4.1 Semantics

Semantically, Tjwao onomatopoeias can be divided into two main types: onomatopoeias that imitate sounds produced by animate beings (animals and humans) and onomatopoeias mimicking sounds emanating from inanimate sources (natural phenomena and objects). Additionally, in some cases, onomatopoeias simulate sounds made by humans through the means of specific objects. The sources of these sounds thus have both an animate and inanimate component.

The largest semantic class of onomatopoeias – specifically 83 tokens – imitates sounds that are produced by animate beings. Within this class, sounds made by animals are the most common, with 56 tokens attested. This is most likely related to the significance of the animal kingdom for daily life of the Tjwa community.

The larger part of animal onomatopoeias, specifically 34, simulate noises typical of wild species, which may be vocal (more commonly) or non-vocal (much less commonly). The fact that wild species are the main source of animal-driven onomatopoeias reflects the critical relevance of wild fauna for the life of the Tjwa community.

Sounds made by birds constitute the main bulk of wild-animal onomatopoeias, amounting to 15 tokens. They imitate noises made by a woodpecker (kekekekeke, kakakakaka, teee), owl (hm-hm-hm-hm and tcuaaa), yellow-billed hornbill (kokoko(koko), ground hornbill (huduhuduhudu), jacobin cuckoo (tc'uaaa), and zwan bird (zuanzuanzuan), as well as birds in general, irrespective of their exact taxonomy (djuidjuirrrdjuidjuirrr, prrr, tatarata, tcuatcuatcuatcua, ts-ts-tsui, tsuatsuatsuatsua). For woodpeckers and owls – two species that have more than one onomatopoeia associated with each of them – the attested lexemes are not synonymous. That is, teee imitates an alarm sound produced by a woodpecker, in contrast to kekekekeke and kakakakaka, which imitate all-purpose cries. Tcuaaa imitates a sound made by small owls, in contrast with hm-hm-hm-hm that refers to all types of owls. With regard to general bird sounds, djuidjuirrrdjuidjuirrr, ts-ts-tsui, tatarata, and tsuatsuatsuatsua mimic sounds produced vocally – the last one of them representing a cry used in fights. In contrast, prrr (often but not exclusively used with reference to Cape starlings) and tcuatcuatcuatcua mimic sounds that birds make with their wings while flying. Mammals are a slightly less common source of onomatopoeias, with 12 tokens attested. These onomatopoeias imitate vocal sounds produced by lions (xõõõ, xãããõ, vrrrvrrr), wild pigs (djwiii), elephants (vrrr), buffalos (vu), wolves (waawaa), wild dogs (duadua), hippopotami (xoopopopopopo), kudus (xoʔ), wildebeests (mboomboo), and springboks (aa-aa-aa). The cry made by a wild pig refers specifically to situations when the animal is captured; the onomatopoeia associated with an elephant mimics a sound that is produced in the animal's stomach during digestion. Onomatopoeias imitating sounds made by lower animals are much less common. There are four such lexemes referring to reptiles or amphibians (frogs – kx'uakx’uakx'ua and ʒi; snakes or lizards – ccc, and chameleons – haaa) and three others referring to insects (bees – wiii ₁ produced with a higher pitch/frequency; flies – wiii ₂ produced with a lower pitch/frequency (see section 3.2); and mosquitoes – lelelelelele). Overall, the evidence presented above reveals the following hierarchy of species in wild-animal onomatopoeias, in which the type occupying the more-to-the-left position is more common than the type(s) occupying more-to-right-position: birds → mammals → reptiles/amphibians → insects.

With 22 tokens attested, onomatopoeias that imitate sounds made by domestic animals are less numerous than onomatopoeias mimicking noises produced by wild animals. As mentioned above, it is likely that the dissimilar contribution of wild and domestic animals to the onomatopoeic lexicon in Tjwao reflects the economy of the Tjwa community, which has been more hunting-gathering based than farming based.

In a further divergence from wild animals’ onomatopoeias, mammals – rather than birds – are the most common source of words mimicking domestic animals’ sounds. There are 15 such lexemes. They simulate sounds made – in most cases, vocally (see, however, krpukrpu and khokhokhokhokhokho below) – by the following species: dogs (grrr, wauwau, kl'uakl’ua, kx'aikx’ai, kx'uakx’ua, and wohwoh), donkeys (oo-o-o-o and krpukrpu), horses ((h)ihihihihi, lihihihi, and khokhokhokhokhokho), cats (ŋããũŋããũ), cows (mhuuumhuuu), goats (meeemeee), and bulls (bhuu). There are seven onomatopoeias related to domestic birds – all of them poultry: chickens (kokoguuu, kokokogokokokogo, ʔeʔeʔeʔeʔeee, kokokokoko(oo), and tsuiyotsuiyo), geese (cc-cc), and guinea fowls (tcatcatcaaa). As is evident from the above list, the largest number is associated with the species of dogs (6x) and chickens (5x), which reflects the significance of these animals in the Tjwao community and their common presence in local homesteads. The semantic trait that differentiates the various dog-related onomatopoeias concerns the characteristic manner with which the animal produces a vocal call, that is, barking (wohwoh and wauwau), growling (grrr), and whimpering while being beaten (kx'aikx’ai and kx'uakx’ua). Additionally, one lexeme is specific to puppies (kl'uakl’ua). With regard to onomatopoeias imitating sounds made by chickens, some lexemes are associated with roosters (kokoguuu, ʔeʔeʔeʔeʔeee, and kokokogokokokogo – the last one being used to attract a female), while others are typical of hens (kokokokoko(oo)) and small chicks (tsuiyotsuiyo). As for donkeys’ onomatopoeias, oo-o-o-o imitates a vocal cry, while krpukrpu imitates a sound produced when the animals scratch each other's backs. Lastly, regarding the onomatopoeias associated with horses, (h)ihihihihi and lihihihi mimic cries of neighing, while khokhokhokhokhokho simulates a sound made during galloping. Overall, the hierarchy of species in domestic-animal onomatopoeias differs from the hierarchy typifying wild-animal onomatopoeias and exhibits the following structure: mammals → birds.

