A sonority hierarchy or sonority scale is a hierarchical ranking of
speech sound
In physics, sound is a vibration that propagates as an acoustic wave, through a transmission medium such as a gas, liquid or solid.
In human physiology and psychology, sound is the ''reception'' of such waves and their ''perception'' b ...
s (or
phones
A telephone is a telecommunications device that permits two or more users to conduct a conversation when they are too far apart to be easily heard directly. A telephone converts sound, typically and most efficiently the human voice, into ele ...
). Sonority is loosely defined as the loudness of speech sounds relative to other sounds of the same pitch, length and stress,
therefore sonority is often related to rankings for phones to their amplitude.
For example, pronouncing the
vowel
A vowel is a syllabic speech sound pronounced without any stricture in the vocal tract. Vowels are one of the two principal classes of speech sounds, the other being the consonant. Vowels vary in quality, in loudness and also in quantity (leng ...
[a] will produce a louder sound than the
stop
Stop may refer to:
Places
* Stop, Kentucky, an unincorporated community in the United States
* Stop (Rogatica), a village in Rogatica, Republika Srpska, Bosnia and Herzegovina
Facilities
* Bus stop
* Truck stop, a type of rest stop for truck d ...
[t], so
would rank higher in the hierarchy. However, grounding sonority in amplitude is not universally accepted.
Instead, many researchers refer to sonority as the resonance of speech sounds.
This relates to the degree to which production of phones results in vibrations of air particles. Thus, sounds that are described as more sonorous are less subject to masking by ambient noises.
Sonority hierarchies are especially important when analyzing
syllable structure; rules about what
segments may appear in
onsets or
codas together, such as
SSP, are formulated in terms of the difference of their sonority values. Some languages also have
assimilation rules based on sonority hierarchy, for example, the Finnish
potential mood, in which a less sonorous segment changes to copy a more sonorous adjacent segment (e.g. ''-tne- → -nne-'').
Sonority hierarchy
Sonority hierarchies vary somewhat in which sounds are grouped together. The one below is fairly typical:
Sound types are the most sonorous on the left side of the scale, and become progressively less sonorous towards the right (e.g., fricatives are less sonorous than nasals).
The labels on the left refer to
distinctive feature
In linguistics, a distinctive feature is the most basic unit of phonological structure that distinguishes one sound from another within a language. For example, the feature oicedistinguishes the two bilabial plosives: and There are many diff ...
s, and categories of sounds can be grouped together according to whether they share a feature. For instance, as shown in the sonority hierarchy above, vowels are considered
syllabic
Syllabic may refer to:
*Syllable, a unit of speech sound, considered the building block of words
**Syllabic consonant, a consonant that forms the nucleus of a syllable
*Syllabary, writing system using symbols for syllables
*Abugida, writing system ...
whereas all consonants (including stops, affricates, fricatives, etc.) are considered
minus;syllabic All sound categories falling under
sonorantare
sonorants, whereas those falling under
minus;sonorantare
obstruents. In this way, any contiguous set of sound types may be grouped together on the basis of no more than two features (for instance, glides, liquids, and nasals are
minus;syllabic, +sonorant.
Sonority scale
In
English
English usually refers to:
* English language
* English people
English may also refer to:
Peoples, culture, and language
* ''English'', an adjective for something of, from, or related to England
** English national ide ...
, the sonority scale, from highest to lowest, is the following:
In simpler terms, the scale has members of the same group hold the same sonority from the greatest to the smallest presence of vibrations in the vocal folds. Vowels have the most vibrations, but consonants are characterized as such in part by the lack of vibrations or a break in vibrations. The top of the scale, open vowels, has the most air used for vibrations, and the bottom of the scale has the least air being used for vibrations. That can be demonstrated by putting a few fingers on one's throat and pronouncing an open vowel such as the
vowel
A vowel is a syllabic speech sound pronounced without any stricture in the vocal tract. Vowels are one of the two principal classes of speech sounds, the other being the consonant. Vowels vary in quality, in loudness and also in quantity (leng ...
and then pronouncing one of the plosives (also known as
stop consonants) of the
t kclass. For vowels, there is a consistent level pressure generated from the lungs and diaphragm, and the difference in pressure in one's body and outside the mouth is minimal. For plosive, the pressure generated from the lungs and diaphragm changes significantly, and the difference in pressure in one's body and outside the mouth is maximal before release (no air is flowing, and the vocal folds are not resisting the air flow).
