3.1. Singular vs. plural vs. dual

The most straightforward example is the singular vs. plural opposition. Greenberg (Reference Greenberg and Greenberg1963) observed that plurals tend to be overtly coded and singulars zero-coded (see Universal 35 in (4a) above), and Greenberg (Reference Greenberg1966: 32) showed that the singular tends to be more frequent than the plural, while the dual is the least frequent form. The asymmetric coding can be illustrated by Hebrew and Khanty (a Uralic language):

(Greenberg also included the dual, thus effectively dealing with a triple rather than with two meanings in opposition; alternatively, the dual could be contrasted with the plural, but the predictions are not different.)

3.2. Nominative vs. accusative

Many languages make a distinction between nominative (for the S/A-argument) and accusative (for the P-argument), and Greenberg (Reference Greenberg and Greenberg1963) noted that the nominative is always at least as short as the accusative (see Universal 38 in (4b) above). The nominative is also more frequent than the accusative, almost by definition, because it occurs in both intransitive and transitive clauses, whereas the accusative only occurs in the latter, e.g.

3.3. Allative vs. ablative

Within the oblique case-markers and adpositions, we find that allative and ablative are asymmetric, with allatives showing a much greater tendency to be zero than ablatives (Stolz, Lestrade & Stolz Reference Stolz, Lestrade and Stolz2014), and if both are overtly marked, the ablative tends to have a longer shape. Michaelis & APiCS Consortium (Reference Michaelis, Consortium, Michaelis, Maurer, Haspelmath and Huber2013) provide data from creole and pidgin languages.

3.4. Instrumental vs. comitative

As can be seen in the many examples in Stolz, Stroh & Urdze (Reference Stolz, Stroh and Urdze2006), comitative markers are generally longer than instrumental markers when there is a contrast in a language (see also Maurer & APiCS Consortium (Reference Maurer, Consortium, Michaelis, Maurer, Haspelmath and Huber2013) for pidgin and creole languages). The comitative is also generally less frequent.

3.5. Male vs. female occupational terms

At least in all the languages that I am aware of, female occupational and status terms tend to be longer than male occupational and status terms. Many languages do not have such gender contrasts, but when they make them, it seems that the male form is never longer than the female form. Because special occupational roles (and less often also special status roles) have long been confined to men, it is clear that the male terms have traditionally been more frequent.Footnote ⁷

3.6. Positive vs. comparative vs. superlative

In languages that have special comparative and superlative forms of adjectives, the comparative is always derived by a special marker from the positive, and the superlative is often additionally derived from the comparative (Greenberg Reference Greenberg1966: 40; Bobaljik Reference Bobaljik2012). It seems that there is no language with a superlative marker that is shorter than the comparative marker. Greenberg (Reference Greenberg1966: 41) provides some frequency data showing that the comparative is less frequent than the positive, and the superlative is even less frequent. (The Hungarian and French examples have the same meaning as the English ones.)

3.7. Cardinal numerals vs. ordinal numerals

As has been extensively documented by Stolz (Reference Stolz, Igla and Stolz2001: 519), ordinal numerals are normally derived from cardinal numerals, i.e. they consist of an additional marker. Greenberg (Reference Greenberg1966: 42–43) cites some frequency data showing that they also tend to be much less frequent.

4.1. Present tense vs. future tense

Present-tense forms tend to be much more frequent than future-tense forms (Greenberg Reference Greenberg1966: 48), and they also tend to be shorter (very often zero-marked, see Bybee Reference Bybee and Pagliuca1994).

4.2. Present tense vs. past tense

Past-tense forms show a similar asymmetry with respect to present-tense forms, both in terms of frequency (Greenberg Reference Greenberg1966: 48) and in terms of coding, though less clearly so than future-tense forms.

4.3. Active vs. passive

Passive verb forms are generally derived from active verb forms, i.e. they contain an additional marker (Haspelmath Reference Haspelmath1990).

