3.1.1 Tense marking GTs

In Gyeli, tone is the (near) sole exponent to distinguish seven tense-mood categories, as shown in Table 4.Footnote ¹⁴ GT is assigned to the preverbal stamp clitic and the non-initial verb stem syllables through attachment of floating tones to the right of both hosts (or, in the case of surface L, lack thereof). In verb stems that have three syllables, this also includes the phonological operation of HTS to the left onto the second stem syllable. A crucial point of this analysis is that I view both hosts – the stamp clitic and non-initial verb syllables – as underlyingly toneless, as I will explain below. The combinations of tone patterns on the stamp clitic and the verb stem for different syllable lengths are given in Table 3, distinguishing verb tones in phrase-final and phrase-medial position.

Table 4 GTs encoding tense in basic predicates (phrase-final).

I argue that Gyeli has unvalued TBUs, which surface as L phonetically or receive their tonal specification from their grammatical environment. These include i) noun prefixes of a CV shape (e.g. ba-kùsì ‘parrots’, le-nángá ‘star’), as described in §2.2; ii) the preverbal clitic stamp, which encodes subject agreement, tense, aspect, mood and polarity; iii) the present negation suffix -lɛ; iv) the postverbal plural marker nga; and most importantly for GT in the VP, v) non-initial syllables of the verb stem (e.g. bìyɔ ‘hit’, lúmɛlɛ ‘send’). With only a few functional morphemes that are tonally unvalued, Gyeli has a relatively high tonal density (Gussenhoven Reference Gussenhoven2004; Hyman Reference Hyman2009): the proportion of valued TBUs, that is, those that are underlyingly H, L, HL or LH, is high compared to unvalued ( $\emptyset $ ) TBUs. This is true for all lexical and functional parts of speech, such as nouns, adjectives, ideophones, adverbs, pronouns, demonstratives and adpositions, with the notable exception of verbs. As shown in Table 5, only stem-initial syllables are valued with lexical tones (as also shown in §2.3), amounting to 377 valued TBUs, whereas 365 TBUs of non-initial syllables are unvalued. Thus, verb stems exhibit a medium level of tonal density, while most verbal clitics (the stamp marker) and verbal affixes (plural suffix, present negation suffix and all verb extension suffixes such as causative, applicative, passive or reciprocal) are unvalued.Footnote ¹⁵

Table 5 Distribution of underlying tones in verb stems.

Non-initial verb syllables are best viewed as underlyingly toneless instead of L-toned. While there is ultimately no knockdown evidence for this analysis, I use the criterion of simplicity to justify my choice of treating non-initial verb syllables as toneless. Distributional asymmetry is one line of evidence for underspecification, although it is not sufficient by itself (Marlo & Odden Reference Marlo, Odden, Velde, Bostoen, Nurse and Philippson2019: 152). There is a clear asymmetry in Gyeli between noun stems, which allow nearly all possible tonal combinations (Table 1) as well as contour tones (Table 2), and verb stems, which allow lexical tonal contrasts only on their initial syllables (Table 5). Phonologically toneless TBUs, such as noun prefixes and non-initial verb syllables, predictably surface as L phonetically unless they receive another tone from some other source.

Another argument for proposing a ternary distinction between H, L, and $\emptyset $ TBUs is that it is consistent with what is found in other languages in the area. For instance, Marlo & Odden (Reference Marlo, Odden, Velde, Bostoen, Nurse and Philippson2019: 152) distinguish verb-stem–initial L from subsequent $\emptyset $ in the closely related language Mokpwe (A22). The evidence they put forth is behaviour under HTS. In Mokpwe, word-final ‘melodic’ H tones spread to the left, up to but not including the root (stem-initial) syllable, just like in Gyeli. The best explanation for this limit on the spread is in both cases to posit roots that are specified L or H, while intervening TBUs are toneless. This is exemplified with H attachment in (11) for the trisyllabic Gyeli verb vìdega ‘turn’ (Grimm Reference Grimm2021: 110); in disyllabic stems, the H only attaches to the second TBU.

Verbs with a H root maintain this H tone under H attachment so that the entire stem surfaces H, assuming that Obligatory Contour Principle (OCP) violations are silently resolved by tone fusion.

