isolation mechanism involved in the process of
speciation
Speciation is the evolutionary process by which populations evolve to become distinct species. The biologist Orator F. Cook coined the term in 1906 for cladogenesis, the splitting of lineages, as opposed to anagenesis, phyletic evolution within ...
. Many
allopatric
Allopatric speciation () – also referred to as geographic speciation, vicariant speciation, or its earlier name the dumbbell model – is a mode of speciation that occurs when biological populations become geographically isolated from ...
subspecies show differences in calls. These differences are sometimes minute, often detectable only in the sonograms. Song differences in addition to other taxonomic attributes have been used in the identification of new species. The use of calls has led to proposals for splitting of species complexes such as those of the ''
Mirafra'' bushlarks.
Smartphone apps can identify birds using sounds. These apps work by comparing against
spectrographic
In chemical analysis, chromatography is a laboratory technique for the separation of a mixture into its components. The mixture is dissolved in a fluid solvent (gas or liquid) called the ''mobile phase'', which carries it through a system (a ...
databases for matches.
Bird language
The
language of the birds has long been a topic for anecdote and speculation. That calls have meanings that are interpreted by their listeners has been well demonstrated. Domestic
chickens have distinctive alarm calls for aerial and ground predators, and they respond to these alarm calls appropriately.
However, a
language has, in addition to words,
grammar (that is, structures and rules). Studies to demonstrate the existence of language have been difficult because of the range of possible interpretations. For instance, some have argued that in order for a communication system to count as a language it must be "combinatorial",
having an open-ended set of grammar-compliant sentences made from a finite vocabulary.
Research on
parrots by
Irene Pepperberg is claimed to demonstrate the innate ability for grammatical structures, including the existence of concepts such as nouns, adjectives and verbs. In the wild, the innate vocalizations of
black-capped chickadees
The black-capped chickadee (''Poecile atricapillus'') is a small, non-migratory, North American songbird that lives in deciduous and mixed forests. It is a passerine bird in the tit family, the Paridae. It is the state bird of Massachusetts and ...
have been rigorously shown
to exhibit combinatorial language. Studies on
starling vocalizations have also suggested that they may have recursive structures.
The term ''bird language'' may also more informally refer to patterns in bird vocalizations that communicate information to other birds or other animals in general.
Some birds have two distinct "languages" — one for internal communications and one for use in flocks. All birds have a separate type of communication for "songs" vs. communicating danger and other information.
Konrad Lorenz demonstrated that jackdaws have "names" identifying each individual in the flock and when beginning flight preparations each of them says one other bird's name creating a "chain". In his book ''
King Solomon's Ring'', Lorenz describes the name he was given by the birds and how he was recognized several years later in a far away location following WWII.
Studies in parakeets have shown a striking similarity between a
talking bird's verbal areas in the brain and the equivalent human brain areas, suggesting that mimicry has much to do with the construction of language and its structures and order. Research in 2016 showed that birds construct sentence-like communications with a syntax and grammar.
In culture
Recording
The first known recording of birdsong was made in 1889 by
Ludwig Koch,
who went on to become an eminent wildlife recordist and BBC natural history presenter.
Other notable birdsong recordists include
Eric Simms,
Chris Watson
John Christian Watson (born Johan Cristian Tanck; 9 April 186718 November 1941) was an Australian politician who served as the third prime minister of Australia, in office from 27 April to 18 August 1904. He served as the inaugural federal lead ...
and, in France, Jean-Claude Roché, François Charron and Fernand Deroussen.
In music
In music,
birdsong has influenced composers and musicians in several ways: they can be inspired by birdsong; they can intentionally imitate bird song in a composition, as
Vivaldi and
Beethoven did, along with many later composers, such as
Messiaen; they can incorporate recordings of birds into their works, as
Ottorino Respighi
Ottorino Respighi ( , , ; 9 July 187918 April 1936) was an Italian composer, violinist, teacher, and musicologist and one of the leading Italian composers of the early 20th century. List of compositions by Ottorino Respighi, His compositions r ...
first did; or like
Beatrice Harrison
Beatrice Harrison (9 December 1892 – 10 March 1965) was a British cellist active in the first half of the 20th century. She gave first performances of several important English works, especially those of Frederick Delius, and made the first or ...
and
David Rothenberg, they can duet with birds.
Authors including Rothenberg have claimed that birds sing on traditional scales as used in human music, but at least one songbird does not choose notes in this way.
Among birds which habitually borrow phrases or sounds from other species, the way they use variations of
rhythm, relationships of
musical pitch, and combinations of
notes can resemble music. Hollis Taylor's in-depth analysis of
pied butcherbird
The pied butcherbird (''Cracticus nigrogularis'') is a songbird native to Australia. Described by John Gould in 1837, it is a black and white bird long with a long hooked bill. Its head and throat are black, making a distinctive hood; the man ...
vocalizations provides a detailed rebuttal to objections of birdsong being judged as music. The similar motor constraints on human and avian song may have driven these to have similar song structures, including "arch-shaped and descending melodic contours in musical phrases", long notes at the ends of phrases, and typically small differences in pitch between adjacent notes, at least in birds with a strong song structure like the Eurasian treecreeper ''
Certhia familiaris
The Eurasian treecreeper or common treecreeper (''Certhia familiaris'') is a small passerine bird also known in the British Isles, where it is the only living member of its genus, simply as treecreeper. It is similar to other treecreepers, and ha ...