And even in those few cases where active and passive verbs forms both contain markers, as in Latin (e.g. lauda-s ‘you (sg) praise’, lauda-ris ‘you (sg) are praised’; lauda-tis ‘you (pl) praise’, lauda-mini ‘you (pl) are praised’), the passive forms tend to be longer. Passive forms are also generally much less frequent than active forms (Greenberg Reference Greenberg1966: 46).

4.4. Basic vs. applicative

Many languages have applicative verb forms, i.e. forms which contain an additional marker whose function is to indicate that an argument other than the basic P-argument becomes the derived P-argument (Polinsky Reference Polinsky, Haspelmath, Dryer, Gil and Comrie2005, Peterson Reference Peterson2007).

Somewhat like in the case of the passive, it is part of the definition of ‘applicative’ that it is marked by a special affix, but the derived P-argument is not the most frequent type of argument of the basic verbal meaning, so extra coding on the verb is needed here.

4.5. Affirmative vs. negative

Negation is virtually always signaled by an overt negator (Dryer Reference Dryer, Haspelmath, Dryer, Gil and Comrie2005, Miestamo Reference Miestamo2005), which might seem trivial, but there are also some languages where there is a special affirmative marker, and there are quite a few languages where tense markers cumulate with affirmative and negative meaning (e.g. Coptic, where the negative past marker is longer than the affirmative past marker). Thus, the generally greater length of negative markers is best explained by the greater rarity of negative clauses.

4.6. Disjoint anaphoric vs. reflexive

Reflexive pronouns are generally longer than anaphoric pronouns which are used when the referent is disjoint from the subject. Again, this can be straightforwardly linked to the much lower frequency of coreference between the object and the subject (Haspelmath Reference Haspelmath2008c).

6.1. Accusative marking on inanimate vs. animate P-arguments

In many languages, P-arguments are coded differentially when they are animate, and as far as I know, the animate P always has a marker, whereas the inanimate P is uncoded (Bossong Reference Bossong1985, Reference Bossong, Kibbee and Wanner1991; Aissen Reference Aissen2003; Iemmolo Reference Iemmolo2013).

As is well-known, a very similar cross-linguistic pattern is found with definite vs. indefinite P-arguments, e.g. in Hebrew and Turkish. Some languages, such as Hindi-Urdu, have special accusative marking of P-arguments when they are animate or definite. The explanation is the usual association of the P role with inanimate and indefinite arguments (as was clearly stated already by Comrie Reference Comrie1989: 128; Bossong Reference Bossong, Kibbee and Wanner1991: Sections 2).

6.2. Ergative marking on 1st/2nd person pronouns vs. full nominals

In some languages, A-arguments are coded differentially when they are 1st or 2nd person (locuphoric), and this generally means that they lack an overt ergative marker, in contrast to other kinds of arguments, especially full nominals (Dixon Reference Dixon1994: 86).

This generalization about differential A marking is somewhat less robust than the differential object marking universal, but both belong to a much larger class of role–reference association universals (Haspelmath Reference Haspelmath2021), which all have the same explanation in terms of form–frequency correspondences, or more specifically in terms of the usual association of high-ranking roles (agent and recipient) with referentially prominent arguments (1st/2nd person, animate, definite, topical).

6.3. Locative marking on place names vs. inanimate nouns vs. animate nouns

In a substantial number of languages, locative flagging is differential, such that place names tend to have the shortest coding (often zero, as in Tswana), and animate nouns tend to have the longest coding, with inanimate nouns intermediate between the two (Aristar Reference Aristar1997, Creissels & Mounole Reference Creissels, Mounole, Kittilä, Västi and Ylikoski2011, Haspelmath Reference Haspelmath2019b). In Basque, we see a three-way contrast, while Tswana exemplifies a contrast between place names and inanimates, and Tamil shows a contrast between inanimates and animates.

