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This article contains phonetic transcriptions in the International Phonetic Alphabet (IPA). For an introductory guide on IPA symbols, see Help:IPA. For the distinction between [ ], / / and ⟨ ⟩, see IPA § Brackets and transcription delimiters.

A close vowel, also known as a high vowel (in U.S. terminology[1]), is any in a class of vowel sounds used in many spoken languages. The defining characteristic of a close vowel is that the tongue is positioned approximately as close as possible to the roof of the mouth as it can be without creating a constriction. A constriction would produce a sound that would be classified as a consonant.

The term "close" /ˈkls/ is recommended by the International Phonetic Association. Close vowels are often referred to as "high" vowels, as in the Americanist phonetic tradition, because the tongue is positioned high in the mouth during articulation.[2]

In the context of the phonology of any particular language, a high vowel can be any vowel that is more close than a mid vowel. That is, close-mid vowels, near-close vowels, and close vowels can all be considered high vowels.

Partial list

[edit]

The six close vowels that have dedicated symbols in the International Phonetic Alphabet are:

(IPA letters for rounded vowels are ambiguous as to whether the rounding is protrusion or compression. However, transcription of the world's languages tends to pattern as above.)

There also are close vowels that do not have dedicated symbols in the IPA:

Other close vowels can be indicated with diacritics of relative articulation applied to letters for neighboring vowels, such as ⟨⟩ or ⟨ɪ̝⟩ for a close near-front unrounded vowel.

See also

[edit]

References

[edit]
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Close vowel

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A close vowel, also known as a high vowel, is a type of sound in which the is positioned as high as possible in the oral cavity toward the roof of the mouth, without forming a sufficient to produce a , resulting in a relatively small oral opening compared to other s. This high position distinguishes close vowels from mid and open (low) vowels, where the is lower and the opens more widely to allow greater through the vocal tract. All close vowels are typically voiced, with the vocal folds vibrating during production, and they vary further by advancement (front, central, or back) and rounding (rounded or unrounded). In the International Phonetic Alphabet (IPA), close vowels occupy the top row of the vowel chart and include six primary symbols representing distinct articulatory positions: /i/ (close front unrounded), /y/ (close front rounded), /ɨ/ (close central unrounded), /ʉ/ (close central rounded), /ɯ/ (close back unrounded), and /u/ (close back rounded). For example, the English word beat features /iː/, a tense close front unrounded vowel, while boot contains /uː/, a tense close back rounded vowel; in contrast, languages like French use /y/ as in tu ("you"), and Japanese employs /ɯ/ in words like kūki ("air"). Close vowels can also appear in near-close variants, such as /ɪ/ or /ʊ/ in English bit and book, which are slightly lower but still high in the vowel space. Close s play a key role in phonological systems worldwide, often contrasting with other vowel heights to distinguish meaning, as in English minimal pairs like beat /bit/ and bet /bɛt/. They are produced with minimal depression to accommodate the elevated , and in many languages, they may exhibit —a greater muscular effort leading to longer duration and peripheral positioning in the vowel space—versus laxness, which involves relaxation and centralization. Additionally, close vowels frequently interact with surrounding consonants, sometimes into (e.g., /w/ from /u/ or /j/ from /i/) in processes like those seen in English union versus unique.

Definition and Classification

Definition

A close vowel, also known as a high vowel in terminology, is a type of sound produced with the positioned as high as possible toward the roof of the without making contact or producing friction, resulting in the smallest oral cavity among vowel heights. This positioning distinguishes close vowels from other vowel categories by maximizing tongue elevation while maintaining an open vocal tract for . Articulatorily, close vowels involve an elevated body and a correspondingly raised , which minimizes the in the oral cavity and contrasts with lower vowels that feature greater jaw depression and a more expansive oral for sound production. The term "close" emphasizes the degree of approximation between the tongue and the or velum, reflecting a more constricted configuration without impeding airflow. The terminology "close vowel" originated in the early 20th century with British phonetician Daniel Jones, who developed the Cardinal Vowel system in 1917 to standardize vowel description based on tongue arch height and jaw closure. Jones's system, informed by X-ray imaging of his own articulations, established close vowels as the uppermost points on the vowel quadrilateral, providing a reference for cross-linguistic comparisons. In the International Phonetic Alphabet (IPA), prototypical close vowels are represented by symbols such as /i/ for the and /u/ for the , anchoring the top tier of the vowel height scale.