There are two alternative ways to analyse underlying non-initial verb tones in Gyeli, assuming in both that all syllables in verbs are valued, which I argue against. In the first alternative, all non-initial verb TBUs are specified with L tones. These are delinked and replaced under H attachment. Attached H tones spread to the left, with a phonological restriction against spreading to initial syllables. This, however, can be ruled out, since monosyllabic verbs show that root tones can be targeted: kɛ̀ ‘go’ becomes kɛ́. Another possibility in favour of underlying L tones could be that grammatical H tones do not target the right edge of the verb but second syllables, spreading rightwards instead. In this scenario, the (possible) non-initial L tones are delinked and replaced. Indeed, it is common in Bantu languages for GTs to target specific positions in the verb stem, such as the second mora or the penultimate syllable.Footnote ¹⁶ Positing second-syllable targets with rightwards spread, however, makes it harder to explain tonal changes on monosyllabic verbs.

A second hypothesis is that non-initial syllables receive their specification through tone spreading from the root syllable, that is, verbs with an initial H are specified all H and initial L verbs are specified all L. In this scenario, in L-toned verbs, H spreads leftwards and delinks all but the initial association of the L tone, maintaining the lexical contrast of the root.Footnote ¹⁷ This view, however, does not easily account for the tonal patterns found in simple predicates, failing to explain how all verbs, irrespective of their underlying specification with H or L, end up with the same tone patterns in different tam categories. To make this alternative work, one would need to assume more rules than are necessary under my analysis. First, there is a need to explain how L-toned verbs surface as H in phrase-medial position and only in certain tam categories, requiring the attachment of a H. In turn, one also needs to explain how H-toned verbs surface with L on non-initial syllables in phrase-final position, but again not in all tam categories. This would require the attachment of a L, possibly a boundary L% tone, which I argue against in §3.1.2.

As for the stamp clitic, it is difficult, if not impossible, to prove the underlying tone of this marker since it cannot appear outside of a grammatical context which serves as trigger for a specific GT. In parallel to non-initial verb syllables, I view stamp clitics as underlyingly toneless, with the segmental part contributing person agreement and the tonal exponent contributing tamp marking.

Given that the stamp marker and the verb are two separate words,Footnote ¹⁸ I analyse the floating tones as separate as well (rather than constituting a circumfix). Assuming two distinct floating tones is in line with the relative independence of the verb tone, showing functional divisions into non-past ( $\emptyset $ ), past (H) and tenseless (HL). Although verb and stamp tone patterns work in parallel to arrive at the seven categories in the paradigm, the tonal form of one tonal host does not condition the tonal pattern of the other.

Whereas floating tones on verbs clearly attach to the right of the verb, as illustrated in (11), it seems difficult to linearise the segmental part of the stamp morpheme and its floating tone. Since the stamp morpheme is underlyingly toneless, no difference would be observable whether one postulated the tone to dock on the left or the right of the stamp marker. Although there is no formal evidence for linearisation, I assume that the floating tone attaches to the right for historical reasons, and by analogy with other Bantu languages. In Bantu languages, tam information usually follows subject agreement morphemes. Historically, Gyeli likely had segmental co-exponents for tam marking between the subject agreement marker and the verb but lost the tam segments. Closely related languages such as Kwasio, for instance, exhibit a mixture of segmental and tonal morphology between the subject marker and the verb (§5).

Some stamp clitic forms are also lengthened. There is, however, a predictable relationship between lengthening and tone pattern, where a LH or HL pattern co-occurs with a long vowel. This could be analysed not as co-exponence per se, but as a phonotactic restriction, requiring that stamp markers not have monomoraic contour tones. To accommodate the LH or HL tone pattern, the vowel is lengthened. In contrast, with the subjunctive, the lengthened vowel is an instance of co-exponence, a specific requirement for final vowel lengthening. As the imperative allows monomoraic contour tones, a phonotactic restriction for the verb can be ruled out. Thus, the subjunctive marking GT6b has a suprasegmental co-exponent (§3.2.1).

3.1.2 Realis mood marking GT

Every tense category also belongs inherently to a mood category, distinguishing realis from irrealis. This mood distinction is expressed through the presence (realis) or absence (irrealis) of GT7 that, unlike GT1–GT6b, only attaches to the right of the finite verb stem if the verb is in phrase-medial position. The present tense, for instance, belongs to the realis mood. As shown in (12) (Grimm Reference Grimm2021: 389), the verb surfaces as L in phrase-final position, as expected from the GT1 pattern. Phrase-medially, however, the verb stem takes the realis-marking GT7 and surfaces as H.