More finely-nuanced hierarchies often exist within classes whose members cannot be said to be distinguished by relative sonority. In North American English, for example, the set /p t k/ has /t/ being by far the most subject to weakening when before an unstressed vowel (the usual American pronunciation has /t/ as a flap in ''later'' but normally no weakening of /p/ in ''caper'' or of /k/ in ''faker'').
In Portuguese, intervocalic /n/ and /l/ are typically lost historically (e.g. Lat. LUNA > /lua/ 'moon', DONARE > /doar/ 'donate', COLORE > /kor/ 'color'), but /r/ remains (CERA > /sera/ 'wax'), but Romanian has transformed the intervocalic non-
geminate
In phonetics and phonology, gemination (), or consonant lengthening (from Latin 'doubling', itself from '' gemini'' 'twins'), is an articulation of a consonant for a longer period of time than that of a singleton consonant. It is distinct from ...
/l/ into /r/ (SOLEM > /so̯are/ 'sun') and reduced the geminate /ll/ to /l/ (OLLA > /o̯alə/ 'pot'). It has, however, left /n/ (LUNA > /lunə/ 'moon') and /r/ (PIRA > /parə/ 'pear') unchanged. Similarly, Romance languages often have geminate /mm/ weaker than /nn/, and geminate /rr/ is often stronger than other geminates, including /pp tt kk/. In such cases, many phonologists refer not to sonority but to a more abstract notion of relative strength. The latter was once posited as universal in its arrangement, but it is now known to be language-specific.
Sonority in phonotactics
Syllable structure tends to be highly influenced and motivated by the sonority scale, with the general rule that more sonorous elements are internal (i.e., close to the
syllable nucleus) and less sonorant elements are external. For instance, the sequence /plant/ is permissible in many languages, while /lpatn/ is much less likely. (This is the
sonority sequencing principle). This rule is applied with varying levels of strictness cross-linguistically, with many languages allowing exceptions: for example, in English, /s/ can be found external to
stops even though it is more sonorous (e.g. "strong", "hats").
In many languages the presence of two non-adjacent highly-sonorous elements can be a reliable indication of how many syllables are in the word; /ata/ is most likely two syllables, and many languages would deal with the sequences like /mbe/ or /lpatn/ by pronouncing them as multiple syllables, with syllabic sonorants:
̩.beand
̩.pat.n̩
Ecological patterns in sonority
The sonority ranking of speech sounds plays an important role in developing phonological patterns in language, which allows for the
intelligible transmission of speech between individuals in a society. Differences in the occurrence of particular sounds in languages around the world have been observed by numerous researchers. It has been suggested that these differences are as a result of
ecological pressures.
This understanding was developed from the acoustic adaptation hypothesis, which was a theory initially used to understand differences in bird songs across varying habitats.
However, the theory has been applied by researchers as a base for understanding why differences are shown in speech sounds within spoken languages around the world.
Climates
Maddieson and Coupé’s
study on 633 languages worldwide observed that some of the variation in the sonority of speech sounds in languages can be accounted for by differences in climate. The pattern follows that in warmer climatic zones, language is more sonorous compared to languages in cooler climatic zones which favour the use of consonants. To explain these differences they emphasise the influence of atmospheric absorption and turbulence within warmer, ambient air, which may disrupt the integrity of acoustic signals. Therefore, employing more sonorous sounds in a language may reduce the distortion of soundwaves in warmer climates.
Fought and Munroe
instead argue that these disparities in speech sounds are as a result of differences in the daily activities of individuals in different climates. Proposing that throughout history individuals residing in warmer climates tend to spend more time outdoors (likely engaging in agricultural work or social activities), therefore speech requires effective propagation of sound through the air for acoustic signals to meet the recipient over these long distances, unlike in cooler climates where people are communicating over shorter distances (spend more time indoors).
