The Pages of The Gray WizardPhonetics
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phonetics and phonotactics (londaith na londvenar)ámman îar morphemes are derived from vulánayal roots. These roots are expressed using the phonemes of the protolanguage, which are always represented with capital letters in the charts below to avoid confusion. Pronunciation is specified using the Speech Assessment Methods Phonetic Alphabet (SAMPA). This section describes the the sound system of ámman îar, including:
2.2 phoneticsámman îar has 26 phonemes, 20 consonants and 6 vowels. 2.2.1 consonantsThe consonantal system of ámman îar derived from the much simpler vulánayal consonants in which voice was not a distinguishing phonological feature. 2.2.2 stopsAmong the stops, the following specifics should be noted:
Note that in northern dialects, the unvoiced stops are not well distinguished from the voiced stops
2.2.3 fricativesAmong the fricatives, the following specifics should be noted:
Note that in the eastern dialects, near the mountains, ch is often pronounced /t/ while in the northern dialects, ch is often voiced.
2.2.4 nasalsAmong the nasals, the following specifics should be noted:
2.2.5 approximantsAmong the approximants, the following specifics should be noted:
2.2.6 vowels2.2.6.1 monophthongsámman îar has six vowel monophthongs, i, e, æ a, o, and u.
Front vowels tend to be unlabialized while back vowels tend to be labialized. The vowel in a stressed syllable is usually more tense and is pronounced longer in duration than those in unstressed syllables, but do not represent a different sound. Stressed vowels are written í, é, æ,á, ó, ú. Unfortunately, I have no convenient method of representing stressed æ.
The decision to represent stressed vowels in this fashion was made late in the development of this text and I have, therefore not done so with any consistency. A fault I hope to correct in future.
2.2.6.2 diphthongsThe ámman îar diphthongs are not directly traceable to the protolanguage but seem to have developed early in the development of the modern language.
2.3 phonotacticsWell-formed lexemes in ámman îar are constrained by phonotactic and morphological rules. Phonotactics constrain the arrangements (or 'tactic behavior') of the phonemes that occur in the language. These sequential constraints can be stated in terms of phonotactic rules. 2.3.1 rootsámman îar roots have the following structure: R ::= SS [US] | SS [UCS] | SCS [US] Where
Note: These rules prohibit two sets of consonant clusters in the same root, i.e. *SCS-UCS e.g. *brandras would not be a well formed root.
2.3.2 syllable structure and stressThe following description of syllable structure and stress patterns is based on an analysis done by two eminent conlinguists Dirk Elzinga and Matt Pearson and is known as the Elzinga-Pearson Syllabification/Stress Analysis (EPSSA). Prior to this analysis, syllabification in ámman îar was little studied and even less understood and stress rules required complex descriptions and exceptions. The elegance of this analysis allowed for a much simpler description of these phenomena in ámman îar. This grammar is indebted to these scholars for their pioneering work in this area. Syllable structure in ámman îar is unusual in that it violates certain universal well-formedness constraints which enforce an unmarked syllable structure in favor of constraints that enforce a congruence between morpheme and syllable boundaries. In particular, this congruence constraint violates both the onset requirement (syllables must have onsets) and the NoCoda constraint (syllables must not have codas). For example: The word erinis would traditionally be syllabified as e.ri.nis according to well-formedness constraints, whereas the actually articulated syllabification is er.in.is in which all three syllables violate either the onset requirement and/or the NoCoda constraint and would be considered traditionally ill-formed. This syllabification constraint interacts with the application of stress patterns in complex ways. In order to understand this interaction, one must distinguish between underlying syllabification and surface realizations. Stress assignment operates on the former, while articulated syllabification operates on the latter. Underlying syllabification adheres to the universal well-formedness constraints that are violated in surface realization in favor of morpheme/syllable congruence. In determining stress in ámman îar, words must initially be syllabified according to underlying syllabification constraints. Stress assignment then operates on that underlying representation according to the following stress rule:
Once stress has been so assigned, the syllables are readjusted in surface realizations to conform to the morpheme/syllable congruence constraint. For example: 1. Underlying syllabification - applying universal syllabification constraints :
2. Applying the stress rule :
3.Surface realization - readjusting for morpheme/syllable congruence:
Stress is further complicated in that case inflections cause the stress to shift to the final syllable of the root word. When this causes stress to be located on a light penult in underlying representation, the onset of the final syllable is geminated causing the penult to become heavy. Thus, 1. Underlying syllabification - applying universal syllabification constraints :
2. Applying the stress rule :
3. Applying a case suffix -en.
4.Surface realization - readjusting for morpheme/syllable congruence:
Stress in ámman îar is basically quantitative, i.e. syllables are distinguished by vowel length. Nevertheless, the stressed syllable also has an emphatic character. 2.4 morphophoneticsMorphophonetic change in ámman îar takes several forms including Palatization, Labialization, Nazalization, Assimilation, and Lenition. 2.4.1 palatizationPalatalization of consonants arises where the high front vowel i is present. In a variety of suffixes the root consonant is accommodated to the following front vowel and softened thereby so that it loses its identity and is replaced by another consonant (stop d replaced by fricative dh), thus: ærhad + -is > ærhadhis 2.4.2 labializationUnder the influence of the high labial vowel u, the following changes take place:
2.4.3 nasal assimilationNasals become labialized before bilabial stops.
2.4.4 nasal mutationIn a variety of prefixes the root consonant is accommodated to the preceding nasal through nasal mutation
2.4.5 lenitionIn a variety of prefixes the root consonant is accommodated to the preceding approximant through lenition. The unvoiced stops p, t, c become voiced. The voiced stops b and d become the fricatives v and dh, while g becomes h. m, like b, is lenited to v.
2.4.6 assimilationIn a variety of prefixes the root consonant is accommodated to the preceding sibilant through assimilation.
2.4.7 consonant cluster shiftsWhen both the syllable final consonant of the stressed syllable and the initial consonant of the unstressed syllable are selected, consonant clusters are possible, but not all such clusters are well formed. The following shifts occur:
vowel deletionUnstressed vowels have a tendency to be deleted when followed by another syllable badir+is > badris |