1. Introduction
Relative clauses are arguably one of the most extensively studied topics in syntactic research. In this regard, Japanese is noteworthy in that it exhibits a wide range of relative constructions. The most standard type is head-external relatives, as illustrated in (1).
This construction is called head-external relatives because the head noun shōsetsu ‘novel’ is located outside the relative clause. The head noun is associated with the gap (notated as Ø in a theory-neutral fashion) within the relative clause.
In this paper, we contend that Japanese has a unique type of relative ((2)), which is similar to, but qualitatively distinct from, head-external relatives.
In (2), as in the case of (1), the gap is inside the relative clause, and the head noun is outside the relative clause. Unlike (1), however, the gap is not transparently associated with the head noun; what was written is a novel, whereas what was announced is its title. We call this type of relative Intransparent-Gap Relatives (IGRs).Footnote 2 As can be seen in (3), the non-relative analogue of (2) is not ungrammatical but semantically anomalous.
In the subsequent sections, we will describe the syntactic and semantic properties of IGRs (Section 2) and show that these properties (and further related data to be provided) are captured straightforwardly in Dynamic Syntax (Kempson et al. Reference Kempson, Meyer-Viol and Gabbay2001, Cann et al. Reference Cann, Kempson and Marten2005) (Sections 3–6). As will be detailed in Section 3, its core architectural features are spelt out as follows:
-
• A structure is progressively updated based on incremental parsing.
-
• The structure is semantic, and no independent level of syntactic structure is posited.
As will be proposed in Section 4, these architectural designs are suitable for modelling IGRs. To give an example, the difference between restrictive and non-restrictive IGRs with respect to negation boils down to the timing at which a certain structure-building operation is applied. The proposed account has several consequences beyond IGRs in Japanese. Cross-constructionally, it predicts that a metonymic interpretation is available in relatives but not in other rightward-displacement constructions: clefts and postposing (Section 5). Cross-linguistically, it suggests that IGRs are possible in languages like Japanese and Korean, where a relative clause precedes the head noun, but not in languages like English and French, where the order of a relative clause and the head noun is reversed (Section 6). By way of conclusion, Section 7 sums up the benefits of the Dynamic Syntax approach and mentions further issues in IGRs as future prospects.
2. Description
2.1. IGRs in Japanese
The IGR example in (2) is repeated here as (4).
As stated above, the head noun shōsetsu-mē ‘novel title’ is not directly associated with the gap Ø in that it does not function as the object of the embedded verb kaita ‘wrote’. Some objections, however, may be raised to this structural construal.
First, one may presume that the relative clause in (4) modifies shōsetsu ‘novel’ alone. If this were the case, (4) would be no more than a case of head-external relatives. Such a partial modification, however, is not possible, as can be seen in (5).
If nagai could modify shōsetsu alone, the reading in (5b) would be obtainable, contrary to fact. It is thus reasonable to hold that the relative clause modifies the whole head noun in (4).Footnote 3
Second, Japanese is a pro-drop language, and one may wonder whether Ø in (4) is a pro. If this were the case, Ø could be overtly expressed, but as shown in (6), it cannot.
In frameworks allowing covert elements, one could posit a complex structure where a pro (or other types of null items) cannot be overtly expressed. In Dynamic Syntax, such null items are disallowed, and (6) shows that Ø in IGRs cannot be seen as a pro as long as the data are analysed in this framework (see Section 3.1 for the treatment of pro in Dynamic Syntax).
Third, one may wonder whether the gap in (4) is located somewhere other than the object position of kaita ‘wrote’. One could suppose that the IGR in (4) is based on (7), where shōsetsu-mē (together with the instrumental marker -de) functions as an adjunct.
(7), however, is not quite acceptable out of context, and it is not clear whether it could be a basis for the IGR in (4), which is fully acceptable out of context. The acceptability of (7) improves if the object of kaita ‘wrote’ is explicitly expressed, as in (8).
Still, the IGR version of (8), where shōsetsu-o remains overt as in (9), is not acceptable.Footnote 4
We have examined (4) as a case of IGRs. Further examples are presented below:
As expected, the non-IGR analogues of (10)–(11) are semantically inappropriate.
In the IGRs in (4), (10), and (11), there are surface similarities between the head noun and the item that is expected to fill the gap. In (10), the gap corresponds to kami ‘hair,’ and this is part of the head noun kamigata ‘hairstyle’. But such similarities are not prerequisites for the formation of IGRs. Compare the IGRs in (14)–(15) with their non-IGR versions in (16)–(17).
Further, shōsetsu-mē ‘novel title’ in (4) could be replaced with taitoru ‘title’.
(18) may sound less acceptable than (4), but it becomes fully acceptable when it is preceded by a sentence containing shōsetsu ‘novel’ and taitoru ‘title’, as shown in (19).
These data are indicative that the relation between the head noun and the gap is not purely syntactic. We claim that the relation is semantic, more specifically, metonymic. Metonymy is a cognitive function of using one entity to refer to another, based on various types of contiguity relations (Lakoff & Johnson Reference Lakoff and Johnson2003: 36). A classic example is The kettle is boiling, where kettle refers to the water inside the kettle, based on the relation The container for the content. Another case is Our restaurant doesn’t hire longhairs, where longhairs refers to persons with long hair, based on the relation The part for the whole.Footnote 5
Our contention is that IGRs involve a metonymic relation. In (4), the head noun shōsetsu-mē ‘novel title’ is related to shōsetsu ‘novel’ based on the relation The part for the whole, provided that the title of a novel is a (conceptual) part of the novel. Another type of metonymic relation is pertinent to (14), where osara ‘plate’ is related to ryōri ‘meal’ based on the relation The container for the content. In other examples, too, a metonymic relation may be posited between ‘hairstyle’ and ‘hair,’ between ‘menu’ and ‘meal,’ and so forth.Footnote 6
The metonymy relation discussed here is not reducible to the ‘aboutness’ relation (Kuno Reference Kuno1973: Chapter 21). This point is worth considering since some scholars (e.g. Saito Reference Saito1985: 291) hold that in Japanese head-external relatives, the head noun is tied to the relative clause through an aboutness relation (i.e. the head noun sets a theme about which the relative clause is construed). Given that a primary case of aboutness relations is topicalisation, if a metonymy relation were subsumed under aboutness relations, the topicalised version of an IGR should also be possible. Now, compare the IGR in (11) with its topicalised counterpart in (20).