Again, this is because place names are usually associated with locative use, while this is less common for inanimate nouns, let alone animate nouns. The parallels with differential object marking are so striking that Haspelmath (Reference Haspelmath2019b) calls this pattern ‘differential place marking’.

6.4. Plurative and singulative marking on individualist vs. gregarious nouns

In some languages, there is a subclass-conditioned difference in singular and plural coding, such that ‘individualist nouns’ (those that tend to occur with uniplex meaning) have overt plural (plurative) marking, while ‘gregarious’ nouns (those that are usually associated with multiplex meaning) have singulative (overt singular) marking (-en in Welsh, -ina in Russian). For detailed discussion, see Haspelmath & Karjus (Reference Haspelmath and Karjus2017) and Grimm (Reference Grimm2018).

The suffix -en in Welsh is generally regarded as an inflectional singulative marker, while -ina in Russian is treated as derivational. In the present context, this difference plays no role, and even the English unit noun grain can be seen as playing the same role.

6.5. Adpossessive marking with inalienable vs. alienable nouns

In languages where inalienable (kinship and body-part term) nouns behave differently from alienable nouns in adpossessive constructions, the possessive markers are shorter (and typically zero) for the inalienable subclass, because of the usual association of the adpossessive meaning with kinship and body-part nouns (Haspelmath Reference Haspelmath2017).

6.6. Definiteness marking with vs. without possessor

Some languages have differential definiteness marking, omitting the definite article in the presence of an adpossessive nominal.

This can be attributed to a form–frequency correspondence as well, as possessed nouns are usually associated with definiteness so that the definite meaning is relatively predictable and the extra coding is not required (Haspelmath Reference Haspelmath1999).

7.1. Reflexive marking on introverted vs. extroverted verbs

As already discussed in Section 5, some languages have subclass-conditioned differential marking of reflexivity, with introverted verbs (those that are usually associated with coreferential objects) showing shorter coding than extroverted verbs (those that tend to have noncoreferential anaphoric objects) (Haiman Reference Haiman1983: Section 1.2.2; Haspelmath Reference Haspelmath2008c). This is illustrated by the following examples, which all have the same meaning as the English ones.

7.2. Addressee and 3rd person marking in imperatives vs. indicatives

There is a usual association of person with mood, in that imperatives tend to have second person subjects and indicatives tend to have 3rd person subjects. Languages often have split coding of bound 2nd and 3rd person person forms, and as predicted, there is a tendency for 2nd person form to be short or zero in imperatives (Aikhenvald Reference Aikhenvald2010: 46), and 3rd person forms to be short or zero (Siewierska Reference Siewierska and Floricic2010).

7.3. Attributive and predicative marking on property roots (adjectives) vs. action roots (verbs)

Property concept roots tend to occur in attributive discourse function, while action roots are usually associated with predicative function. Thus, many languages have a split in how they treat content roots: Property concept roots tend to have short or zero coding in attributive function, while action roots tend to need overt attributive markers (participial affixes or other relativizers). By contrast, in predicative function, property concept roots tend to need special marking by a copula, while action roots do not (Croft Reference Croft1991: 67).

As Croft (Reference Croft, Vogel and Comrie2000) emphasized, it is these kinds of coding splits between different semantic types of roots that are the basis for word-class categorizations, and since they are universal tendencies, the word classes that correspond to the three main discourse functions can be said to be universal (nouns, verbs, adjectives).

7.4. Causative vs. anticausative marking with automatic vs. costly events

In some languages, there is a subclass-conditioned difference in noncausal and causal event coding, such that ‘automatic’ verb roots (those that tend to occur with noncausal meaning) have causative marking, while ‘costly’ verb roots (those that are usually associated with causal meaning) have anticausative marking. The basic cross-linguistic pattern is thus completely parallel to that of plurative and singulative marking (Section 6.4).