Height in vowel systems

Vowel height represents a key dimension in the phonetic classification of vowels, with the International Phonetic Alphabet (IPA) delineating seven distinct levels along a continuum from highest to lowest: close, near-close, close-mid, mid, open-mid, near-open, and open. These levels correspond to the vertical positioning of the tongue relative to the roof of the mouth, with progressive lowering from the close to the open end of the scale. Close vowels, as the highest category, involve maximal elevation of the tongue body, approaching but not contacting the or velum to avoid consonantal friction. Within phonetic inventories, form the uppermost tier of the vowel height hierarchy, anchoring the perceptual and articulatory extremes of the system. The IPA vowel chart visualizes this arrangement as a trapezium, an idealized representation of the vocal tract's midsagittal profile, where close vowels occupy the top apex, symbolizing the narrowest oral cavity configuration short of closure. This positioning facilitates their role in vowel triangles and trapezoids used to map and compare systems across languages, emphasizing height as a foundational alongside backness and . Close vowels exhibit remarkable cross-linguistic universality, appearing in the phonological inventories of all documented languages based on comprehensive databases like UPSID, which analyzed 451 languages worldwide. Their prevalence stems from articulatory efficiency, as producing them requires minimal jaw opening and tongue displacement compared to lower heights, rendering them inherently stable and less prone to reduction or merger in diverse phonetic contexts. A critical distinction exists between true close vowels and near-close vowels within the height continuum. Close vowels maintain a fully elevated tongue position, maximizing constriction without impeding airflow, as in or . In contrast, near-close vowels, such as [ɪ] or [ʊ], feature a slightly lowered tongue arch, introducing a subtle degree of openness that differentiates them acoustically and perceptually while still approximating high height. This marginal adjustment underscores the precision of the IPA scale in capturing fine-grained articulatory variations.

Articulation

Tongue and jaw positioning

Close vowels are produced with the body of the tongue raised to a high position in the oral cavity, approaching but not contacting the roof of the mouth, which narrows the vocal tract significantly compared to lower vowels. For front close vowels such as /i/, the tongue is elevated and pushed forward toward the hard palate, creating an arched configuration in the front portion of the tongue. In contrast, back close vowels like /u/ involve retraction of the tongue body, with the highest point raised toward the soft palate or velum, resulting in a bunching of the tongue dorsum in the posterior region. Central close vowels, such as /ɨ/, feature a high tongue position that is neither prominently fronted nor retracted, maintaining a more neutral alignment. The plays a crucial role in facilitating this elevated posture, remaining minimally lowered or nearly closed to allow the to achieve its high position without obstruction. This mandible elevation contrasts with the greater jaw depression observed in mid or open vowels, where the must descend further. In close vowels, the 's restricted movement ensures the oral cavity's height is primarily modulated by adjustment rather than mandibular displacement. Producing close vowels demands precise motor control of the tongue and jaw musculature to maintain the narrow but open vocal tract configuration, as excessive elevation could result in articulatory closure resembling a , such as a . This precision is evident in the subtle differences between front and back close vowels, where tongue arching or bunching must be balanced against jaw stability to avoid unintended constriction.