The presence of GT7 is solely conditioned by the tense category of the verb and not by the morphosyntactic material that follows the verb, since any phrase-internal material that follows the verb in realis tenses triggers the GT7 H to surface. Tense and mood categories are thus intrinsically connected, and so I generally refer to them as tense-mood categories. The distribution of tense-mood categories across realis and irrealis is shown in Table 6 (Grimm Reference Grimm2021: 387).

Table 6 Distribution of realis and irrealis categories.

One may question the evidence for the realis-marking GT7, given that it is directly observable only in the present and the inchoative. The other two categories that surface as H phrase-medially, namely the recent and remote past, are also H phrase-finally through their tense-marking tones (GT4 and GT5). Alternatively, one could assume that there is no realis-marking tone, but that the phrase-medial H tones in the present and inchoative are part of the tense-marking patterns GT1 and GT2, which are lowered in phrase-final position. The surface contrast between H and non-H, however, clearly partitions the tam categories into realis and irrealis. In my opinion, these semantic patterns should not be lightly dismissed as arbitrary phonological patterns. Since tam categories are typically syncretic, it would not be unexpected if tense in the past forms was marked by the same H tone as mood.Footnote ¹⁹

Additionally, I argue against L% boundary tones in Gyeli since they would not apply across tam categories. On the one hand, the past tenses in phrase-final position are marked with a final H on the verbs, unlike all other tam categories. On the other hand, in phrase-medial position, the future, imperative and subjunctive all end in L, whereas the other categories have a H tone.Footnote ²⁰ This seems unexpected for a tone that marks prosodic domain edges. One could make this work by assuming that lowering only applies to the floating H tone that attaches to verbs in the present and inchoative, taking medial forms as the default and final forms as special cases. It is simpler, however, to posit that final forms are the default and medial patterns those with added tonal morphology, since only one operation (floating H phrase-medially) is needed instead of two (floating H phrase-medially and lowering phrase-finally): a floating H attaches phrase-medially in certain tam categories, whereas all instances of final L are the phonetic surface forms of underlyingly toneless TBUs. Gyeli has one exception where final lowering occurs, namely in monosyllabic H verbs, which are lowered to HL in non-finite and phrase-final forms. I view this as a case of alignment to imitate the surface pattern of non-initial syllables in the same grammatical contexts.Footnote ²¹

3.1.3 Object-linking H tone

I analyse GT8 as a floating H, which immediately follows the lexical (finite or non-finite) verb and gets realised on the immediately following TBU whenever there is an in-situ object immediately after the verb. The host of GT8 is either a CV noun prefix on the object or an intervening verbal plural marker nga, both of which are underlyingly toneless. As I view the function of this GT to be to flag the presence of a syntactic object in situ, I gloss it as obj.link. GT8 can only surface when the object has an unvalued TBU, that is, a CV noun prefix, as in (13). Nouns with a C prefix or a $\emptyset $ prefix do not undergo any tonal change, nor do pronominal objects.

The examples in (13) also show that the H on a postverbal object prefix does not stem from HTS, which it could be mistaken for in the many cases in which tense- and mood-marking GTs attach to the preceding verb stem. GT8 occurs in all tense, aspect, mood and polarity categories, including those that do not take a H tone on the preceding verb stem.

While Gyeli allows free ordering of the two objects in ditransitive constructions, only the object that is closest to the verb is marked by the object-linking GT, as shown in (14). This can be naturally explained by the GT’s location immediately after the lexical verb.

The functional distinction that GT8 makes can be neatly observed when comparing immediate-after-verb arguments to oblique NPs. Oblique NPs, as in (15), do not take the object-linking H tone.Footnote ²²

The object-linking H tone occurs after the non-finite lexical verb in complex predicates, as in (16), since it is the non-finite verb that is transitive and carries this morphological marker, not the auxiliary. In contrast, tense- and mood-marking GTs only attach to finite verb forms.