The semantic classes ‘automatic’ and ‘costly’ are similarly ad hoc as the classes of ‘individualist’ and ‘gregarious’ nouns that are used in Section 6.4 for the number-marking pattern. This is because the cross-linguistic patterns are much less regular than in other cases, and the splits are rather different in different languages. Still, when one looks at a wide range of languages, one sees clear cross-linguistic patterns which were first described in Haspelmath (Reference Haspelmath, Comrie and Polinsky1993) and linked to universal frequency patterns in Haspelmath et al. (Reference Haspelmath, Calude, Spagnol, Narrog and Bamyacı2014).Footnote ⁹

7.5. Subordinate clause marking with same vs. different subjects in ‘want’ complements

‘Want’ complement clauses tend to have the same subject as the main clause, so different-subject complements (‘you want me to eat’) are rare and unexpected. In accordance with the form–frequency correspondence universal, languages tend to have special subordinate markers for different-subject complements, e.g. dass in German and -te in Japanese, which are not required in the same-subject situation (see Haspelmath Reference Haspelmath2013).

7.6. Purpose-clause marking with motion vs. non-motion verbs

As noted by Schmidtke-Bode (Reference Schmidtke-Bode2009: 94), purpose clauses are particularly common (i.e. usually associated) with motion verbs in the main clause, so it is predicted that the purpose-clause marking is generally shorter when the purpose clause modifies a motion-verb clause. Schmidtke-Bode finds that this is generally confirmed, and German provides an illustrative example (zero marking, or pure infinitival marking, is possible only when the main-clause verb is a motion verb).

9.1. Markedness and iconicity

In earlier work, I examined two alternative explanations for asymmetric coding and argued that they were less comprehensive or did not provide the necessary causal links.

In Haspelmath (Reference Haspelmath2006), I argued that markedness does not provide an explanation, because there is no unitary and generally recognized markedness concept, and if we adopted a single concept of markedness as a representational feature of universal grammar, we would not have a causal link. An explanation that provides causal links is preferable to an explanation that replaces the explanandum by another unexplained concept elsewhere for which there is no independent evidence.

In Haspelmath (Reference Haspelmath2008a), I argued that iconicity (or the tendency for meaning–form matching) cannot generally work as an explanation of the universals of asymmetric coding, because in many cases there are no meaning differences but we still find coding asymmetries. This is the case in all differential-coding pairs (Sections 5–7), where the same grammatical meaning is expressed in both construction types. For asymmetries like accusative marking of animate or inanimate objects, locative marking on place names and ordinary nouns, and attributive vs. predicative use of property words (adjectives), frequency-based predictability makes the right prediction, but iconicity does not seem to make any prediction. And in the case of positive vs. comparative (Section 3.6), it has often been argued that the comparative is actually simpler semantically.

Another possible alternative explanation might reverse the causal chain in (3) (frequency → predictability → shortness) and claim that higher frequency of use of shorter forms is due to the shortness of the forms. For example, the singular might be more frequent than the plural because its forms are shorter. This explanation is not only unintuitive (especially for coding asymmetries like affirmative–negative or positive–comparative), but it makes the wrong prediction that when a language has symmetric coding (e.g. when it has both a present-tense marker and a future-tense marker, both equally long), there should be no frequency difference. But in fact, the frequency differences are independent of the coding, as they are found in all languages, regardless of their coding patterns.

9.2. Coding efficiency and predictability

The explanation that I propose relies on the recognition that language systems tend to be efficient, i.e. they help the users make good use of scarce resources (speaker articulations) for the desired result of communication (understanding the speaker’s intentions). There should thus be a balance between parsimony and clarity: articulations should be reduced only to the extent that this does not threaten comprehension.