The topicalised item sono rōdō-jinin cannot be understood as the theme about which the rest of the sentence is interpreted. This suggests that the metonymy relation in IGRs cannot be equated with an aboutness relation.
We assume that the metonymic interpretation is a constructional property of IGRs. This is because if it were freely available, (21), for instance, would be interpretable as ‘The novel is interesting,’ contrary to fact.
The metonymic reading is also unavailable for other rightward-displacement constructions, such as clefts ((22)) and postposing ((23)); each example only allows the literal, absurd reading.
One may suspect that (22)–(23) disallow a metonymic reading because the right-displaced item shōsetsu-mē itself is not predicated. Note, however, that an IGR is wholly acceptable even if the head noun itself is not predicated, as can be seen in (24).
Except for (24), the examples of IGRs discussed thus far concern restrictive modification. Compared with head-external relatives, the interpretation of restrictive modification in IGRs is complex.Footnote 9 Consider the head-external relative in (25) and the IGR in (26).
In (25), the relative clause restricts the set of novels to the set of novels which the writer wrote as his next work. In (26), the relative clause restricts the set of novels to the set of novels which the writer wrote as his next work, and the novels in the restricted set are metonymically mapped to their titles. An example of non-restrictive IGRs is presented in (27).
In (27), the relative clause provides supplementary information about the novel in question, and this novel is metonymically mapped to its title.
Restrictive and non-restrictive IGRs act differently with respect to the negator no-de-wa-nai ‘It is not that …’ In restrictive IGRs, the relative clause falls in the negation scope. In (28), the sole difference (except for the negator) between the two sentences concerns the subject of each relative clause. The initial sentence negates that the author is Ryū, an individual referred to by the subject NP of the relative clause. Thus, in restrictive IGRs, an element inside a relative clause may be the focus of the negator no-de-wa-nai.
In non-restrictive IGRs, the negator only targets the matrix clause.
If the negation scope contained a relative clause, the sequence in (29) would be felicitous. The fact that (29) is infelicitous suggests that the negator cannot take scope over a relative clause in non-restrictive IGRs.
Since Kuno (Reference Kuno1973: 237–241), it has been widely assumed that head-external relatives in Japanese are island-insensitive; see Grosu & Hoshi (Reference Grosu and Hoshi2018: Section 3.1) for a recent defence of this view. We observe that IGRs are also island-insensitive. Before considering relevant data, let us first note that IGRs allow a long-distance dependency, as can be seen in (30).
Now, (31) shows that IGRs are not sensitive to the Complex NP. Constraint. In (31), the part in grey forms a complex NP. (I owe this example to an anonymous reviewer of Natural Language & Linguistic Theory.)
Next, (32) indicates that IGRs are not sensitive to the Adverbial Island Constraint. In (32), the part in grey forms an adverbial clause.
We have described IGRs in Japanese, revealing their metonymic nature as well as other syntactic and semantic properties. Their empirical and theoretical implications will be discussed in the next subsection.
2.2. Implications
To the best of the author’s knowledge, IGRs have not been documented in the literature. In Japanese syntax and semantics, various types of relatives have been identified, including pseudo relatives (Inoue Reference Inoue1976), head-internal relatives (Kuroda Reference Kuroda1992), change relatives (Tonosaki Reference Tonosaki1998), no/de-introduced relatives (Hiraiwa Reference Hiraiwa2012), doubly headed relatives (Erlewine & Gould Reference Erlewine and Gould2016), and so forth. These types of relatives syntactically differ from IGRs in terms of the presence of a gap and/or the position of a head noun. Also, IGRs are unique in always evoking a metonymy-based interpretation. For instance, IGRs are distinguished from pseudo relatives, such as (33) in several respects.Footnote 10
Pseudo relatives are similar to IGRs in that the head noun is outside the relative clause and that their interpretations involve pragmatic bridging, such as ‘if one reads them’ in (33). Unlike IGRs, however, pragmatic bridging in pseudo relatives is not limited to metonymy-based inferences, and it does not need to be represented as a syntactic gap of some kind. Moreover, unlike IGRs (see (22)–(23)), cleft and postposing sentences may be constructed based on pseudo relatives. For instance, (34) is a cleft counterpart of the pseudo relative in (33). As in the case of (33), the interpretation of (34) involves non-metonymic pragmatic bridging.
Also, it will be suggested in Section 6 that IGRs do not exist in languages where the head noun precedes a relative clause. By contrast, pseudo relatives are attested in such languages (see the English translation in (33)). The present paper does not analyse pseudo relatives; see Kurosawa (Reference Kurosawa, Jaszczolt and Turner2002: 326–328) for a Dynamic Syntax account of pseudo relatives.
An IGR interpretation, however, is possible with free relatives (Itô Reference Itô1986). In free relatives, the relative clause is followed by no, which I assume is a pronominal (Grosu & Hoshi Reference Grosu and Hoshi2016: 3). As illustrated in the second clause in (35), the IGR reading is allowed when the head position is occupied by no. Footnote 11
Relatives have also been extensively examined in Japanese descriptive grammars, where a series of studies by Hideo Teramura (Reference Teramura1975–1978, Reference Teramura1980) stand out. His insight has taken a new turn in typological research in the light of the General Noun-Modifying Clause Construction (GNMCC). Matsumoto et al. (Reference Matsumoto, Comrie and Sells2017) suggest that many Eurasian languages possess a uniform construction covering a broad range of clausal noun-modifiers. A typical GNMCC-language is Japanese, where the single noun-modifying structure covers what are standardly called relative clauses, appositive clauses, etc. (Matsumoto Reference Matsumoto, Matsumoto, Comrie and Sells2017). In this view, IGRs would fall in the domain of GNMCC.Footnote 12 This characterisation may attain uniformity in grammar descriptions, but it blurs the distinctions between IGRs and other noun-modifying structures. For instance, IGRs involve a gap, but appositive clauses do not.