Onomatopoeias imitating sounds made by humans are much fewer than those imitating animal sounds that were described above. To be exact, 27 lexemes are human onomatopoeias. Nine tokens mimic vocal sounds, namely: laughing (ehehehehe, ahahahaha, ohohohoho), yawning (oooaaa and oooeee), sneezing (atsu), kissing (↓B’), spitting (phu), and singing (mmm and tũthuthutũthuthutũthuthutũthuthu). The three laughter onomatopoeias are associated with different types of laughter: light (ehehehehe), heavy (ohohohoho), and indefinite, that is, both light and heavy (ahahahaha). (This relationship of the vowels e, o, and a found in laughter onomatopoeias in Tjwao with specific types of laughter largely matches the universal behaviour of laughter onomatopoeias described in typological literature; see Xhosa (Andrason Reference Andrason2021c), Polish (Andrason Reference Andrason and Tarsi2021a), and Danish (Levisen Reference Levisen2019).) Seventeen tokens mimic non-vocal sounds made by humans, that is, noises produced while walking (|ha|ha|ha, tcatcatca, |hap|hap|hap|hap, khapakhapakhapa, and gubugubugubu), breaking wind (buu, piii, and tccc), dancing (dididididididi and tcatcaratcatcaratcatcaratcatcara), clapping (ng|eng|eng|eng|eng|eng|e and ǃhaǃhaǃha), peeing (tcxuaaa), having diarrhea (tcuaxx), jumping (g|ug|ug|u), and scratching (xuaxuaxua), as well as the sound made by a beating heart (txitxitxi). The five walk-related onomatopoeias are not synonymous: |ha|ha|ha refers to all types of walking; tcatcatca refers to walking on leaves; |hap|hap|hap|hap and khapakhapakhapa refer to walking on shallow water; and gubugubugubu refers to walking on deep water. The two dance-related onomatopoeias depict dancing accompanied by either traditional (dididididididi) or modern (tcatcaratcatcaratcatcaratcatcara) music. For clapping-related onomatopoeias, ng|eng|eng|eng|eng|eng|e implies that clapping takes place concurrently with dancing.

The second major group of onomatopoeias are lexemes that mimic sounds made by inanimate entities: constructed objects or natural phenomena. There are 24 such lexemes, which means that this group of onomatopoeias is significantly less numerous than the “animate” group analyzed in the previous paragraphs. Out of 25 tokens, 15 imitate sounds made by specific objects: a bell ringing (nguẽnguẽ/ngẽngẽ, and n|eren|eren|eren|ere), a clock ticking (khaǃha khaǃha khaǃha khaǃha, ǃxaǃxaǃxaǃxa, and ǂ-ǂ-ǂ-ǂ), a gun shooting (gufff and ǃhuu), a car hooting (paa and popi), an ambulance or police siren (yiyiyiyi), and a musical instrument (a kudu horn – vofoovofoo/vooofofofo; amahlwayi or leg rattles – tcatcatcatcatcatca), as well as anything that cracks (|haa) or explodes (dudj). One lexeme imitates the sound of a tree falling (waahlo). The two gun-related onomatopoeias are used depending on whether the shooting sound is produced by a big (gufff) or a small (ǃhuu) gun. In contrast, the various onomatopoeias for bells and clocks are generally synonymous. The other class of inanimate-source onomatopoeias mimics natural phenomena and contains seven tokens. These lexemes imitate the sound made by a wind (a light wind – ccc and a strong wind – xuuu), thunder (guguguguuuhhh), lightning (ǃhaǃhaǃhaǃhaǃhaǃhaǃhaǃha), thunder and lightning jointly (ǃhuǃhuǃhuǃhuǃhuǃhuǃhuǃhu), a flowing river (huuu), and sparking fire (|ha|ha|ha|ha|ha|ha|ha). Additionally, caaa imitates sound made by boiling water and ǃõǃõǃõǃõ imitates the sound made by drops dripping on a metallic surface.

Lastly, six onomatopoeias mimic sounds made by specific objects when manipulated by human beings. Therefore, from a semantic perspective, the classification of these lexemes is more complex – they draw on two domains (animate and inanimate) simultaneously. Such onomatopoeias imitate sounds made when a person is knocking (gugugugugu) or banging the door with their fists (guff), locking something with a key (kheǃxe), cutting a tree with an axe (khaakhaakhaa), using a hoe to dig (khukhukhu), and plowing the field with a plow (tsrrr).

Overall, the meaning of an onomatopoeia tends to be specialized – an onomatopoeic lexeme is either monosemous, or semantically restricted to a much larger extent than, for instance, interjections (Andrason et al. Reference Andrason, Fehn and Phiri2020: 304, 313; Andrason and Dlali Reference Andrason and Dlali2020: 165).Footnote ⁹ That is, an onomatopoeia refers to a sound produced by a very specific source, for instance a determined animate creature, inanimate object, or natural phenomenon (see the various examples introduced in the section). It may furthermore be restricted to a very specific activity performed by a given creature (e.g., tsuatsuatsuatsua and prrr associates with birds – the former mimicking sounds made when fighting, the latter when flying; see also the onomatopoeias imitating sounds made by humans). For animals, this specificity may even concern gender (i.e., male versus female, e.g., kokoguuu and kokokokoko(oo), which mimic sounds produced by roosters and hens, respectively) and age (i.e., old/adult versus young, e.g., tsuiyotsuiyo and kl'uakl’ua restricted to chicks and puppies). For objects and natural phenomena, specificity may concern size (e.g., big versus small – see gufff and ǃhuu which imitate the sound made by a big and by a small gun) and intensity (e.g., strong versus light – see xuuu and ccc which imitate the sound made by a strong and by a light wind). This semantic specialization is reflected in the fact that Tjwao onomatopoeias seem to be largely resistant to any type of semantic extensions, for instance through metonymy and metaphor. Indeed, metonymical or metaphorical uses of the collected onomatopoeias that would be, at least relatively, entrenched were unattested in our fieldwork.