When the verbal plural marker nga used in imperative and hortative constructions intervenes between the verb and the object, GT8 is realised on the plural marker instead of the nominal object prefix. The clitic nga is underlyingly toneless and surfaces as L when the verb is phrase-final, as in (17a). If there is an object, however, as in (17b), the plural clitic ‘steals’ GT8 from its target, hosting the H tone, while the object prefix surfaces as L. These examples also show that the presence of an immediate-after-verb object is required for GT8 to surface: if the object is elided, as in (17a), GT8 does not attach.Footnote ²³

The verbal plural clitic nga receives its tone purely phonologically, either by insertion of a default L or by rightward HTS. Thus, in complex predicates such as in (18), nga receives its H tone from the preceding auxiliary, while GT8 surfaces on the object noun prefix.

3.2.1 GT co-exponent with vowel lengthening

Suprasegmental co-exponence is minimally complex and involves vowel lengthening, that is, the addition of a mora. In simple verbal predicates, this type of co-exponence is restricted to the subjunctive (GT6a in Table 4). Verb stems in other tense-mood categories always end in a short vowel. In contrast, I do not consider the lengthened stamp clitics in the inchoative, the future and the remote past as instances of co-exponence, since their occurrence can be explained as a phonotactic restriction in stamp morphs to accommodate HL and LH tones (§3.1.1).

Another case of GT co-exponence with vowel lengthening concerns demonstratives and certain adverbs, which use final vowel length in conjunction with a H tone to express deictic distance. As shown in Table 7 for all nine agreement classes, proximal demonstratives have a short vowel and a HL lexical tone.Footnote ²⁴ The distal demonstrative is derived from the proximal base form by adding a morpheme that consists of a lengthened vowel accompanied by a H GT co-exponent.

Similarly, the adverbs wû ‘there’ and pɛ̀ ‘there’ can take a final H tone, together with final vowel lengthening, to mark distance. This is shown for the adverb pɛ̀ in (19), with the unmarked form in (19a) and the distal form in (19b).

3.2.2 GT co-exponent with segmental morphemes

The next level of complexity involves bound segmental morphemes, which in the case of Gyeli are suffixes. Among the two suffixes that co-occur with GT, the vocative fits in with the tonal pattern and functionality of the deictic distance system with a predictable H signalling distance. The difference is, however, that the vocative has a dedicated segmental suffix -o and not only vowel lengthening, as used by demonstratives and some adverbs (§3.2.1). Vocative suffixes attach to proper names, as in (20), and to certain adverbs, as in (21). A L vocative suffix encodes proximity to the addressee, whereas a H vocative suffix encodes distance.

There is another segmental co-exponent suffix, -lɛ, which encodes present tense negation. As shown in Table 8, H-toned verbs surface as all H, including the negation suffix, regardless of the length of the stem. In contrast, L roots are realised with H on the initial syllable. In monosyllabic stems, the negation suffix is then also H, whereas di- and trisyllabic verbs are all L for non-initial syllables, including the negation suffix.

Table 8 Tone patterns with the present tense negation suffix -lɛ.

The accompanying GT pattern deviates from the basic affirmative present tense-mood pattern, as shown in (22). While the verb stem in the affirmative present surfaces as L phrase-finally but with a realis-marking H tone phrase-medially, as in (22a), present negation does not take the medial H tone, as in (22b). For this reason, I classify it as an irrealis category. This is consistent from a semantic perspective, given that it is typologically frequent for negation to correlate fully or partially with irrealis marking, although this does not apply systematically (cf. Elliott Reference Elliott2000).

The negation pattern is an instance of systematic co-exponence, differing from its affirmative counterpart in two predictable ways. First, the stamp clitic receives a LH floating tone in the first and second person singular and agreement class 1, while only the other subject agreement forms are identical to the H stamp clitic of the affirmative present, as shown in (22).

Second, the present negation form on the verb consists of a H tone which attaches at the left edge of the verb stem and an underlyingly toneless negation suffix -lɛ, which receives its tone from the preceding syllable. Table 9 illustrates the analysis of the data presented in Table 8. The H tone displaces the lexical tone rightwards onto the second syllable of the stem. In H-toned roots, the lexical H shifts rightwards and then spreads rightwards, resulting in an all-H form. In L-toned roots, the lexical L shifts rightwards and spreads or is realised as L by default. If there is no second syllable of the verb to shift to, the lexical L is not realised, and the H of the tonal co-exponent spreads onto the negation suffix.