From a different perspective, IGRs may be construed as a type of ‘filler-gap mismatch’ constructions (Bouma et al. Reference Bouma, Malouf and Sag2001, Borsley Reference Borsley2015, Bresnan et al. Reference Bresnan, Asudeh, Toivonen and Wechsler2015).
In the filler-gap dependency environment in (36), think of selects a that-clause, but it normally does not license a clausal complement, as shown in (37). In the case of IGRs, the non-relative version of an IGR is not ungrammatical but semantically inappropriate. This has been shown in (3) and repeated here as (38).
IGRs may then be treated as a semantic variant of filler-gap mismatches. Still, the construction has not been described in the literature on filler-gap dependencies, either.
The description of IGRs thus constitutes the empirical findings of the present study. Since (i) the data are new and (ii) relative constructions are a central topic in diverse syntactic theories, a question emerges: in what framework we approach the data. In this paper, we adopt Dynamic Syntax (DS; Kempson et al. Reference Kempson, Meyer-Viol and Gabbay2001, Cann et al. Reference Cann, Kempson, Marten and Otsuka2005). There are two primary reasons for this.
First, DS is a parsing-oriented formalism; a structure is incrementally built up based on left-to-right parsing. This incremental process of structure building deals with a wide range of IGR data. To mention a few, the difference between restrictive and non-restrictive IGRs with respect to negation can be reduced to the timing at which a certain structure-building action (i.e. LINK-evaluating action) is executed (see Section 4). Incremental structure building in DS also accounts for why IGR interpretations are not available for clefts and postposing constructions (see Section 5) and predicts that IGRs are possible only in languages with pre-nominal relative clauses (see Section 6). Another important theoretical feature of DS is that the representations are semantic. They are thus well suited to express metonymic relations.
Second, the previous analyses of relatives in DS are straightforwardly applicable to IGRs, with a minimum enrichment of the structure-building rules established in the literature. As will be illustrated in Section 3, relative constructions of all sorts are analysed based on two types of structure-building rules: (i) to introduce a structure related to a pre-existing structure and (ii) to interpret the relation between these structures. In Section 4, the rule of type (i) for head-external relatives is used for IGRs without any modifications. We need to formulate rules of type (ii) for IGRs, but they minimally differ from the rules for head-external relatives, minimally in that their sole difference pertains to the presence of a metonymic relation. The rules are otherwise identical, and they are uniformly definable (see the Appendix), capturing syntactic parallelisms between head-external relatives and IGRs (e.g. island-insensitivity).
On these grounds, the present paper adopts DS as the theoretical scaffolding. It remains to be seen how the data are handled within other frameworks, including not only the mainstream generative theories but also other frameworks such as Head-Driven Phrase Structure Grammar (e.g. Sag et al. Reference Sag, Wasow and Bender2003) and Lexical–Functional Grammar (e.g. Bresnan et al. Reference Bresnan, Asudeh, Toivonen and Wechsler2015). Alternative analyses will have to not only capture a variety of restrictive and non-restrictive IGR data but also explain (i) why IGR readings are not possible with right-displacement constructions other than relatives (i.e. clefts, postposing) and (ii) why IGRs seem to be possible only in languages where a relative clause precedes the head noun. Such alternative approaches will then have to be carefully compared with the DS approach, both empirically and theoretically.Footnote 13
3. Framework
3.1. Basic machinery
DS is a grammar formalism which explicates the ways a string of words is incrementally parsed and mapped to a semantic structure. This mapping process is direct in that no intermediate level of syntactic representation is hypothesised (Kempson et al. Reference Kempson, Meyer-Viol and Gabbay2001, Reference Kempson, Gregoromichelaki and Howes2011, Reference Kempson, Cann, Gregoromichelaki and Chatzikyriakidis2016, Cann et al. Reference Cann, Kempson and Marten2005, Howes & Gibson Reference Howes and Gibson2021).
A DS structure is represented as a binary-branching semantic tree. To illustrate, the left-to-right parse of (39) gradually builds up a tree in the manner indicated in (40).
A final state varies depending on what string of words is parsed in what context, but the initial state is always set out as (40a). In each tree-state, the node under development is designated by ♢, and each tree-update is motivated by a ‘requirement’. In (40a), only a single node exists, and it is annotated with ?t, a requirement that this node will be decorated with semantic content of type t. As in standard semantic theories, two basic types are defined: ‘t’ for the type of truth-evaluable content and ‘e’ for the type of entities. Complex types include ‘e→t’, the type of functions that take type-e content and return type-t content. In (40), Naomi′ is of type e, come′ is of type e→t, and come′(Naomi′) is of type t. Note that the DS structures are semantic; Naomi′ and come′ are thus not natural-language content.
In DS, three types of tree-update actions are distinguished:
-
• Lexical action: Every word (or morpheme) lexically encodes a set of actions. The parse of a word obligatorily triggers the execution of its encoded actions.
-
• Computational action: Computational actions are not lexically encoded. A parser may run a computational action at any time as long as its input conditions hold at the tree state.
-
• Pragmatic action: Pragmatic actions are also not encoded in words and may be run as long as the input conditions are satisfied. Unlike computational actions, pragmatic actions make reference to contextual (possibly non-linguistic) information.
Execution of lexical actions is obligatory, whilst that of computational and pragmatic actions is optional. That is, a sequence of lexical actions is interspersed with computational and pragmatic actions at the parser’s discretion.
Lexical actions are particularly essential for Japanese due to its pro-drop nature; a single verb may form a complete sentence on its own, as in (41).