Lip configuration

In close vowels, lip configuration plays a key role in distinguishing unrounded variants, where the are typically spread or held in a neutral position. This setup, as seen in symbols such as /i/ (front), /ɨ/ (central), and /ɯ/ (back), avoids protrusion and allows for a relatively open front oral cavity, facilitating the high tongue positioning essential to close vowel articulation. The spread or neutral lip posture contrasts with the protruded form in rounded variants and supports the overall compactness of the vocal tract required for high vowels. Rounded close vowels, represented by /y/ (front), /ʉ/ (central), and /u/ (back), involve protrusion and of the into a circular , which effectively lengthens the vocal tract by extending the labial portion. This configuration alters the through modified and cavity shaping while preserving the elevated position characteristic of close vowels. Lip in these vowels requires coordinated muscle tension around the mouth, which can subtly interact with the high arch but does not compromise the core articulatory height. Across close vowel heights, lip exhibits variability: it is more consistently applied to back variants like /u/ due to the natural with retracted positioning, whereas front and central close vowels more frequently appear unrounded (/i/, /ɨ/) though rounded forms (/y/, /ʉ/) occur in certain phonological systems. This distribution reflects articulatory preferences where enhances compactness without universal application to all close positions. One articulatory trade-off in rounded close vowels is that the lip protrusion can contribute to a slight perceptual raising of vowel height, as the extended labial configuration influences overall vocal tract geometry; however, the defining high tongue position remains intact to classify these as close vowels. This interaction underscores the secondary but modulatory role of lips relative to primary tongue elevation in maintaining close vowel identity.

Acoustic Properties

Formant frequencies

Close vowels exhibit distinct acoustic signatures characterized by low first formant (F1) frequencies, typically ranging from 200 to 350 Hz in adult males, attributable to the elevated tongue position that compresses the lower vocal tract and shortens the front cavity resonance length. This articulatory elevation minimizes the pharyngeal volume, resulting in a lower F1 compared to more open vowels. The second (F2) provides key differentiation along the front-back axis: front close vowels, such as /i/, display high F2 values of 2000–3000 Hz due to a compact anterior oral cavity promoting higher ; back close vowels like /u/ show low F2 around 500–1000 Hz, influenced by a larger posterior cavity and configuration; central close vowels (/ɨ/, /ʉ/) occupy intermediate F2 positions, often 1200–1800 Hz. Lip rounding, prevalent in many back close vowels and some front variants (e.g., /y/), systematically lowers F2 relative to unrounded equivalents, as the protruded lips extend the vocal tract length and constrict the output, shifting resonances downward across . These values are derived from spectrographic analysis of steady-state vowel segments, often using software like for peak detection in the ; reported figures represent averages from adult male speakers (vocal tract length ~17 cm), with females showing ~15–20% higher frequencies due to shorter tracts and children exhibiting even greater elevations proportional to size.

Perceptual characteristics

Close vowels are perceived primarily through their low first (F1), which signals high position and thus "closeness" to listeners, with typical F1 values around 250-350 Hz distinguishing them from lower vowels. Perceptual studies indicate that confusion boundaries for vowel height occur near 400 Hz for F1, separating close vowels like /i/ and /u/ from close-mid vowels such as /e/ and /o/, as listeners categorize stimuli below this threshold as higher in the space. This low F1 contributes to a of compactness and brightness in , particularly when combined with higher formants that enhance auditory salience. Distinctions in backness for close vowels rely on differences in the second frequency (F2), where front close vowels exhibit higher F2 (around 2000-2500 Hz) compared to back close vowels (F2 around 800-1200 Hz), enabling listeners to differentiate /i/ from /u/ even in challenging conditions. In noisy environments or rapid speech, these F2 variations become critical cues, with experimental evidence showing perceptual shifts along the F2 dimension that maintain contrast between same-height front and back vowels as acoustic degradation increases. Lip in close vowels, such as /y/ or /u/, lowers F2 and F3, which can contribute to a of a darker . Cross-language variability affects close vowel , particularly for unrounded back vowels like Japanese /ɯ/, which lack direct equivalents in languages such as English. English listeners often approximate /ɯ/ to their nearest category, such as /uː/, due to unfamiliarity with its central-back positioning and lack of , resulting in categorical mappings that alter identification accuracy.