The monosemy of onomatopoeias and their resistance to semantic extension explained above refer to onomatopoeic words used as onomatopoeias proper. In contrast, we have not studied semantic changes that could emerge in cases where onomatopoeic roots would, through derivative word-formation processes, contribute to the creation of lexemes belonging to other lexical classes, especially nouns. Such a study, which would concern not the semantic properties of onomatopoeias but rather that of nouns (or other lexical classes) derived from onomatopoeic sources, falls beyond the scope of this article. It should nevertheless be noted that our fieldwork revealed no examples of the use of onomatopoeias as genuine nouns – whether as bare forms (formally identical to onomatopoeias) or accompanied by derivative affixes. This, in turn, renders (at least, any nominal) types of semantic “extensionabilty” highly unlikely (see section 4.3 dedicated to morphology).

4.2 Phonetics

One of the most remarkable phonetic features typifying onomatopoeias in Tjwao is their ability to host extra-systematic sounds. Such sounds may be of two types: non-speech and speech.

Non-speech sounds constitute the most radical exponent of phonetic extra-systematicity: they do not form part of standard phonetic inventory of natural languages and are not included in the International Phonetic Alphabet. In Tjwao onomatopoeias, the presence of extra-systematic non-speech sounds is very limited. Only one such sound has been fully stabilized and entrenched in a single onomatopoeic lexeme. This sound is an ingressive endobilabial click used to imitate kissing. Following Poyatos (Reference Poyatos1993: 87), we represent this phone by the symbol [↓B’]. This “kissing” click [↓B’] is distinct from the bilabial click represented by the IPA symbol [ʘ]. In [↓B’], the lips are more protruded/outward, and the sound involves two closures “a dorsovelar […] and a forward labial one” (Poyatos (Reference Poyatos1993: 87, 117). In contrast, in [ʘ], the lips are more compressed/inward. (It should be noted that [ʘ] is attested in the “Khoisan” Sprachbund, e.g., in the Tuu family and the ǂ’Amkoe branch of Kx'a, and it is also found in Tjwao, specifically in interjections (Andrason et al. Reference Andrason, Fehn and Phiri2020)). Although, as explained above, only one non-speech sound has truly penetrated the onomatopoeic lexicon, virtually every onomatopoeia collected in our fieldwork may be realized in a more extra-systematic manner and, thus, approximate more closely the original non-speech sounds they imitate. For instance, the fully linguistic and entrenched forms such as grrr and wohwoh usually pronounced as [grːː] and [wohwoh], may be realized in a manner that is less linguistically tamed, but on the contrary that increasingly resembles the growling and barking noises made by dogs. In general, if the speaker aims to be more expressive and depict a given sound in a way which (in their view) represents it more faithfully, they may resort to a less phonetically harnessed and more extra-systematic non-speech realization. This “flexibility” and compatibility with a range of pronunciations that are less systematic and accommodated in human language, but more oriented towards the actual source (as perceived by humans), is a typical property of all onomatopoeias and distinguishes them from the other lexical classes, including interjections (which may also contain extra-systematic sounds in Tjwao; see Andrason et al. Reference Andrason, Fehn and Phiri2020).

The other group of extra-systematic sounds found in onomatopoeias in Tjwao are phones that, although unattested in the Tjwao phonetic system (i.e., the (sub)system(s) operating in the other lexical classes) are found across languages and are included in the International Phonetic Alphabet. In other words, these sounds are not extra-systematic per se – they simply do not occur in Tjwao grammar and the non-onomatopoeic lexicon of this language. Seven such sounds are found in onomatopoeias. Six are consonants: [ʒ] in ʒi,Footnote ¹⁰ [ɦ] in bhuu, [ɬ] in waahlo (this sound and the entire lexeme are borrowed from Nguni, most likely Ndebele; see section 3.3), [m̥] in hm-hm-hm-hm, and two clicks, palatal [ǂ] in ǂ-ǂ-ǂ-ǂ and alveolar [ǃ] in ǃhaǃhaǃha, kheǃxe, khaǃhakhaǃhakhaǃhakhaǃha, ǃxaǃxaǃxaǃxa, ǃhaǃhaǃhaǃhaǃhaǃhaǃhaǃha, ǃõǃõǃõǃõ, and ǃhuǃhuǃhuǃhuǃhuǃhuǃhuǃhu.Footnote ¹¹ There is only one extra-systematic vowel, namely, [ə], which may be used in ʔeʔeʔeʔeʔeee as an alternative to [e].Footnote ¹² By exhibiting this class of extra-systematic sounds, onomatopoeias are similar to interjections. Although, like onomatopoeias, the majority of interjections “do not involve sounds that are absent from the phonological or phonetic inventory of the Tjwao language”, four noticeable exceptions are attested: [ɬ] (realized ingressively as [ɬː↓]), [m̥], [!], and the above-mentioned bilabial click [ʘ] – all of them, except for [ʘ], also found in onomatopoeias (Andrason et al. Reference Andrason, Fehn and Phiri2020: 311).Footnote ¹³