A verb is then assumed to encode the lexical actions to build a schematic propositional structure, with the argument nodes decorated with a ‘meta-variable’, which acts as a temporary label until its value (i.e. semantic content) is assigned. In this way, though covert elements such as pro are not postulated, tree nodes may be inhabited by slot-holding meta-variables that will be assigned a value by the time structure building is completed. In (41), the actions encoded in ki- ‘come’ update the initial state in (40a) into (42).
U is a meta-variable, and ?∃x.Fo(x) requires that this meta-variable will be assigned a value (see the Appendix for the predicate Fo). Since the DS framework is ‘non-encapsulated’ (Cann et al. Reference Cann, Kempson and Marten2005: 377), non-linguistic information is available for building a tree. In the context where Naomi came, the parser may assign the value Naomi′ to the meta-variable U. This action, called Substitution, is an instance of pragmatic actions.
As the execution of pragmatic actions is optional, the parser is not forced to run Substitution at this stage. Still, if the parser did not run it here, the requirement ?∃x.Fo(x) would remain in the tree, and the tree update would crash. In (43), the daughter nodes are specified for content and a type. This means that the content-type pair at the root node can be computed by means of functional application and type deduction. This process, called Elimination, is an instance of computational actions.
As computational actions are optional, the parser does not have to run Elimination here. But if it were not run, the requirement ?t would remain in the tree, and the tree update would crash.
In general, the parse of a word sequence is successful when it reaches a ‘well-formed’ tree. A tree is well-formed if no requirements remain in the tree, as in (44). In DS, parsability is related to ‘grammaticality’: a word sequence is grammatical if there exists a parse route that maps the word string onto a well-formed tree. According to this notion of grammaticality, the word sequence in (41) is said to be grammatical because it can be mapped onto the well-formed tree in (44).
3.2. Head-external relatives
As a theoretical basis for analysing IGRs, let us illustrate how DS treats head-external relatives (Kurosawa Reference Kurosawa2003, Cann et al. Reference Cann, Kempson and Marten2005, Kempson & Kurosawa Reference Kempson, Kurosawa and Hoshi2009, Seraku Reference Seraku2013). To this end, the basic machinery set out above must be enriched with further mechanisms.
First, type-e terms are expressed as a triple of an operator, a variable, and a restrictor in the epsilon calculus. For indefinite reference, a man is expressed as (ε, x, man′(x)) with the epsilon operator ε. This term picks out some element of the set denoted by the restrictor man′. For proper names, the iota operator ι, which models Russellian uniqueness, is employed, as in (ι, x, Naomi′(x)).
Second, we introduce ‘LINK’, a structure-pairing device based on a shared type-e item. LINK has been utilised for various constructions, including relatives and clefts. For illustration, consider the head-external relative in (45).
The parse of the relative clause yields (46), where (ε, x, P(x)) is a ‘gap’ term with a maximally abstract predicate P (Kempson & Kurosawa Reference Kempson, Kurosawa and Hoshi2009: 65).
This structure is then LINKed to a type-e-requiring node, as in (47). The introduction of LINK is formulated as the computational action of LINK Adjunction (see [4] in the Appendix).
LINK Adjunction is a general rule for launching a LINK relation, used for both head-external relatives and IGRs. The LINKed node is suitable for parsing the head noun shōsetsu ‘novel’, as shown in (48). (LINK Adjunction is an optional rule, but if it is not run, a type-e-requiring node is not created, and the head noun cannot be processed.)
To ensure that the head noun is modified by the relative clause, the content of the relative clause is reflected in that of the head noun. This process is formulated as the computational action of LINK Evaluation (see [5] in the Appendix).
The composite term α correctly denotes the novel which the writer wrote. The current node will then be identified as the subject node by -ga and become the argument of shuppansareta ‘was published.’Footnote 14 Finally, Elimination (i.e. functional application, type deduction) gives rise to the tree state in (50).
(45) is a case of restrictive relatives. (51) illustrates its non-restrictive counterpart.
As in restrictive relatives, LINK Adjunction creates a LINKed node, and it is decorated by the head NP ano shōsetsu. At this point, the tree state in (52) emerges (cf. (48)).
In the case of restrictive relatives, LINK Evaluation was applied here (i.e. immediately after the head NP is parsed; see (48)–(49)). In the case of non-restrictive relatives, however, the parse proceeds; the current node, marked with ♢ in (52), is specified as the subject node by -ga and becomes the argument of shuppansareta ‘was published’. The tree state after Elimination is presented in (53).
It is at this stage (i.e. after the matrix structure is fully developed) that the LINK relation for non-restrictive relatives is evaluated. This is achieved by LINK Evaluation (NON-REST) (Cann et al. Reference Cann, Kempson and Marten2005: 92; cf. Kempson & Kurosawa Reference Kempson, Kurosawa and Hoshi2009: 67) (see [8] in the Appendix). Its effect is to conjoin the proposition of the relative clause and that of the matrix clause. In the conjoined proposition, the gap term (ε, x, P(x)) has been replaced with the term for the head NP.
In sum, DS formalises the dynamic, time-linear update of interpretation, modelled as an incremental growth of a semantic tree based on lexical, computational, and pragmatic actions. The tree may involve paired structures, introduced and interpreted by LINK.
4. Account
This section proposes a simple account of IGRs within DS, simple in that we only need to define variants of LINK Evaluation. LINK consists of two actions: (i) to launch a LINK relation and (ii) to evaluate it. We use the same action of type (i) for IGRs and head-external relatives, with their differences reduced to minimally different specifications of the actions of type (ii).
4.1. Restrictive IGRs
First of all, consider the example of IGRs in (2), repeated here as (55).
The parse of the relative clause engenders a structure where the gap is expressed as (ε, x, P(x)). Then, LINK Adjunction introduces a type-e-requiring node, on which the head noun shōsetsu-mē ‘novel title’ is parsed. At this stage, the tree in (56) emerges (disregarding jikaisaku-toshite ‘as his next work’ for the sake of simplicity).