Types and Examples

Front close vowels

Front close vowels are produced with the tongue positioned high and forward in the oral cavity, resulting in a tense articulation that distinguishes them from lower front vowels. The unrounded variant, represented in the International Phonetic Alphabet (IPA) as /i/, is characterized by spread lips and is nearly universal across the world's languages, appearing in the majority of vowel inventories as a core high front . For instance, in English, /i/ occurs in words like "see" [si:], where it forms a long, tense in many dialects. Similarly, in Spanish, /i/ is realized as a pure high front unrounded in "sí" [si], contributing to the language's symmetrical five-vowel system. The rounded counterpart, /y/, involves lip rounding with the same high front tongue position, making it acoustically distinct due to the added labialization. This vowel is less common globally, occurring in fewer than 10% of languages outside European families and absent from many, including English, where speakers often substitute it with /u/ or /ɪ/. Examples include French "tu" [ty], where /y/ serves as a phonemic contrast in the language's seven-vowel inventory, and German "über" [ˈyːbɐ], featuring a long variant in umlauted forms. In phonetic realization, front close vowels like /i/ may exhibit slight diphthongization in certain languages, gliding toward a more central or near-close quality at the offset. For example, in English, /i/ is often articulated as [ɪi] or [ij] by speakers, reflecting off-gliding that does not alter its phonemic status but adds allophonic variation. Front close vowels predominate in vowel systems emphasizing front articulation, such as those in , where /i/ is a foundational element and /y/ appears in subsets like French to expand the inventory to seven or more phonemes. This distribution underscores their role in maintaining contrasts within front-heavy paradigms, as seen in the consistent presence of /i/ across Spanish, Italian, and alongside selective rounding in French.

Central close vowels

Central close vowels are produced with the tongue raised high toward the center of the , resulting in a neutral positioning that lacks the advancement of front vowels or the retraction of back vowels. This centralization places the highest point of the tongue along the midline of the oral cavity, creating a that blends elements of both front and back articulation without favoring either. The unrounded central close vowel, represented in the International Phonetic Alphabet as /ɨ/, features no lip protrusion and a high, centralized tongue position. It appears as an allophone in some dialects of English, such as in the plural suffix of "roses" pronounced [ˈɹoʊzɨz]. This vowel is also common in Sino-Tibetan languages, where it occurs in forms like the Mandarin apical vowel [ʅ], often approximated as /ɨ/ in phonetic descriptions. The rounded central close vowel, /ʉ/, involves lip rounding combined with the same high central tongue posture. In Swedish, it is realized as a long vowel in words like "du" [dʉ:], contrasting with other high vowels in the language's inventory. Similarly, in , the vowel in "put" can centralize to [pʰʉʔ], reflecting a fronted or centralized realization of the high back rounded vowel. Central close vowels are relatively rare as phonemes across the world's languages, occurring in approximately 16% of sampled inventories for /ɨ/ according to cross-linguistic databases, and even less frequently for /ʉ/. They are notably absent as distinct phonemes in most , where they more often emerge as allophones influenced by surrounding consonants.

Back close vowels

Back close vowels involve a high tongue position with retraction toward the velum, creating a retracted articulation that contrasts with the forward tongue advancement in front close vowels. The unrounded variant, transcribed as /ɯ/, features the tongue body pulled back without lip protrusion and occurs in several East Asian languages. In Japanese, /ɯ/ appears in words such as "kuchi" [kɯ̥tɕi] 'mouth', where it is realized as voiceless in devoiced positions. In Korean, /ɯ/ is exemplified by "nun" [nɯn] 'eye', a central-to-back high unrounded vowel in the language's inventory. The rounded back close vowel /u/ is produced with lip rounding alongside the retracted tongue raise and is nearly ubiquitous across language families. In English, it occurs in "boot" [buʔt], with the lips forming a tight circle to protrude the sound. Similarly, in Arabic, /u/ features in "kul" [kul] 'every' or 'all', maintaining a close back position in Modern Standard Arabic phonology. In some phonetic contexts, back close vowels like /u/ exhibit slight velar coarticulation, where the tongue dorsum anticipates or overlaps with nearby velar consonants, enhancing retraction without altering the primary vowel target. Back close vowels, both rounded and unrounded, appear more frequently in world languages than front rounded close vowels, with /u/ present in approximately 88% of inventories and /ɯ/ in about 6%, attributed to the biomechanical ease of lip when the tongue is already retracted posteriorly. This prevalence underscores their role in basic vowel systems, often paired with lip protrusion that reinforces the back articulation.