''.
In poetry
Bird song is a popular subject in
poetry. Famous examples inspired by bird song include the 1177
Persian poem "
The Conference of the Birds", in which the birds of the world assemble under the wisest bird, the
hoopoe, to decide who is to be their king. In English poetry,
John Keats
John Keats (31 October 1795 – 23 February 1821) was an English poet of the second generation of Romantic poets, with Lord Byron and Percy Bysshe Shelley. His poems had been in publication for less than four years when he died of tuberculo ...
's 1819 "
Ode to a Nightingale" and
Percy Bysshe Shelley
Percy Bysshe Shelley ( ; 4 August 17928 July 1822) was one of the major English Romantic poets. A radical in his poetry as well as in his political and social views, Shelley did not achieve fame during his lifetime, but recognition of his achie ...
's 1820 "
To a Skylark" are popular classics.
Ted Hughes's 1970 collection of poems about a bird character, "
Crow", is considered one of his most important works. Bird poems by
Gerard Manley Hopkins
Gerard Manley Hopkins (28 July 1844 – 8 June 1889) was an English poet and Jesuit priest, whose posthumous fame placed him among leading Victorian poets. His prosody – notably his concept of sprung rhythm – established him as an innovato ...
include "Sea and Skylark" and "
The Windhover
"The Windhover" is a sonnet by Gerard Manley Hopkins (1844–1889). It was written on 30 May 1877, but not published until 1914, when it was included as part of the collection ''Poems of Gerard Manley Hopkins''. Hopkins dedicated the poem "T ...
".
See also
*
Animal communication
Animal communication is the transfer of information from one or a group of animals (sender or senders) to one or more other animals (receiver or receivers) that affects the current or future behavior of the receivers. Information may be sent int ...
*
Animal language
*
Anti-exhaustion hypothesis The anti-exhaustion hypothesis is a possible explanation for the existence of large repertoires and the song switching behaviour exhibited in birds. This hypothesis states that muscle exhaustion occurring due to repeating song bouts can be avoided b ...
, birdsong
* ''
Australian Bird Calls''
*
Bioacoustics
*
Biomusic
*
Biophony
Soundscape ecology is the study of the acoustic relationships between living organisms, human and other, and their environment, whether the organisms are marine or terrestrial. First appearing in the ''Handbook for Acoustic Ecology'' edited by Bar ...
*
Cock a doodle doo
*
Dawn chorus (birds)
The dawn chorus occurs when Birdsong, birds sing at the start of a new day. In temperate countries this is most noticeable in spring when the birds are either defending a Territory (animal), breeding territory, trying to attract a mate or calling ...
*
Flight call Flight calls are vocalisations made by bird
Birds are a group of warm-blooded vertebrates constituting the class Aves (), characterised by feathers, toothless beaked jaws, the laying of hard-shelled eggs, a high metabolic rate, a fou ...
*
Language of the birds
*
Lateralization of bird song Passerine birds produce song through the vocal organ, the syrinx, which is composed of bilaterally symmetric halves located where the trachea separates into the two bronchi. Using endoscopic techniques, it has been observed that song is produced by ...
*
Lombard effect
*
Talking bird
*
Vinkensport
''Vinkensport'' (Dutch for ''"finch sport"'') is a competitive animal sport in which male common chaffinches are made to compete for the highest number of bird calls in an hour. Also called ''vinkenzetting'' ("finch sitting"). It is primarily a ...
References
External links
Avian Vocalizations CenterMichigan State University
Michigan State University (Michigan State, MSU) is a public university, public Land-grant university, land-grant research university in East Lansing, Michigan. It was founded in 1855 as the Agricultural College of the State of Michigan, the fi ...
Bird Language: Exploring the Language of Nature with Jon YoungA blog with stories and tips for learning the patterns in bird vocalizations.
Large collection of audio bird calls collected in Arizonafrom
Ask A Biologist.
xeno-canto: Community online database of downloadable bird sounds from around the globe≈250,000 recordings of ≈9400 species as of Aug 2015. See also
xeno-canto.
British Library's archive of bird soundsrepresenting more than 8,000 species.
The Sound ApproachA guide to understanding bird sound.
Bird language articlesHumor piece on soundtrack errors
Song Bird ScienceShared resource for birdsong scientists
Bioacoustic Research Programat the
Cornell Lab of Ornithology distributes a number of different free birdsong synthesis & analysis programs.
Macaulay Libraryat the
Cornell Lab of Ornithology is the world's largest collection of animal sounds and associated video.
Audio Pitch TracerAccurate transcription of clean recordings of bird vocalizations to midi
Sonogram Visible SpeechGPL Licensed freeware for the Spectrogram extraction.
{{DEFAULTSORT:Bird Vocalization
Song forms
Neuroethology
Wild animals identification
Cognitive musicology