Thus far, the parse has been identical to that for the head-external relative in (45). Since computational actions are optional, the parser could execute LINK Evaluation, as in (57).
This tree is legitimate, but it only models the absurd reading in which the writer wrote the title of a novel (rather than a novel itself) as his next work. To capture the IGR reading, we define a variant of LINK Evaluation: LINK Evaluation (IGR). This action, which updates (56) to (58), introduces a term with a metonymy predicate M.
M is a two-place relation; x (a variable in the gap position) stands in a metonymy relation (e.g. whole–part relation) to z (a variable restricted by novel.title′). (As mentioned in footnote 6, it is a residual issue to define a possible range of metonymy relations and flesh out the predicate M.) In (58), α denotes an entity z, such that (i) z is a novel title and (ii) z is metonymically related to x, such that the writer wrote x. That is, LINK Evaluation (IGR) outputs a composite term based on (i) the head noun and (ii) the relative clause, with the gap term being replaced with a term denoting an entity metonymically related to the content of the head noun.
The rest of the process is as usual. The current node in (58) is identified as the subject node by -ga and selected by the matrix predicate be.announced′. Finally, Elimination (i.e. functional application, type deduction) outputs the tree state in (59).
The current node is decorated with the formula representing the propositional content of (55): ‘The title of the novel which the writer wrote (as his next work) was announced.’
The analysis illustrated in (58)–(59) might look complicated, but what is newly proposed is only a variant of LINK Evaluation, an action independently motivated in previous studies. As in the case of LINK Evaluation, LINK Evaluation (IGR) produces a term reflecting the content of the head noun and that of the relative clause. Their difference lies in the treatment of a gap term. Unlike LINK Evaluation, LINK Evaluation (IGR) adds a metonymy predicate M, so that the embedded predicate selects as its argument a term denoting an entity metonymically related to the content of the head noun, rather than the content of the head noun itself. LINK Evaluation and LINK Evaluation (IGR) are uniformly defined in [7] in the Appendix.
This LINK-based analysis accounts for why the metonymic interpretation does not obtain for non-relative examples such as (60) (= (21)).
In our analysis, a metonymic reading arises through the evaluation of a LINK relation. In (60), shōsetsu-mē is not parsed on a LINKed node, and LINK Evaluation (IGR) cannot be applied.
The analysis also models that the head noun is not directly modified by the relative clause. In the IGR in (55), what is restricted is the set of novels, not the set of novel titles. This is indeed what we find in the term α in (59); the embedded predicate write′ selects as its internal argument (ε, x, M(z)(x)), a term denoting a novel, not the title of a novel.
The introduction of a metonymy predicate is also relevant to the free-relative counterpart of IGRs. Consider the second clause in (61) (= (35)).
As usual, LINK Adjunction is executed after the parse of the relative clause. I assume that the pronominal no in (61) puts a meta-variable at the LINKed node. This meta-variable is updated (i.e. Substitution) into (ε, z, novel.title’(z)), provided that no is interpreted with respect to shōsetsu-mē ‘novel title’ in the preceding clause.
Then, LINK Evaluation (IGR) is applied, creating a term with a metonymy predicate M, namely, the term α in (58). This term denotes the title of the novel which the writer wrote.
Finally, our analysis models the island-insensitivity of IGRs as well as head-external relatives. For these constructions, the same computational action, LINK Adjunction, is used. As defined in [4] of the Appendix, one of its input conditions is <D>(Fo(α)). <D> is a tree-node operator allowing the parser, which looks for a gap term, to look inside the structure of a syntactic island. In DS, a complex NP and an adverbial clause are analysed to involve a LINK relation, and any element within a LINKed structure is visible to the parser due to the operator <D> (Cann et al. Reference Cann, Kempson and Marten2005: 145). Therefore, IGRs and head-external relatives are island-insensitive.
4.2. Non-restrictive IGRs
Let us turn to non-restrictive cases, such as (63) (= (27)).
To account for the IGR in (63), we define LINK Evaluation (IGR_NON-REST), a variant of LINK Evaluation (NON-REST). This action is also executed after the matrix clause is parsed (cf. (54)); (64) displays the tree state immediately before this action is applied.
As illustrated in (65), LINK Evaluation (IGR_NON-REST) conjoins the proposition of the matrix clause with that of the relative clause where a metonymy predicate M is introduced.
The term (ι, x, M(ι, z, novel.title′(z))(x)) metonymically refers to the novel in question. This analysis of non-restrictive IGRs differs from the standard DS analysis of non-restrictive head-external relatives solely in terms of a metonymy predicate. LINK Evaluation (NON-REST) and LINK Evaluation (IGR_NON-REST) are uniformly defined in [10] in the Appendix.
LINK Evaluation (IGR_NON-REST) is run after the matrix clause is processed, whilst LINK Evaluation (IGR) is run after the head noun is processed. This difference in the timing of action-running models the restrictive/non-restrictive distinction with respect to negation. Consider the non-restrictive IGRs in (66) (= (29)).
In the first sentence, LINK Evaluation (IGR_NON-REST) is run after the matrix clause (including the negator) is parsed. Before the action is run, the top node of the matrix structure is decorated with the annotations in (67) (cf. (64)).
The negator only applies to the proposition of the matrix clause. LINK Evaluation (IGR_NON-REST) conjoins this negated proposition with the (non-negated) proposition of the relative clause. This is why the relative clause does not fall in the negation scope in non-restrictive IGRs.
In restrictive IGRs, LINK Evaluation (IGR) is run before the negator is parsed. Consider the restrictive IGRs in (68) (= (28)).
In the first sentence, LINK Evaluation (IGR) is run after the head noun shōsetsu-mē ‘novel title’ is parsed. Therefore, by the time the negator is parsed, the top node of the matrix structure has been decorated with the proposition reflecting the relative clause, as can be seen in (69) (cf. (59)).