Phonological Characteristics

Tenseness and laxness

In the articulation of close vowels, a distinction arises between tense and lax variants, particularly prominent in languages like English. Tense close vowels, such as /i/ in "beat" and /u/ in "boot," are produced with greater muscular tension in the and vocal tract, resulting in a more peripheral position within the vowel space. This heightened effort contributes to their longer duration compared to lax counterparts. Lax close vowels, exemplified by /ɪ/ in "bit" and /ʊ/ in "book," involve relaxed articulation with less tongue tension, leading to a slightly lower and more centralized tongue position—often described as near-close rather than fully close. These vowels are typically shorter in duration and do not occur in word-final open syllables in English, reflecting their reduced articulatory prominence. The tense-lax contrast plays a crucial phonemic role in English, where pairs like /i/ and /ɪ/ or /u/ and /ʊ/ distinguish lexical meanings, as in "beat" versus "bit." This opposition underscores how can serve as a in the inventory. However, the tense-lax distinction is not universal across languages; many, such as Spanish, lack phonemic lax close vowels, treating more centralized variants as allophones of their tense counterparts in unstressed or specific phonetic environments. In these systems, close s like /i/ and /u/ appear without a dedicated lax pair, relying instead on contextual variation for realization.

Distribution in languages

Close vowels are nearly universal in human languages and present in all languages sampled in major databases like the UCLA Phonological Segment Inventory Database (UPSID), though rare exceptions such as Tehuelche exist. An analysis of UPSID, which covers 451 diverse languages, confirms that all sampled languages include at least one high (close) vowel, underscoring their fundamental role in phonological systems. Among these, the close front unrounded vowel /i/ is one of the most common individual vowel phonemes, occurring in approximately 87% of the sampled languages, while the close back rounded /u/ appears in about 81%. These two vowels together form the core high vowels in the vast majority of inventories, reflecting a strong typological bias toward peripheral close positions. Patterns of close vowels vary across language families, revealing both consistencies and distinctive traits. In , /i/ and /u/ predominate as the primary close vowels, often forming the endpoints of larger systems that include mid and low qualities, as seen in expansive inventories like those of English (with 13 vowel qualities) and German (14 qualities). Austronesian languages frequently incorporate the /ɨ/ alongside or instead of /u/, particularly in Oceanic branches; for instance, Sursurunga, Notsi, and Tiang in feature central high vowels as contrastive elements in their five- to seven-vowel systems. In contrast, many Amazonian languages exhibit gaps in rounded close vowels, with some relying on /i/, /ɨ/, and /a/ as a minimal three-vowel system; Pirahã, for example, lacks /u/ entirely, using /ɨ/ to fill the high non-front space. Typologically, close vowels define the extremes of vowel systems worldwide. Minimal inventories, common in the Americas and Australia (e.g., two to four qualities total), typically feature just /i/ and /u/ paired with a low central /a/, ensuring coverage of the high-peripheral space with as few elements as possible. Larger systems, prevalent in Europe and Africa, can expand to include up to six close vowels by adding rounded variants (/y/, /ʉ/) and central ones (/ɨ/, /ɯ/), as in some Niger-Congo languages with 10–14 qualities overall, allowing for finer distinctions in height and backness. Diachronically, close vowels demonstrate resistance to merger and often function as anchors in vowel chain shifts, maintaining stability while adjacent mid vowels adjust around them. In the Great Vowel Shift of Late Middle English (roughly 1400–1700), for example, the close /iː/ and /uː/ diphthongized to /aɪ/ and /aʊ/ only after mid-high vowels like /eː/ and /oː/ had raised toward the high region, preserving the chain's integrity without collapse. This anchoring role highlights their perceptual and articulatory robustness across historical changes.

References

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