Such a balance or trade-off between ease of articulation and ease of decoding has often been postulated in linguistics, and there should be no need to justify the general principle here (see e.g. von der Gabelentz Reference von der Gabelentz1891; Langacker Reference Langacker and Li1977; Lindblom & Maddieson Reference Lindblom, Maddieson, Hyman and Li1988; Fedzechkina, Jaeger & Newport Reference Fedzechkina, Jaeger and Newport2012: 1; Gordon Reference Gordon2016: 17; Kemp, Xu & Regier Reference Kemp, Xu and Regier2018).

Now of course a key factor that aids comprehension is predictability: If the content of a message is not surprising, the message can be abbreviated. Speakers can afford to use short shapes or zero coding for predictable meanings, but they have to make a greater coding effort for unpredictable meanings.

If context is kept constant, higher-frequency meanings are more predictable than lower-frequency meanings because of their frequency: It is less surprising if my interlocutor uses a present-tense form than if she uses a future-tense form, just as it is less surprising if she talks about Mathe(matik) than if she talks about Topologie (recall Section 7 above). Thus, as was already noted in Section 1, the causal chain goes from high frequency to predictability, and from predictability to short coding.

The predictability-based explanation is confirmed by considering phenomena that involve predictability but not (necessarily) high frequency: I mean contextually high predictability of meanings.Footnote ¹⁰ For example, when an utterance is about a referent that has occurred just before, it is of course highly predictable (or accessible, Ariel Reference Ariel1990). In such situations, languages generally use short forms or zero, as is illustrated by the examples in (16).

In these cases, the counter-efficient pattern, with the short form where the referent is unpredictable, is impossible (*She _i went to the river and the girl _i looked for fish). That personal pronouns and other anaphoric forms are generally shorter than full nominals is not in doubt but is rarely highlighted, because linguists have not often considered coding length as an important concept for understanding morphosyntactic patterns. But in the present context, these considerations support the explanation of universal asymmetries in terms of coding efficiency and predictability. The causal chain sketched in (3) can thus be expanded into the chain in Figure 1, showing two distinct causes of predictability, but a uniform result of predictability.

Figure 1 The causal chain leading to shortness of coding.

9.3. What is the ultimate cause?

When presenting the frequency- and predictability-based explanation of coding asymmetries over the years, I have often heard the comment that frequency cannot be the ultimate cause of the cross-linguistic patterns. Frequency itself must be caused by something, and this is not represented in the causal chain in Figure 1. What is it that causes the higher frequency of use of singular as opposed to plural, of present tense as opposed to future tense, of affirmative as opposed to negative, and so on? What causes inanimate nominals to occur in P function more frequently than animate nominals? Maybe this factor, whatever it is, could independently cause both frequency/predictability and shortness of coding, so that the causal chain would be different – as in Figure 2, and not as in Figure 1.

Figure 2 An alternative conception of the causal chain.

This is a possibility that must be taken seriously, but it is quite unclear what this factor X might be. Mayerthaler (Reference Mayerthaler1981: 136–140) proposed that markedness causes both high frequency and shortness of coding, but ‘markedness reversals’ show that this cannot be the explanation (see Haspelmath Reference Haspelmath2006: 44), and it is completely unclear how the abstract feature of markedness would lead to greater frequency of use. I do not know of any other candidate for such a factor X, so I will not discuss this possibility further here.

Ultimately, we would of course like to know the causes of frequency asymmetries, but the causes seem to be quite diverse. For example, the greater frequency of present tense vs. future tense seems to have to do with what we know about the present and about the future: The future is much less certain, so we cannot talk much about it. The greater frequency of male profession nouns vs. female profession nouns must have to do with frequency in the world: Male occupations are traditionally more diversified, so male profession nouns are (or were) used more frequently. But the greater frequency of singular vs. plural must have to do with our cognitive preferences – it cannot be due to the world (which does not contain more singular entities than pluralities) or to our knowledge of the world. It seems that we simply prefer to talk about individual entities.

In contrast to the diverse origins of the frequency asymmetries, their results are very uniform, and this is what the present paper aims to explain.

