Phonotactics
Template:Short description Template:More footnotes needed Template:Expert needed Template:IPA notice Phonotactics (from Ancient Greek Template:Transliteration Template:Gloss and Template:Transliteration Template:Gloss)<ref>Template:LSJ, Template:LSJ</ref> is a branch of phonology that deals with restrictions in a language on the permissible combinations of phonemes. Phonotactics defines permissible syllable structure, consonant clusters and vowel sequences by means of phonotactic constraints.
Phonotactic constraints are highly language-specific. For example, in Japanese, consonant clusters like Template:IPA do not occur. Similarly, the clusters Template:IPA and Template:IPA are not permitted at the beginning of a word in Modern English but are permitted in German and were permitted in Old and Middle English.<ref>Template:Cite journal</ref> In contrast, in some Slavic languages Template:IPA and Template:IPA are used alongside vowels as syllable nuclei.
Syllables have the following internal segmental structure:
Both onset and coda may be empty, forming a vowel-only syllable, or alternatively, the nucleus can be occupied by a syllabic consonant. Phonotactics is known to affect second language vocabulary acquisition.Template:Sfn
Sonority sequencing principle
Segments of a syllable are universally distributed following the sonority sequencing principle (SSP), which states that, in any syllable, the nucleus has maximal sonority and that sonority decreases as you move away from the nucleus. Sonority is a measure of the amplitude of a speech sound. The particular ranking of each speech sound by sonority, called the sonority hierarchy, is language-specific, but, in its broad lines, hardly varies from a language to another,<ref>Template:Cite journal</ref> which means all languages form their syllables in approximately the same way with regards to sonority.
To illustrate the SSP, the voiceless alveolar fricative Template:IPA is lower on the sonority hierarchy than the alveolar lateral approximant Template:IPA, so the combination Template:IPA is permitted in onsets and Template:IPA is permitted in codas, but Template:IPA is not allowed in onsets and Template:IPA is not allowed in codas. Hence slips Template:IPA and pulse Template:IPA are possible English words while *lsips and *pusl are not.
The SSP expresses a very strong cross-linguistic tendency, however, it does not account for the patterns of all complex syllable margins, as there are both initial as well as final clusters violation the SSP, in two ways: the first occurs when two segments in a margin have the same sonority, which is known as a sonority plateau. Such margins are found in a few languages, including English, as in the words sphinx and fact (though note that phsinx and fatc both violate English phonotactics).
The second instance of violation of the SSP is when a peripheral segment of a margin has a higher sonority than a segment closer to the nucleus. These margins are known as reversals and occur in some languages including English (steal Template:IPA, bets Template:IPA) or French (Template:Lang Template:IPA but originally Template:IPA, Template:Lang Template:IPA).<ref>Template:Cite journal</ref>
Examples
English
The English syllable (and word) twelfths Template:IPA is divided into the onset Template:IPA, the nucleus Template:IPA and the coda Template:IPA; thus, it can be described as CCVCCCC (C = consonant, V = vowel). On this basis it is possible to form rules for which representations of phoneme classes may fill the cluster. For instance, English allows at most three consonants in an onset, but among native words under standard accents (and excluding a few obscure loanwords such as sphragistics), phonemes in a three-consonantal onset are limited to the following scheme:<ref>Template:Cite book</ref>
- Template:IPA + stop + approximant:
- strap
- Template:IPA + Template:IPA + Template:IPA (not in most accents of American English)
- stew
- sputum
- sprawl
- splat
- skew
- scream
- sclerosis
- squirrel
This constraint can be observed in the pronunciation of the word blue: originally, the vowel of blue was identical to the vowel of cue, approximately Template:IPA. In most dialects of English, Template:IPA shifted to Template:IPA. Theoretically, this would produce Template:IPA. The cluster Template:IPA, however, infringes the constraint for three-consonantal onsets in English. Therefore, the pronunciation has been reduced to Template:IPA by elision of the Template:IPA in what is known as yod-dropping.
Not all languages have this constraint; compare Spanish Template:Lang Template:IPA or French Template:Lang Template:IPA.