The phonetic extra-systematicity of onomatopoeias is particularly visible with regard to the feature of vocalic and consonantal length. In Tjwao, vowels are either mono-moraic (short vowels) or bi-moraic (long vowels) with longer vocalic phones being unattested, with the exception of a few interjections. However, even in interjections, the presence of exaggerated length is extremely rare, being limited to a few lexemes. One of them is the interjection of repugnance oo, in which [oː] is often extended to a three-moraic, or even four-moraic, pronunciation [oːː(ː)] (Andrason et al. Reference Andrason, Fehn and Phiri2020: 312, Phiri Reference Phiri2021). In contrast, apart from being mono-moraic and bi-moraic, vowels in onomatopoeias often exhibit three morae and, thus, are extra-long, for instance oooaaa [oːːaːː], oooeee [oːːeːː], tcuaaa [tʃu̯aːː], huuu [huːː], xuuu [xuːː], teee [teːː], and caaa [tʃaːː]. The pronunciation of all such tokens may even be extended further to exaggerated degrees of length, (i.e., [ːː(ː)ⁿ]). Similarly, lexemes that are usually bi-moraic can be lengthened to three or more morae, for instance ǃhuu [ǃhuː] and |haa [|haː] are sometimes realized as [ǃhuːː(ː)ⁿ] and |haa [|haːː(ː)ⁿ]. The preference for atypical vowel-lengthening appears to dominate in contexts in which the onomatopoeias are pronounced in isolation, that is, without being embedded syntactically in a clause. This is illustrated in (1), taken from a narration about a competition between sun and wind:

1. (1) ʔe.xa.ka xai tan-a kũũ-tam-kũũ, pfuuu!

   adv wind stand.up go-intens-go onom

   ‘The wind kept on blowing and blowing, pfuuu!’

In contrast, onomatopoeias produced in the context of carrier phrases often follow the mono- or bimoraic templates otherwise common in the language (see keke [keke] and djuidjui [dʒuidʒui] in (2a–b) below). This suggests that, from a phonological perspective, onomatopoeias tend to become more word-like if they are syntactically integrated into a sentence, thus losing their direct expressiveness.

1. (2)

   1. a. yii  huku kua keke ta mii kika ʔe

      dem chicken ipfv onom comp say when it

      kua ǁuu-kaa

      ipfv give.birth-vol

      ‘When this hen is making the noise keke, it wants to lay eggs.’

   2. b. Tire ǁam-a-ha yii  khuri djuidjui ta mii=se

      1sg hear-j-prf dem  pig onom comp say=adv

      tire ǁam-a ʔe  xoo-e-ha.

      1sg hear-j it  catch-pass-prf

      ‘If you hear the pig making the noise djuidjui, it has been caught.’

Furthermore, according to the ‘decomposition hypothesis’, long vowels exhibited by contemporary Kalahari Khoe languages are original sequences of two vowels that have merged due to the loss of a medial consonant, (i.e., (C)VCV > (C)VV). (Güldemann Reference Güldemann2001; Nakagawa Reference Nakagawa2006, Reference Nakagawa2010, Reference Nakagawa, Hieda, König and Nakagawa2011). Following this view, it has recently been proposed that surface long vowels in Tjwao, (i.e., [Vː]), also have an underlying (C)VCV > (C)VV structure (Phiri Reference Phiri2021). This seems not to be the case with onomatopoeias. There is no synchronic, diachronic, or comparative evidence suggesting that long vowels in Tjwao onomatopoeias have emerged due to the reduplication of short vowels and, if possible, the elimination of an onset consonant. Therefore, any long vowel found in onomatopoeias is most likely ‘primary’ (see section 4.3 on the radical origin of onomatopoeias). If the decomposition hypothesis is correct, the origin of long vowels in onomatopoeias would thus be radically different from the origin characterizing the general lexicon of Tjwao. However, in this respect, onomatopoeias would behave like primary interjections; that is, similar to onomatopoeias, long vowels found in these types of interjections (see, for instance, oo expressing repugnance and contempt and xuu expressing disappointment, tiredness, and relief) do not result from contraction but are original and belong to respective interjective roots (see Andrason et al. Reference Andrason, Fehn and Phiri2020).

Onomatopoeias may also contain long and extra-long consonants, as in djuidjuirrrdjuidjuirrr [dʒuidʒuirːːdʒuidʒuirːː], grrr [grːː], vrrr [vrːː], vrrrvrrr [vrːːvrːː], cc-cc [ʃːʃː], ccc ₁ and ccc ₂ [ʃːː] mmm [mːː], tccc [tʃːː], and tsrrr [tsrːː]. Significantly, long and especially extra-long consonants do not form part of the standard phonetic system of Tjwao, with interjections being again the only exceptions (see Andrason et al. Reference Andrason, Fehn and Phiri2020: 312). As is the case with (extra-)long vowels, (extra-)long consonants do not result from the replication (reduplication or triplication) of a consonantal simplex, but are primary and original.

Overall, onomatopoeias make extensive use of vocalic and consonantal length and commonly distinguish between three degrees of length: short, long, and extra-long. In some cases, the difference between long and extra-long realization is phonemic. For instance, guff [gufː] imitates banging with a fist on the door, while gufff [gufːː(ː)] – with an exaggeratedly long consonant in the coda – imitates a sound made by a big gun when shooting. This phenomenon is again only attested in interjections (Andrason et al. Reference Andrason, Fehn and Phiri2020).