The negator, once parsed, will take scope over the proposition in (69), which itself reflects the propositional content of the relative clause. This is why the relative clause falls in the negation scope in restrictive IGRs.
4.3. Summary
We have developed a uniform account of head-external relatives and IGRs by defining variants of LINK-evaluating rules, which have been independently proposed in extant studies (e.g. Cann et al. Reference Cann, Kempson and Marten2005, Kempson & Kurosawa Reference Kempson, Kurosawa and Hoshi2009). The ensuing sections will look at a broader picture: Section 5 will be devoted to non-relative rightward-displacement constructions in Japanese, and Section 6 to IGR-comparable data in several languages beyond Japanese.
5. Cross-constructional consideration
In this section, we show that our analysis of IGRs, together with the independently motivated DS machinery, accounts for why a metonymy reading is unavailable in non-relative rightward-displacement constructions in Japanese: postposing and clefts.Footnote 15
5.1. Postposing
(23) is repeated here as (70).
(70) is grammatical but semantically inappropriate. If the postposed item shōsetsu-mē ‘novel title’ is replaced with shōsetsu ‘novel,’ as in (71), the resulting sentence is grammatical and interpreted appropriately.
Seraku & Ohtani (Reference Seraku, Ohtani and Piñón2016) present a DS treatment of Japanese postposing, according to which the postposed item shōsetsu-mē in (70) is parsed on an ‘unfixed’ node (see also Cann et al.’s (Reference Cann, Kempson and Marten2005: 524) Final-*Adjunction). In DS, the position of a node in a tree may be initially underspecified and fixed subsequently (Cann et al. Reference Cann, Kempson and Marten2005: 59–67).
The dashed line indicates that the position of the node is underspecified. There are two ways in which this underspecification is resolved, depending on whether the postposed element is case-marked. If the accusative case -o is present, the parser runs its lexical actions, which resolve the unfixed node in the object position. If the accusative case -o is absent, the parser may execute the computational action of Unification, which merges the unfixed node with the object node. In either way, the unfixed node is identified as the object node.
After Elimination (i.e. functional application, type deduction) is applied, the final state in (74) emerges. This tree models the anomalous reading of (70).
In the tree-update processes above, a metonymic predicate cannot be introduced. First, it is held that the function of case markers is purely structural: to resolve an unfixed node (Cann et al. Reference Cann, Kempson and Marten2005: Section 6.2.1). Thus, they cannot introduce content-related decorations (such as a metonymy predicate). Second, Unification is a general action which simply merges two nodes, and it cannot be manipulated to add decorations. Our analysis, therefore, captures only the literal, absurd interpretation of (70).
In the case of (71), the postposed item shōsetsu ‘novel’ is parsed on an unfixed node. The resulting tree is identical to (74), except that all instances of (ι, x, novel.title′(x)) are replaced with (ι, x, novel′(x)). This tree correctly represents the interpretation of (71): ‘That writer wrote xi as his next work, this noveli.’
5.2. Clefts
Essentially the same form of analysis is applicable to clefts. Consider (75) (= (22)).
(75) is grammatical but semantically anomalous. Compare (75) with (76), where the focus shōsetsu-mē ‘novel title’ has been replaced with shōsetsu ‘novel’.
It has been reported that Japanese clefts with an accusative-marked focus are often degraded but not unacceptable (e.g. Hiraiwa & Ishihara Reference Hiraiwa and Ishihara2012: 144). That is, although (75)–(76) are less acceptable when the focus is accusative-marked, they are grammatical, and only (76) semantically makes sense.
A DS account of Japanese clefts has been proposed in Seraku (Reference Seraku2013: Chapter 5). His analysis is complicated due to the lexical actions encoded in the nominaliser no-, the topic particle -wa, and the copula -da. Setting aside the details, the gist of his analysis is that (i) the focus is parsed on an unfixed node, and (ii) this node unifies with the gap node in the presupposition structure. As for (ii), the node unification occurs through the parse of the accusative -o (if -o is present) or the application of Unification (if -o is absent). For the same reasons as stated towards the end of Section 5.1, there is no room for introducing a metonymic predicate in these tree-update processes. Therefore, only the absurd reading of (75) is obtained.
Finally, the analysis successfully handles (76). After the focus shōsetsu ‘novel’ is parsed on an unfixed node, it unifies with the object node (which is decorated with a gap term) within the presupposition structure. This process takes the form of lexical actions (if -o is present) or Unification (if -o is absent). The resulting tree correctly represents the interpretation of (76): ‘It is this noveli that the writer wrote xi as his next work.’
6. Cross-linguistic consideration
In this section, we look at several languages beyond Japanese. A pressing issue is whether IGRs are found in languages other than Japanese.
First of all, consider the English examples in (77)–(78).
(77) is a case of head-external relatives, whilst (78) is meant to be an English counterpart of the Japanese IGR in (2). But the latter only allows the literal, anomalous reading. A further illustration is made with a different pair of examples (cf. (14)).
These examples suggest that IGRs are disallowed in English.
Next, consider French. (81)–(82) show the same contrast as observed in (77)–(78).
In French, roman titre ‘novel title’ is illicit, and this is why only titre ‘title’ is used as the matrix subject in (82), with the assumption that titre is interpretable as ‘the title of a novel, a book, etc.’ in that it co-occurs with écrivain ‘writer’ and a écrit ‘wrote’. Also, consider (83)–(84).
In (83), the relative clause modifies the head noun plat ‘meal’. This is morphologically evident; plat is masculine, and it triggers the masculine form fini. In (84), finie is a feminine form, and it agrees with the feminine assiette ‘plate’. That is, (84) only has the awkward reading that the person ate a plate. Thus, IGRs are disallowed in French, too.
Our account predicts that IGRs are not possible in English and French. In these languages, the head noun precedes a relative clause. As explicated below, structure building based on this word order prevents an IGR reading. Consider the English relative in (78), repeated here as (85). Our analysis of English relatives is based on Cann et al. (Reference Cann, Kempson and Marten2005: Chapter 3).