Table 9 Present negation co-exponents H-…-lɛ.

With the addition of the segmental negation suffix -lɛ and its tonal co-exponent, the patterns of tense-marking GT in the affirmative do not apply. The cue for the lexical contrast in monosyllabic verb stems is lost as all negated monosyllabic stems surface as all H, as shown in (23).

3.2.3 GT co-exponent with auxiliaries in complex predicates

The co-exponent type that is structurally most complex involves true auxiliaries in complex predicates.Footnote ²⁵ In contrast to the other types of co-exponents, their tonal co-exponents are arbitrary, as each auxiliary has its own unpredictable tonal cophonology. The opposition of (24a) and (24b) shows that this is not a property of complex predicates per se, since modal semi-auxiliaries such as kwálɛ ‘like’ take the same tonal inflection patterns as simple predicates, for example, in the present tense with a H on the stamp and a realis-marking H phrase-medially.

True auxiliaries encode both aspect and negation. Just like modal (semi-auxiliary) verbs, they act as the inflected verb form, whereas the lexical verb is non-finite. They cannot, however, host tense-marking GT1–GT6a (§3.1.1), but instead display their own tone patterns, as in (24c), where the stamp clitic surfaces with L instead of the expected H of the present tense.

While presenting the entire auxiliary system of Gyeli exceeds the scope of this article,Footnote ²⁶ I choose several examples which illustrate that tonal co-exponence with auxiliaries is arbitrary and that the functional load of GT in these constructions is too weak to contribute enough information to distinguish between grammatical categories.

The arbitrary tonal patterns of auxiliaries heavily restrict most forms to a specific tense-mood category. For instance, the progressive has three segmental forms: nzíí for present progressive, nzí for recent and remote past, and nzɛ́ɛ́ for progressive in subordinate clauses (and none for the future). Each segmental marker determines the tonal pattern of the stamp clitic, as I discuss below. In fact, the information that GT as sole exponent carries in simple predicates is entirely lost in auxiliary constructions, both with the stamp clitic and verb stems.

Floating tones on stamp clitics in auxiliary constructions do not contribute information to tense distinctions because of their lack of systematic oppositions. In addition to their differing patterns from simple predicates, some stamp clitics show paradigm-internal variation, which seems to be parallel to simple predicate patterns. An example is the stamp clitic pattern found with the future negation auxiliary kálɛ̀ with a split between a long stamp with a HL pattern for most subject agreement forms and a long L surface pattern for the first and second person singular and agreement class 1. The same pattern holds in the future marking of simple predicates (Table 4). This pattern identity across simple and complex predicates is, however, unpredictable. There are counterexamples, such as the prospective marker múà, which has a H stamp clitic in most subject agreement classes, but L in first and second person singular and agreement class 1, as shown in (25). This paradigm-internal split does not cluster with any tam category in simple predicates.

Tonal patterns on the segmental part of auxiliaries seem also unpredictable. Most of them end in a H tone, including all three progressive forms nzíí, nzí, nzɛ́ɛ́, the retrospective marker lɔ́, the perfect marker bwàá, the past negation sàlɛ́/pálɛ́ and the imperative and infinitival negator tí. Only the prospective marker múà, the future negation marker kálɛ̀ and the subjunctive negation marker dúù surface with non-H tones. Since auxiliaries can never occur phrase-finally, it is impossible to test whether final H tones are lexically specified or a result of H attachment as proposed for the realis-marking GT7. For this reason, the contribution of GT to mood marking in auxiliary constructions is unclear. In fact, there is a fundamental question as to how much GT there is in these auxiliary constructions. One may argue that the tone on the auxiliary itself is lexical, and only the tone on the stamp morpheme is grammatical. An argument for this is that the true auxiliaries are highly lexicalised forms likely derived from archaic verb forms and so maybe their tones have become lexicalised as well. An argument for viewing auxiliary tones as GTs, on the other hand, is their parallel structure with other (simple and complex) predicates, which all involve GTs on the stamp morpheme and the finite verb form. I do not see any conclusive evidence for either option. I have shown in this section that, with increasing segmental complexity, the information that GT contributes to the meaning becomes less paradigmatic and its functional load weaker.