The type of extra-systematicity discussed above is related to a broader phenomenon of extra-systematic phonotactics, which is pervasive in Tjwao onomatopoeias. That is, onomatopoeias relatively often exhibit sound combinations and syllabic structure that are unusual. To begin with, lexical roots in Tjwao are bi-moraic, and their syllables exhibit the following consonant (C) and vowel (V) combinations: CVV, CVN, CVCV, C(C)VCV, C(C)VN, C(C)VV. Tri-moraic radical structures are very rare, while mono-moraic structures are attested only in grammatical morphemes.Footnote ¹⁴ More complex radical structures are limited to a few nouns that may themselves have an imitative origin and draw on the replication of one of the segments (e.g., teteberu ‘butterfly’ and tcibiriri ‘lizard’) and loanwords (which may allow for CVC(C)V, C(C)VCV, CVC(C)VCV structures; Phiri Reference Phiri2021). Furthermore, except for loanwords (Phiri Reference Phiri2021) and interjections (Andrason et al. Reference Andrason, Fehn and Phiri2020), the only consonants that may appear word-finally are nasals (i.e., [m] and [n]). In a word-medial position in (C(C))VCV roots, the only consonants attested are [b], [r], and the nasals [m] and [n] – again, with the exception of loanwords, see, for instance, gomba ‘antbear’, beke ‘week’, gudo ‘baboon’, mbuta ‘hare’, kwala ‘read’, and mbizi ‘zebra’ (Phiri Reference Phiri2021).

The abovementioned phonotactic patterns, prevalent in the other parts of Tjwao grammar, are often violated in onomatopoeias. Six types of such violations may be distinguished. First, onomatopoeias can contain non-vocalic syllables, for example ts-ts-tsui [ts.ts.tsui]. Indeed, there are onomatopoeic lexemes that consist entirely of consonants with no vowels. Such lexemes may be monosyllabic (e.g., grrr [grːː], vrrr [vrːː], ccc [ʃːː], tccc [tʃːː], and tsrrr [tsrːː]), bi-syllabic (e.g., vrrrvrr [vrːːvrːː] and cc-cc [ʃːʃː]) or pluri-syllabic (e.g., ǂ-ǂ-ǂ-ǂ [ǂ.ǂ.ǂ.ǂ]). Second, if replicated onomatopoeias (see section 4.3) are treated as indivisible roots (similar to teteberu ‘butterfly’ and tcibiriri ‘lizard’ above), onomatopoeias commonly transgress the constraints determining the possible root structure in Tjwao (see, for instance, the CVCVCVCVCVCVCV structure in dididididididi). Third, even if one considers only non-replicative onomatopoeias and the single segment, formative of a given replicated onomatopoeia, the attested structures often violate the CV combinations presented in the previous paragraph. That is, non-replicative onomatopoeias may exhibit the following extra-systematic structures: CVVV (e.g., teee [teːː] and ŋããũŋããũ [ŋãːũ-]), V₁V₁V₁V₂V₂V₂ (e.g., aaaooo [aːːoːː] and oooeee [oːːeːː]), CVVCV (e.g., waahlo [waːɬo]), CVCC(C) (e.g., guff [gufː] and gufff [gufːː]), and VCCV (e.g., astu [atsu] and kheǃxe [k^he!xe]). The formative segments allow for the following extra-systematic structures: CVVCVVCCC (e.g., djuidjuirrr- [dʒuirːː-] – the formative segment of djuidjuirrrdjuidjuirrr), CVCVV (e.g., vofoo- [vofoː-] – the formative segment of vofoovofoo) and CVCVCV (e.g., tũthuthu- [tũt^hut^hu-] – the formative segment of tũthuthutũthuthutũthuthutũthuth). Other extra-systematic structures are CV(CV)CVCV (e.g., tatarata [tatarata]) and CVCVCVVV (e.g., kokoguuu [kokoguːː]). (Additionally, one may also include the structures found in roots containing non-syllabic syllables, that is, C₁C₁(C₁) (e.g., ccc), C₁C₂C₂(C₂) (e.g., vrrr) that were mentioned above.) Four, onomatopoeias allow for consonants other than [m] and [n] to appear in final codas, specifically, [h] (e.g., wohwoh and guguguguuhh), [r] (e.g., djuidjuirrrdjuidjuirrr), [p] (e.g., |hap|hap|hap|hap), [f] (e.g., guff and gufff), and [dʒ] (e.g., dudj). Of course, the non-vocalic onomatopoeias mentioned above may end in other consonants, (e.g., [ʃ] in cc-cc). Five, the constraints on word-medial consonants are also heavily violated. This is most evident if replicated roots are treated in their totality. Nevertheless, even if one considers only non-replicated onomatopoeias and the formative segments of replicated onomatopoeias, a large number of onomatopoeic lexemes still exhibit extra-systematic medial consonants, namely: [t], [g], [ɬ], [f], [p], [!^h], [t^h], [ts], and [ǃx] (see tatarata, kokoguuu, waahlo, vofoovofoo, popi, khaǃhakhaǃhakhaǃhakhaǃha, tũthuthutũthuthutũthuthutũthuthu, atsu, and kheǃxe, respectively). Six, onomatopoeias allow for unusual complex word-initial clusters, for instance [krp-] in krpukrpu and, more generally, a C₁C₂C₂-onset structure, which is ungrammatical elsewhere in the language. Most of the above-mentioned phenomena are strictly limited to onomatopoeias, even being absent in interjections (Andrason et al. Reference Andrason, Fehn and Phiri2020). The only property shared to a similar extent by onomatopoeias and interjections is the presence of non-vocalic syllables. There are eight such interjections, one of them being pff expressing the sensation of bad odor (Andrason et al. Reference Andrason, Fehn and Phiri2020: 312)