9.4. Ways of demonstrating the causal link

The focus of this paper has been on presenting a wide range of phenomena from the world’s languages, some of which have been studied extensively and are well known, highlighting that they are all special cases of the overarching form–frequency generalization of (2). I have also discussed a proposed causal link between frequency and asymmetric coding, in line with some earlier work. In this section, I will briefly consider two points of criticism that were raised by two reviewers.

On the one hand, one might ask what the evidence is that the disparate kinds of changes that I surveyed in Section 8 are indeed motivated by a preference for efficient coding. Cristofaro (Reference Cristofaro, Schmidtke-Bode, Levshina, Michaelis and Seržant2019: 27) thinks that ‘recurrent grammatical configurations do not appear to arise because of principles that that favor those particular configurations in themselves’. And indeed, historical linguists have often attributed diachronic changes to processes such as analogy, context-driven reinterpretation, metonymization, or grammaticalization, rather than to ‘efficientization’ processes. One might therefore say that the observed outcomes are not driven by functional adaptation, but by these classical processes and by the properties of the typical sources (Cristofaro Reference Cristofaro and Enfield2017 calls this the ‘source-oriented’ approach).

And indeed, language change often appears to be regular, and one might say that in addition to result-oriented functional-adaptive constraints, there are also mutational constraints (constraints on possible changes or possible diachronic sources) that lead to observed universals (Haspelmath Reference Haspelmath, Schmidtke-Bode, Levshina, Michaelis and Seržant2019a). However, as we saw in Section 8, there are a wide range of disparate paths of change that lead to uniform outcomes. This kind of multi-convergence of diverse changes cannot be explained by a source-oriented approach. Cristofaro (Reference Cristofaro, Schmidtke-Bode, Levshina, Michaelis and Seržant2019: 38) notes that ‘different diachronic processes can all lead to the same synchronic outcome for different reasons’, but this would be an accidental coincidence, and the universal claims of this paper go far beyond such possible coincidences. It may seem surprising that the resulting cross-linguistic regularities are unrelated to presumed regularities of change, but I would point to the analogous situation biological evolution, where functional-adaptive changes do not arise from regular changes either (but from functional selection; see Nettle Reference Nettle, Darnell, Moravcsik, Newmeyer, Noonan and Wheatley1999).

On the other hand, one might ask whether we can go beyond observing the correlations between asymmetric coding and frequency, and test the causal hypothesis experimentally. This has in fact been done in a number of studies using miniature artificial language learning paradigms. Thus, Fedzechkina et al. (Reference Fedzechkina, Jaeger and Newport2012) reported that learners restructured an artificial language with differential case-marking in such a way as to match the cross-linguistically common patterns, and Kurumada & Grimm (Reference Kurumada and Grimm2019) found that learners preferentially produced plural marking on nouns that are less probable to occur with plural meaning, in line with the cross-linguistic tendencies (recall Section 6.4 above).Footnote ¹¹ There are also a number of experimental studies of languages with optional marking that point in the same direction, e.g. Kurumada & Jaeger’s (Reference Kurumada and Jaeger2015) experiments on optional case-marking in Japanese. These works have not been influential among linguists who are not specialized in psycholinguistics, but their results are fully compatible with the claims of this paper. Of course, there are many new issues that arise once one considers the precise psychological mechanisms that might be responsible for the speakers’ behaviour (see Jaeger & Buz Reference Jaeger, Buz, Fernández and Cairns2018 for a comprehensive survey). It is hoped that the present paper will contribute to bringing this line of work from psycholinguistics more closely together with comparative grammar research.

It is important to keep in mind, however, that even though not all questions about the causal connections may have been answered, there is no competing theory that can lay claim to explaining even a fraction of the phenomena of Section 3–7. In practice, the main alternative perspective that this paper argues against is that all these phenomena should be discussed (and perhaps explained) in isolation from each other.