Constraints on English phonotactics include:<ref>Template:Cite book</ref>
- All syllables have a nucleus
- No geminate consonants
- No onset Template:IPA
- No Template:IPA in the syllable coda (except in Hiberno-English)
- No affricates in complex onsets (except when underlying Template:IPA and Template:IPA are analysed as Template:IPA and Template:IPA)<ref>Template:Cite journal</ref>
- No Template:IPA in complex onsets
- The first consonant in a complex onset must be an obstruent (e.g. stop; combinations such as *ntat or *rkoop, with a sonorant, are not allowed)
- The second consonant in a complex onset must not be a voiced obstruent (e.g. *zdop does not occur)
- If the first consonant in a complex onset is not Template:IPA, the second must be a liquid or a glide
- Every subsequence contained within a sequence of consonants must obey all the relevant phonotactic rules (the substring principle rule)
- No glides in syllable codas (excluding the Template:Linktexts of diphthongs)
- The second consonant in a complex coda must not be Template:IPA, Template:IPA, Template:IPA, or Template:IPA (compare asthma, typically pronounced Template:IPAc-en or Template:IPAc-en, but rarely Template:IPAc-en)
- If the second consonant in a complex coda is voiced, so is the first
- An obstruent following Template:IPA or Template:IPA in a coda must be homorganic with the nasal
- Two obstruents in the same coda must share voicing (compare kids Template:IPAc-en with kits Template:IPAc-en)
Ancient Greek
Like English and some other Indo-European languages, Ancient Greek allowed onset clusters beginning in Template:IPA which violate the SSP, such as Template:Lang (stadion) or Template:Lang (sphragis: note that Template:Lang was originally pronounced Template:IPA). Ancient Greek also included initial consonant clusters such as Template:IPA in Template:Lang (Ptolemy) and Template:IPA in Template:Lang (bdellion): unlike their borrowed versions in English, all the consonants were pronounced.<ref name="Goldstein">Template:Harvnb</ref>
Japanese
The sound structure of Japanese is relatively straightforward compared to English.
Notes and reference
Notes
References
- Bailey, Todd M. & Hahn, Ulrike. 2001. Determinants of wordlikeness: Phonotactics or lexical neighborhoods? Journal of Memory and Language 44: 568–591.
- Coleman, John S. & Pierrehumbert, Janet. 1997. Stochastic phonological grammars and acceptability. Computational Phonology 3: 49–56.
- Frisch, S.; Large, N. R.; & Pisoni, D. B. 2000. Perception of wordlikeness: Effects of segment probability and length on processing non-words. Journal of Memory and Language 42: 481–496.
- Gathercole, Susan E. & Martin, Amanda J. 1996. Interactive processes in phonological memory. In Cognitive models of memory, edited by Susan E. Gathercole. Hove, UK: Psychology Press.
- Hammond, Michael. 2004. Gradience, phonotactics, and the lexicon in English phonology. International Journal of English Studies 4: 1–24.
- Gaygen, Daniel E. 1997. Effects of probabilistic phonotactics on the segmentation of continuous speech. Doctoral dissertation, University at Buffalo, Buffalo, NY.
- Greenberg, Joseph H. & Jenkins, James J. 1964. Studies in the psychological correlates of the sound system of American English. Word 20: 157–177.
- Template:Cite encyclopedia
- Template:Cite book
- Luce, Paul A. & Pisoni, Daniel B. 1998. Recognizing spoken words: The neighborhood activation model. Ear and Hearing 19: 1–36.
- Newman, Rochelle S.; Sawusch, James R.; & Luce, Paul A. 1996. Lexical neighborhood effects in phonetic processing. Journal of Experimental Psychology: Human Perception and Performance 23: 873–889.
- Ohala, John J. & Ohala, M. 1986. Testing hypotheses regarding the psychological manifestation of morpheme structure constraints. In Experimental phonology, edited by John J. Ohala & Jeri J. Jaeger, 239–252. Orlando, FL: Academic Press.
- Orzechowska, Paula; Wiese, Richard. 2015; Preferences and variation in word-initial phonotactics: a multi-dimensional evaluation of German and Polish. Folia Linguistica 49: 439-486.
- Pitt, Mark A. & McQueen, James M. 1998. Is compensation for coarticulation mediated by the lexicon? Journal of Memory and Language 39: 347–370.
- Storkel, Holly L. 2001. Learning new words: Phonotactic probability in language development. Journal of Speech, Language, and Hearing Research 44: 1321–1337.
- Storkel, Holly L. 2003. Learning new words II: Phonotactic probability in verb learning. Journal of Speech, Language, and Hearing Research 46: 1312–1323.
- Vitevitch, Michael S. & Luce, Paul A. 1998. When words compete: Levels of processing in perception of spoken words. Psychological Science 9: 325–329.
- Vitevitch, Michael S. & Luce, Paul A. 1999. Probabilistic phonotactics and neighborhood activation in spoken word recognition. Journal of Memory and Language 40: 374–408.
- Vitevitch, Michael S.; Luce, Paul A.; Charles-Luce, Jan; & Kemmerer, David. 1997. Phonotactics and syllable stress: Implications for the processing of spoken nonsense words. Language and Speech 40: 47–62.
- Vitevitch, Michael S.; Luce, Paul A.; Pisoni, David B.; & Auer, Edward T. 1999. Phonotactics, neighborhood activation, and lexical access for spoken words. Brain and Language 68: 306–311.'