The last type of extra-systematicity attested in Tjwao onomatopoeias concerns suprasegmental features. Onomatopoeias are typically realized with special – at least, special for Tjwao – phonation. This may involve: an exaggerated air stream intensity (e.g., guff and atsu), delayed aspiration (which also appears to be often exaggerated; e.g., ǃhaǃhaǃhaǃhaǃhaǃhaǃhaǃha), creaky or breathy voice (e.g., bhuu), extreme production speed (e.g., dididididididi and tcatcaratcatcaratcatcaratcatcara), excessive loudness (e.g., dudj and guguguguuhh) or, on the contrary, whispering (e.g., tcxuaa), modulation of pitch or frequency (compare wiii₁ and wiii₂), and distinctive melody, often rhythmic and/or approximating the tune of a song (e.g., mmm, tatarata, hm-hm-hm-hm, popi, and yiyiyiyi).Footnote ¹⁵ The other extra-systematic suprasegmental phonetic features have already been mentioned: extra-long consonants and vowels (vrrr [vrːː] and teee [teːː]) and the ingressive realization of some consonants (e.g., the second segment cc in cc-cc). This last feature is also attested in interjections (see [sː↓] expressing pain, spiciness, and bad taste, as well as [ɬː↓] expressing good taste and smell; Andrason et al. Reference Andrason, Fehn and Phiri2020).

Onomatopoeias make extensive use of vocalic and consonantal harmony. This is most evident in the case of lexemes that exhibit an exact replicative morphological structure, which will be analyzed in detail in section 4.3. However, even in onomatopoeias that are not an exact replication of a single segment, vocalic harmony is prevalent. See xoo and po in xoopopopopopo; li and hi in lihihihi; ta and ra in tatarata; ko and go in kokokogokokokogo. Harmony is also found in the formative segments themselves: vo and foo in the segment vofoo- in vofoovofoo; hu and du in the segment hudu- in huduhuduhudu; kha and ǃha in the segment khaǃha- in khaǃhakhaǃhakhaǃhakhaǃha; tcatca and ra in the segment tcatcara- in tcatcaratcatcaratcatcaratcatcara; kha and pa in the segment khapa- in khapakhapakhapa; and tũ and thuthu in the segment tũthuthu- in tũthuthutũthuthutũthuthutũthuthu. In contrast, non-harmonious patterns – even though attested – are much less common (see xãããõ, kokoguuu, oooaaa, oooeee, and atsu). Overall, due to the prevalence of harmonious patterns, most onomatopoeias exhibit a rhyming structure. Such harmonious tendencies of onomatopoeias are only matched by bisyllabic interjections. That is, like onomatopoeias, these types of interjections usually exhibit harmonious patterns that result from the reduplication of a vowel, the multiplication of a (vocalic or non-vocalic) syllable, the repetition of a glide, and the presence of the same vowel throughout the lexeme (Andrason et al. Reference Andrason, Fehn and Phiri2020: 312).

4.3 Morphology

From a morphological perspective, 111 of the 113 onomatopoeias collected by us in Tjwao constitute the so-called pure-creation matrices (Meinard Reference Meinard2015: 165). This means that lexemes such as grrr, paa, popi, oooaaa, tatarata, lelelelelele, and many others, are original roots, underived from any other roots, whether verbal or nominal. This is related to the fact that onomatopoeias are generated through iconic associations – albeit not equivalence – between real-world sounds and linguistic forms. When experiencing auditory reality, speakers imitate it. Although usually achieved via devices that are provided by the Tjwao language system, for instance specific phonetic (see section 4.2) and morphological material (see further below), this imitation is ‘primary’ rather than ‘secondary’ – that is, it is not achieved through modifying or recombining lexemes and roots that already form part of Tjwao vocabulary. Onomatopoeias share this property of being radical and underived matrices with primary interjections (Andrason et al. Reference Andrason, Fehn and Phiri2020).

The remaining two onomatopoeias, that is, kheǃxe and waahlo, are loanwords from Bantu, most likely Ndebele. Waahlo is a reflex of the Nguni ideophone wahla found in Ndebele, Xhosa, and Zulu that depicts the falling or crashing of hard (metallic or crockery) objects as well as bones (see Pahl Reference Pahl1989: 539 for a Xhosa equivalent). Similarly, kheǃxe derives from a Nguni ideophone depicting the sound made by metal objects when locking something (see khexe [khe||e] in Ndebele, and khixi [khi||i] in Xhosa) or when falling “with a light clattering sound” (see Mini Reference Mini2003: 57 for Xhosa). Similar scarcity of borrowings characterizes interjections. There is only one certain case of a borrowed interjective lexeme: the conative (i.e., expressing volitive states and wishes; Ameka Reference Ameka1992, Stange and Nübling Reference Stange, Nübling, Müller, Fricke, Cienki and McNeill2014) interjection tsua(-tsua), borrowed from Southern Bantu (Tswana/seSotho), that is used to order motion to a person or animal (Andrason et al. Reference Andrason, Fehn and Phiri2020: 310).

Onomatopoeias are generally mono-morphemic and thus not divisible into separate, simpler meaning-bearing units (see further below regarding replications). Related to this, no onomatopoeia carries inflections or derivations. Indeed, the use of inflectional or derivative morphemes with onomatopoeias seems ungrammatical. Similarly, the use of a compounding mechanism (e.g., by incorporating additional verbal or nominal roots) is unattested and perceived by native speakers as ungrammatical. The incompatibility of onomatopoeias with inflections, derivations, and compounding does not necessarily preclude the presence of such inflectional, derivative, and compounding-related elements in words belonging to other word classes that have onomatopoeic foundations. Nevertheless, thus far, our fieldwork activities have revealed no example in which any of the 113 onomatopoeic roots would have been nominalized, or verbalized, or have generated a word from another lexical class. This mono-morphemic structure and the absence of both inflectional and derivational affixes as well as any traces of compounding mechanisms are also typical of primary interjections in Tjwao (Andrason et al. Reference Andrason, Fehn and Phiri2020: 309).