The head NP the novel title is processed on the matrix subject node, and this node is related to an emerging propositional structure by LINK Adjunction (for English relatives).
?<↓*>Fo(x) requires that a node in the emerging structure will be decorated with x, a variable shared by (ι, x, novel.title′(x)). The structure is fleshed out by the relative clause, and Elimination (i.e. functional application, type deduction) applies. As shown in (87), the object node is decorated with the variable x, satisfying the requirement ?<↓*>Fo(x).
This tree, however, causes a problem. The gap node is decorated with a specific variable x, shared by (ι, x, novel.title′(x)). The only available reading will then be the one where the writer wrote a title as his next work, an absurd reading. On the other hand, in Japanese, where the head noun follows a relative clause, the parse of a relative clause is not constrained by the head noun; formally, a requirement like ?<↓*>Fo(x) is absent. Therefore, a gap node can be decorated with a general term (ε, x, P(x)), which itself is independent of any concrete term and may be related metonymically to the head noun at a subsequent stage.
One may wonder whether it is possible to introduce a requirement involving a metonymy predicate like ?<↓*>Fo(ε, y, M(x)(y)), instead of ?<↓*>Fo(x), in (86). With such a requirement, the object node can only be decorated with a specific term (ε, y, M(x)(y)), and the parser cannot interpret a LINK relation properly (i.e. cannot execute LINK Evaluation).
One might then wonder whether it is possible to postulate the English analogue of LINK Evaluation (IGR). This computational action, even if defined, only updates the matrix structure (more specifically, the node for the head noun) and cannot introduce any decoration (such as a metonymy predicate) to the embedded structure. Thus, an IGR reading cannot be obtained.
To recapitulate, in languages such as English and French, where the head noun precedes a relative clause, the structure building for a relative clause is constrained by the head noun, and this constrained process bars an IGR interpretation. Can we then say that IGRs are always licensed if the head noun follows a relative clause?
First, IGRs are possible in Korean. Consider (88)–(89). Though almost all IGR examples in Section 2.1 may be reproduced in Korean, space prevents me from citing more of them.Footnote 16
Examples such as (88)–(89) have not been explored in previous studies on Korean relatives (see Kim Reference Kim2016, Park et al. Reference Park, Seo and Hoe2020, and references therein).
Second, consider (90), an example from Mandarin Chinese.
The relative clause modifies the head NP xiao.shuo ming.zi ‘novel title,’ and the sentence has a semantically coherent IGR reading that the writer is writing a novel. (Mandarin disallows a partial modification (cf. (5)); if the adjective ‘long’ precedes xiao.shuo ming.zi ‘novel title,’ it only means ‘the long title of a novel’.) Still, not all IGR structures in Japanese are possible in Mandarin. Thus, (91) only has the literal, absurd reading.
In sum, the order of a relative clause and the head noun seems to affect the formation of IGRs, but there would be other factors, too. Our claim, then, is that IGRs are licensed only if the head noun follows a relative clause. This takes the form of a necessary condition, declaring that (i) if the head noun precedes a relative clause in a language L (e.g. English, French), IGRs should be disallowed in L, and (ii) if the head noun follows a relative clause in L (e.g. Japanese, Korean, Mandarin), IGRs may be allowed in L. That is, we are making a stronger claim for languages where the head noun precedes a relative clause.
It goes far beyond the scope of this paper to examine this cross-linguistic claim against a variety of languages, and further work is required to see whether (and to what extent) IGRs are possible in a given language and to identify the pertinent factors other than the order of a relative clause and the head noun.Footnote 17
7. Conclusion
We have described a hitherto undocumented type of relatives in Japanese, IGRs, and have articulated a formal account of IGRs within DS. The theoretical and empirical benefits of the proposed account are summarised as follows:
-
• The account unifies IGRs and head-external relatives, relegating their differences to the ways the head noun is construed against the relative clause. The uniformity of this analysis is supported by syntactic parallelisms (e.g. island-insensitivity) and by the surface identity of the relative clause part. (In general, the surface identity does not necessarily motivate a uniform analysis, but it is significant for parsing-oriented formalisms such as DS.)
-
• The account is simple in that it is based on (i) the single LINK-introducing action and (ii) the minimally different LINK-interpreting actions, such as LINK Evaluation and LINK Evaluation (IGR). Apart from the metonymy predicate M, the other mechanisms have all been independently motivated and established in the DS literature.
-
• The account brings cross-constructional implications. It accounts for why a metonymic interpretation is unavailable in rightward-displacement constructions other than relatives, such as clefts and postposing.
-
• The account brings cross-linguistic implications. It ‘predicts’ that IGRs are disallowed in languages where the head noun precedes a relative clause, and it ‘expects’ that IGRs may be allowed in languages where the head noun follows a relative clause.
Given that IGRs have not been investigated in previous work, it is not possible to fully reveal their syntactic, semantic, and pragmatic properties in this single study. For instance, we have not surveyed reconstruction effects with respect to binding, quantification, and so forth. This is partly because the judgments could be elusive; in fact, different scholars have presented different judgements about reconstruction effects in head-external relatives (e.g. Hoji Reference Hoji1985, Hoshi Reference Hoshi2004, Whitman Reference Whitman and Özge2013). These issues must be carefully addressed for Japanese IGRs and the comparable constructions observed in Korean and, to a lesser extent, in Mandarin (and possibly other languages).