Another explanation is that languages have adapted to maintain
homeostasis
In biology, homeostasis (British also homoeostasis) (/hɒmɪə(ʊ)ˈsteɪsɪs/) is the state of steady internal, physical, and chemical conditions maintained by living systems. This is the condition of optimal functioning for the organism and ...
.
Thermoregulation
Thermoregulation is the ability of an organism to keep its body temperature within certain boundaries, even when the surrounding temperature is very different. A thermoconforming organism, by contrast, simply adopts the surrounding temperature ...
aims to ensure body temperature remains within a certain range of values, allowing for the proper functioning of cells. Therefore, it has been argued that differences in the regularity of phones in a language are an adaptation which helps to regulate internal bodily temperatures. Employing the use of open vowels like /a/ which is highly sonorous, requires the opening of
vocal articulators. This allows for air to flow out of the mouth and with it evaporating water which reduces internal bodily temperatures. In contrast, voiceless plosives like /t/ are more common in cooler climates. Producing this speech sound obstructs airflow out of the mouth due to the constriction of vocal articulators. Thus, reducing the transfer of heat out of the body, which is important for individuals residing in cooler climates.
Vegetation
A positive correlation exists, so that as temperature increases, so does the use of more sonorous speech sounds. However, the presence of dense vegetation coverage leads to the correlation occurring oppositely,
so that less sonorous speech sounds are favoured by warmer climates when the area is covered by dense vegetation. This is said to be because in warmer climates with dense vegetation coverage individuals instead communicate over shorter distances, therefore favour speech sounds which are ranked lower in the sonority hierarchy.
Altitude
Everett, (2013)
suggested that in high elevation regions such as in the
Andes
The Andes, Andes Mountains or Andean Mountains (; ) are the longest continental mountain range in the world, forming a continuous highland along the western edge of South America. The range is long, wide (widest between 18°S – 20°S ...
, languages regularly employ the use of ejective plosives like /
kʼ/. Everett argued that in high altitude areas, with reduced ambient air pressure, the use of ejectives allows for ease of articulation when producing speech. Moreover, as no air is flowing out of the vocal folds, water is conserved whilst communicating, thus reducing dehydration in individuals residing in high elevation regions.
A range of other additional factors have also been observed which affect the degree of sonority of a particular language such as precipitation and sexual restrictiveness.
Inevitably, the patterns become more complex when considering a range of ecological factors simultaneously. Moreover, large amounts of variation are shown which may be due to patterns of migration.
Mechanisms underlying differences in sonority
The existence of these differences in speech sounds in modern day human language is said to be driven by
cultural evolution
Cultural evolution is an evolutionary theory of social change. It follows from the definition of culture as "information capable of affecting individuals' behavior that they acquire from other members of their species through teaching, imitation a ...
.
Language is an important part of culture. In particular, speech sounds in the sonority scale are more likely to be selected for in different environments as a language favours phonetic structures which allow for the successful transmission of messages in the presence of ecological conditions. Henrich highlights the role of
dual inheritance, which propels changes in language that persist across generations. It follows that slight differences in language patterns may be selected for because they are advantageous for individuals in the given environment.
Biased transmission then occurs which allows for speech pattern to be adopted by members of the society.
References
External links
What is the sonority scale?Lingua::Phonology::Syllable—
Perl
Perl is a family of two high-level, general-purpose, interpreted, dynamic programming languages. "Perl" refers to Perl 5, but from 2000 to 2019 it also referred to its redesigned "sister language", Perl 6, before the latter's name was offic ...
module for extracting sonority scale from text.
*https://glossary.sil.org/term/sonority-scale
The Syllable and Phonotactic Constraints*http://linguismstics.tumblr.com/post/16916697835/linguistics-sonority-hierarchy
The Derivation of a Sonority Hierarchy from the Syllable Contact Law (SCL) and the Productivity of SCL in American English*
Dual inheritance theory#Biased transmission
{{Articulation navbox
Phonotactics
Phonology