The mono-morphemic structure is the most evident with non-replicative onomatopoeias such as grr, vu, djwii, bhuu, buu, guff, gufff, |xuaa, xõõõ, xãããõ, vrrr, xoʔ, tcuaa, teee, ʒi, ccc, haaa, wiii₁, wiii₂, tc'uaaa, atsu, ↓B’, phu, piii, tccc, tcxuaa, tsrrr, ǃhuu, |haa, dudj, paa, huuu, ccc, xuuu, and caaa. None of the above lexemes can be divided into more basic morphological units. It is also patent in the case of kheǃxe and waahlo, borrowed from Ndebele. These lexemes are indivisible into more elementary morphemes – not only in Tjwao but even in the donor Nguni languages (note that ideophones, including kheǃxe and waahlo, are generally viewed as radical and morphologically indivisible in Xhosa; see Andrason Reference Andrason2020).

The only morphological structure or process available to onomatopoeias is the replication of mono-morphemic segments. This strategy is highly common in onomatopoeias, being attested in 71 tokens, and is responsible for the majority of harmonious and/or rhyming patterns, whether vocalic or consonantal, exhibited by onomatopoeias (see section 4.2). Two main types of replications are attested: exact/total replications and imprecise/partial replications.

Exact/total replications appear in cases where the onomatopoeic sequences constitute the precise replicas of the single basic segment. This type of replication is highly pervasive, with 58 tokens attested.Footnote ¹⁶ The number of segments in such sequences may range from two (reduplication) to eight (octuplication). The following examples will illustrate this phenomenon: two segments: wohwoh, kl'uakl’ua, and ŋããũŋããũ; three segments: aa-aa-aa, tcuatcuatcua, gubugubugubu; four segments: khaǃhakhaǃhakhaǃhakhaǃha, ǃxaǃxaǃxaǃxa, and ǂ-ǂ-ǂ-ǂ; five segments: hihihihihi, kakakakaka and kekekekeke; six segments: khokhokhokhokhokho, lelelelelele, and ng|eng|eng|eng|eng|eng|e; seven segments: |ha|ha|ha|ha|ha|ha|ha and dididididididi; eight segments: !huǃhuǃhuǃhuǃhuǃhuǃhuǃhu and ǃhaǃhaǃhaǃhaǃhaǃhaǃhaǃha.

Imprecise/partial replications are less common, with 15 tokens attested. Typically, the peripheral segments of the sequence, (i.e., either first or last), diverge in some respects from all the other segments. Usually, the peripheral element is “strengthened”. That is, the vowel of the last segment is lengthened (e.g., tcatcatcaaa, ʔeʔeʔeʔeʔeee, and kokokokokooo); or the last segment contains a vocalic nucleus contrary to the preceding segments (e.g., ts-ts-tsui); or a (more or less) exaggerated aspiration [h] is added to the last lengthened segment in the coda position (e.g., dudududuuhh). Alternatively, the onset of the first segment is dissimilar from the onsets present in the remaining segments. That is, the onset consonant used in other segments may be absent in the initial segment (e.g., ehehehehe, ihihihihi, ahahahaha, ohohohoho) or it is replaced by a different consonant (e.g., lihihihi). (The presence of ihihihihi alongside hihihihihi suggests that the onset h- was original and the form with zero-onset is diachronically subsequent.) Sometimes, this “peripheral” aberrance emerges due to the replication of the part of the first segment (e.g., xoopo- in xoopopopopopo and vooofo- in vooofofofo). Although the distortions affecting peripheral segments prevail, the aberrant segment can occasionally be medial, as in tatarata.

Apart from exact/total and partial/imprecise replications, a few onomatopoeias exhibit a replicative form that can be analyzed as simultaneously exact/total and partial/imprecise. In these lexemes, a segment that shows partial internal replication is repeated in an exact manner. For instance, the segments kokokogo-, juijuirrr-, and tũthuthu – with either the first or the last segment dissimilar – are replicated exactly in the onomatopoeias kokokogokokokogo, juijuirrrjuijuirrr, and tũthuthutũthuthutũthuthutũthuthu, respectively.

Interestingly, replicas with vowel alternation like bim-bam-bom, rhyming combinations of the type chlast-prast, and linking elements as in ding-a-ling (see section 2) are unattested in Tjwao onomatopoeias. Replications are also attested in interjection, but appear to be much less pervasive in this lexical class than in onomatopoeias. To be exact, only a few conative interjections used to call animals exhibit a replicative structure and are typically composed of three identical segments, for example, psi-psi-psi employed to summon cats (Andrason et al. Reference Andrason, Fehn and Phiri2020: 309).