Also, we modelled a metonymy relation in terms of the predicate M, but its content was not formalised. To elucidate it, it may be worth exploring similarities and differences between the Metonymy Condition (MC) on IGRs and the Relevancy Condition (RC) on head-internal relatives (Kuroda Reference Kuroda1992: 147). As pointed out by Reviewer ♯1, each of them imposes stronger constraints than mere discourse coherence or pragmatic bridging.Footnote 18 Recently, Tancredi et al. (Reference Tancredi, Grosu and Hoshi2021: 12–13, 18) have argued that the RC holds between two eventualities expressed by ‘hierarchically adjacent’ constituents. In this connection, it will be profitable to survey the exact domain in which the MC operates. Further, Grosu & Hoshi (Reference Grosu and Hoshi2019) show that head-internal relatives are ‘integrated’ constructions. The reader is referred to Grosu & Hoshi (Reference Grosu and Hoshi2019: 5) for the notion of integration, but if a relative clause is not integrated into the matrix clause, a negator in the matrix clause cannot take scope over the relative clause. In this respect, non-restrictive IGRs are not integrated; a negator in the matrix clause cannot take scope over the IGR clause (see (29)). This is indicative that, unlike the RC, the MC applies to both integrated and non-integrated constructions. In future work, a more comprehensive description must be provided, with distinct types of operators other than negation.
We have seen that IGRs pose intriguing puzzles for grammar modelling. As suggested by Reviewer ♯2, the intrinsic interplays of syntax, semantics, and pragmatics in the incremental projection of interpretation in IGRs might be particularly well captured by ‘non-encapsulated’ frameworks such as DS (Cann et al. Reference Cann, Kempson and Marten2005: 377). As a non-encapsulated model, DS has been applied to various dialogue phenomena (e.g. quantifier data in ‘split utterances’; see Howes & Gibson Reference Howes and Gibson2021: 273 for references); see also Seraku (Reference Seraku2023) for an analysis of Japanese dialogue. A range of the IGR data uncovered in the present paper can be viewed as a further challenge to the articulation of natural language grammars at the syntax–semantics–pragmatics interface. More research is required to see whether the non-encapsulated feature of the DS architecture is particularly useful for taking up the challenge.
Acknowledgments
I am grateful to the three anonymous reviewers of the Journal of Linguistics (referred to as Reviewer ♯1, Reviewer ♯2, and Reviewer ♯3 in the text) and the three anonymous reviewers of Natural Language & Linguistic Theory for their valuable comments and questions. I also greatly benefitted from the helpful feedback on earlier versions of the present paper provided by Anthony Backhouse, Hiroto Hoshi, Kaori Miura, and the audience of the ‘Wednesday Seminar’ (Hankuk University of Foreign Studies, 21/Dec/2019). Last but not least, I wish to thank my language consultants for their time and effort: Andrew Bruske (English); Jean-Baptiste Causse (French); Yukari Abe, Saeko Ogihara, Miho Takahashi, Yohei Terada, and Reiko Yoshida (Japanese); Hee-Ju Chang, Jin-Yub Kim, and Eun-Hee Shim (Korean); and Zhang Chi, Minyu Quan, and Yile Yu (Mandarin).
Declaration
The author has no relevant financial or non-financial competing interests to disclose.
Appendix
This appendix summarises the basics of the Dynamic Syntax formalism (Kempson et al. Reference Kempson, Meyer-Viol and Gabbay2001) and defines the LINK-related rules for head-external relatives and IGRs in Japanese.
Basic formalism
A node, if fully developed, is decorated with a set of statements. A ‘content’ statement is notated as in Fo(Naomi′) with a formula predicate Fo, and a ‘type’ statement is notated as in Ty(e) with a type predicate Ty. Thus, the tree in (44) is more formally represented as in [1].
A tree is constructed through a combination of computational, lexical, and pragmatic actions. They are formulated as a conditional statement: IF…, THEN…, ELSE…. The IF-line specifies an input condition; if it is met at the current node, the parser looks at the-THEN line; otherwise, the-ELSE line applies. The THEN- and ELSE-lines may specify actions in the form of make(α), go(α), and put(α), designating the action to make a node α, the action to go to a node α, and the action to place a decoration α, respectively. For instance, the lexical entries for ki- ‘come’ are defined as in [2].
Tree-node relations are designated by the tree-node operators, such as <↓0> and <↓1> (and their inverses, <↑0> and <↑1>) in the Logic of Finite Trees (Blackburn & Meyer-Viol Reference Blackburn and Meyer-Viol1994). From the perspective of the current node, <↓0> refers to the argument-daughter node, and <↓1> to the functor-daughter node. The lexical actions in [2], then, yield the tree in [3].
The present paper also uses the following operators: <D>(α) states that the decoration α holds at some node below the current node (possibly across a LINK relation). <L>(α) states that the decoration α holds at the node LINKed from the current node. <L–1>(α) states that the decoration α holds at the node from which the current node is LINKed.
LINK-related rules
There is a single action to launch a LINK relation: LINK Adjunction. This action, defined in [4], is used for both head-external relatives and IGRs. [4] has been proposed in previous studies (see, e.g., Kempson & Kurosawa Reference Kempson, Kurosawa and Hoshi2009: 66).
Each type of relatives has its own LINK-evaluating rule. [5] is used for restrictive head-external relatives, and [6] for restrictive IGRs. In [5], ψ[y/(ε, x, P(x))] means that the gap term is replaced with y in ψ. (ψ here stands for the content of the relative clause.) In [6], ψ[(ε, x, M(y)(x))/(ε, x, P(x))] means that the gap term is replaced with a term with a metonymy predicate M in ψ. [5] has been proposed in previous studies (e.g. Kempson & Kurosawa Reference Kempson, Kurosawa and Hoshi2009: 66), whereas [6] is proposed in the present study.
[5]–[6] can be unified through abstraction over the substituent of a gap term.
LINK-evaluating rules for non-restrictive head-external relatives and IGRs are given in [8]–[9]. Unlike [5]–[7], [8]–[9] conjoin two propositions, as specified in the inner THEN-line. Due to this difference, [5]–[7] are not unified with [8]–[9]. [8] has been proposed in previous studies (e.g. Cann et al. Reference Cann, Kempson and Marten2005: 92), whereas [9] is proposed in the present study.
As [5]–[6] can be unified through abstraction over the substituent of a gap term, as in [7], [8]–[9] can also be unified in the same manner, as in [10].