The replicative strategy operating in onomatopoeias, especially the exact one, seems to be productive. Indeed, when producing onomatopoeias creatively in spontaneous episodes, the speakers always resort to replications (see below). Furthermore, although several lexemes tend to appear in sequences of two, three, four, five, six, seven, or eight – with the entrenched reduplications and triplications being the most common – virtually any sequence may be extended recursively by an additional segment (or shortened to the minimal replicative pattern, i.e., duplication). All of this could, in turn, suggest that single segments are true morphemes. However, certain properties of such single segments lead to a different conclusion. First, for replicative onomatopoeias, the use of singletons instead of the sequences is generally ungrammatical. Second, replications have no evident semantic bearings. Although the repetitive patterns (as well as lengthening) exploited by onomatopoeias across languages are sometimes argued to imply the continuity, iteration, and/or intensity of a sound (Reay Reference Reay and Brown2006: 531, Rubino Reference Rubino, Voeltz and Kilian-Hatz2001: 309), this does not always hold true for Tjwao. Even though extreme replications may indeed suggest the extended duration and/or increased intensity of a sound, this does not apply to less radical cases of replicas: a triplicated onomatopoeia does not simulate a sound that is longer or more intense than its reduplicated onomatopoeia; similarly, such a relationship fails to exist between quadruplicate and triplicate variants. Even more importantly, the presence of an additional segment does not modify the referential content of an onomatopoeic lexeme. Whether reduplicated, triplicated, or multiplicated, an onomatopoeia refers to and simulates the same real-world sound source. Overall, unlike canonical morphemes, which are meaning-bearing units, onomatopoeic segments have no true individual meaning. Therefore, replications, exact/total or imprecise/partial, may be viewed as inherent to an onomatopoeic root – even though unstable (see above) – and constitute a blended morpho-phonetic rather than genuine morphological and derivative strategy. A comparable interpretation has been proposed for (conative) interjections exhibiting replicative patterns in Tjwao, for instance, kip-kip-kip, kiti-kiti-kiti, mbh-mbh-mbh, psi-psi-psi, ǃ-ǃ-ǃ, and ǀ-ǀ-ǀ (Andrason et al. Reference Andrason, Fehn and Phiri2020). As is true of replicated onomatopoeias, these interjections cannot appear as “mono-segmental units, i.e. as kip, kiti, mbh, psi, !, and ǀ”. This is, in turn, interpreted as the indication of their morphological simplicity. In other words, “multiplication found in sequences composed of more than three segments has no morphological (derivative) function.” (Andrason et al. Reference Andrason, Fehn and Phiri2020: 309; see also Nübling Reference Nübling2004 with regard to reduplication found in interjections, more generally). Replications found in laughter onomatopoeias in Xhosa (Andrason Reference Andrason2021b) and Polish (Andrason Reference Andrason2021c) as well as replications operating in ideophones in Maasai (Karani and Andrason Reference Karani and Andrason2022) have been analyzed in an analogous manner.

Overall, the morphology of onomatopoeias is extra-systematic when compared to other referential (content) lexical classes such as nouns, verbs, adjectives, and adverbs. Contrary to these lexical classes, onomatopoeias do not exploit the main morphological strategy of Tjwao, which consists of combining roots with affixes. This strategy is also absent in primary interjections (see Andrason et al. Reference Andrason, Fehn and Phiri2020) and a few other functional lexical classes such as adpositions and conjunctions (Phiri Reference Phiri2021). The absence of other morphemes rather than the root itself and, especially, the incompatibility with all types of inflectional or derivational affixes are the main reasons for the morphological extra-systematicity of onomatopoeic lexemes. Specifically, although Tjwao is a flectional and synthetic language as far as referential (content) lexical classes are concerned, onomatopoeias – despite being referential (content) lexemes themselves – never have a flectional and synthetic composition. This results in the opacity of onomatopoeias; that is, the category of onomatopoeias does not exhibit a uniform pattern that would be specific to it. This is evident when one compares lexemes such as: vu, grr and tccc, with ŋããũŋããũ, tcatcatca, and |hap|hap|hap|hap, or with vooofofofo, tatarata and waahlo. Moreover, although replications are extremely common in onomatopoeias, they are not exclusive to them. Across Kalahari Khoe, the reduplication of lexical roots is exploited for two major derivational processes: causative formation and the expression of iteration/intensification (Vossen Reference Vossen1997). While not particularly frequent in Tjwao, causative formation through reduplication is attested as illustrated by example (3) below. Furthermore, replications are attested in conative interjections (Andrason et al. Reference Andrason, Fehn and Phiri2020), especially those directed to animals, which tend to exhibit a triplicated structure (Andrason and Phiri Reference Andrason and Phiri2022). Crucially, onomatopoeias do not contain any “onomatopo-izers” – markers (e.g., affixes) that would identify a lexeme as a member of the onomatopoeic lexical class. Nevertheless, as replications larger than three segments, highly frequent in onomatopoeias (40x), are virtually limited in Tjwao to the onomatopoeic lexemes – thus, being absent in other parts of grammar and/or vocabulary – the opacity of onomatopoeias might overall be lower. At least, for sequences composed of four or more segments, the form of a lexeme would be (almost) directly associated with its onomatopoeic function.

1. (3) Tshaa ka ʔama ʔe.be ǀx'ue.ǀx'ue-na-ha.

   water with pot 3sg.m.nom full:cau-j-prf

   ‘He filled the pot with water.’

Lastly, onomatopoeias constitute an open and productive category. The total of 113 tokens collected by us – which are the most entrenched and constitute the part of the Tjwao language understood as a pan(idio)lectal phenomenon – may easily be expanded by novel lexemes. That is, speakers can coin new onomatopoeias spontaneously and idiolectally to represent other sounds they experience. As explained above, the use of replicated patterns is typical of all such onomatopoeias produced in an ad-hoc manner. In this regard, onomatopoeias again behave like the category of interjections, which “is [too] open and relatively easily renewable” (Andrason et al. Reference Andrason, Fehn and Phiri2020: 315)

However, the above-mentioned productivity of onomatopoeias does not imply a similar productivity of onomatopoeic derivatives. As we explained above, to our knowledge, none of the 113 onomatopoeias has been nominalized or verbalized, or marked with nominal or verbal derivative affixes, respectively.