sign languages Sign languages (also known as signed languages) are languages that use the visual-manual modality to convey meaning, instead of spoken words. Sign languages are expressed through manual articulation in combination with non-manual markers. Sign l ...

, the term classifier construction (also known as classifier predicates) refers to a morphological system that can express events and states. They use

handshape In sign languages, handshape, or dez, refers to the distinctive configurations that the hands take as they are used to form words. In Stokoe terminology it is known as the , an abbreviation of ''designator''. Handshape is one of five components o ...

classifiers to represent movement, location, and shape. Classifiers differ from signs in their morphology, namely in that signs consist of a single

morpheme A morpheme is the smallest meaningful constituent of a linguistic expression. The field of linguistic study dedicated to morphemes is called morphology. In English, morphemes are often but not necessarily words. Morphemes that stand alone ...

. Signs are composed of three meaningless

phonological Phonology is the branch of linguistics that studies how languages or dialects systematically organize their sounds or, for sign languages, their constituent parts of signs. The term can also refer specifically to the sound or sign system of a ...

features: handshape, location, and movement. Classifiers, on the other hand, consist of many morphemes. Specifically, the handshape, location, and movement are all meaningful on their own. The handshape represents an entity and the hand's movement iconically represents the movement of that entity. The relative location of multiple entities can be represented iconically in two-handed constructions. Classifiers share some limited similarities with the

gestures A gesture is a form of non-verbal communication or non-vocal communication in which visible bodily actions communicate particular messages, either in place of, or in conjunction with, speech. Gestures include movement of the hands, face, or ...

of hearing non-signers. Those who do not know the sign language can often guess the meaning of these constructions. This is because they are often iconic (non-arbitrary). It has also been found that many unrelated sign languages use similar handshapes for specific entities. Children master these constructions around the age of 8 or 9. Two-handed classifier constructions have a figure-ground relationship. Specifically, the first classifier represents the background whereas the second one represents the entity in focus. The right hemisphere of the brain is involved in using classifiers. They may also be used creatively for story-telling and poetic purposes. Frishberg coined the word "classifier" in this context in her 1975 paper on

American Sign Language American Sign Language (ASL) is a natural language that serves as the predominant sign language of Deaf communities in the United States of America and most of Anglophone Canada. ASL is a complete and organized visual language that is express ...

. Various connections have been made to classifiers in spoken languages. Linguists have since then debated on how best to analyze these constructions. Analyses differ in how much they rely on morphology to explain them. Some have questioned their linguistic status, as well as the very use of the term "classifier". Not much is known yet about their

syntax In linguistics, syntax () is the study of how words and morphemes combine to form larger units such as phrases and sentences. Central concerns of syntax include word order, grammatical relations, hierarchical sentence structure ( constituenc ...

phonology Phonology is the branch of linguistics that studies how languages or dialects systematically organize their sounds or, for sign languages, their constituent parts of signs. The term can also refer specifically to the sound or sign system of a ...

Description

In classifier constructions, the

is the classifier representing an entity, such as a horse. The signer can represent its movement and/or speed in an iconic fashion. This means that the meaning of the movement can be guessed by its form. A horse jumping over a fence may be represented by having the stationary hand be the fence and the moving hand be the horse. However, not all combinations of handshape and movement are possible. Classifier constructions act as

verbs A verb () is a word (part of speech) that in syntax generally conveys an action (''bring'', ''read'', ''walk'', ''run'', ''learn''), an occurrence (''happen'', ''become''), or a state of being (''be'', ''exist'', ''stand''). In the usual descrip ...

. The handshape, movement and relative location in these constructions are meaningful on their own. This is in contrast to two-handed lexical signs, in which the two hands do not contribute to the meaning of the sign on their own. The handshapes in a two-handed classifier construction are signed in a specific order if they represent an entity's location. The first sign usually represents the unmoving ground (for example a surface). The second sign represents the smaller figure in focus (for example a person walking). While the handshape is usually determined by the visual aspects of the entity in question, there are other factors. The way in which the doer interacts with the entity or the entity's movement can also affect the handshape choice. Classifiers also often co-occur with verbs. Not much is known yet about their

. Classifier constructions are produced from the perspective of the signer. This means that the addressee must mentally flip the construction horizontally to understand it correctly. For example, if the addressee sees the signer place an object on the right side from the addressee's perspective, it means that they (the addressee) must mentally flip the construction to understand that it was placed on the left side. Native signers seem to be able to do this automatically. Two-handed lexical signs are limited in form by two constraints. The Dominance Condition states that the non-dominant hand cannot move and that its handshape comes from a restricted set. The Symmetry Condition states that both hands must have the same handshape, movement and orientation. Classifier constructions, on the other hand, can break both of these restrictions. This further exemplifies the difference in phonology and morphology between lexical signs and classifiers. Unlike spoken language, sign languages have two articulators that can move independently. The more active hand is termed the dominant hand whereas the less active hand is non-dominant. The active hand is the same as the signer's

dominant hand In human biology, handedness is an individual's preferential use of one hand, known as the dominant hand, due to it being stronger, faster or more dextrous. The other hand, comparatively often the weaker, less dextrous or simply less subject ...

, although it is possible to switch the hands' role. The two hands allow signers to represent two entities at the same time, although with some limitations. For example, a woman walking past a zigzagging car cannot be signed at the same time. This is because two simultaneous constructions cannot have differing movements; one would have to sign them sequentially.

Argument structure

Classifiers constructions may show

agreement Agreement may refer to: Agreements between people and organizations * Gentlemen's agreement, not enforceable by law * Trade agreement, between countries * Consensus, a decision-making process * Contract, enforceable in a court of law ** Meeting of ...

with various

arguments An argument is a statement or group of statements called premises intended to determine the degree of truth or acceptability of another statement called conclusion. Arguments can be studied from three main perspectives: the logical, the dialecti ...

in its domain. In the example below, the handshape agrees with the

direct object In linguistics, an object is any of several types of arguments. In subject-prominent, nominative-accusative languages such as English, a transitive verb typically distinguishes between its subject and any of its objects, which can include but ...

, using a "thin object" handshape for flowers and a "round object" handshape for apples. Agreement between subject and

indirect object In linguistics, an object is any of several types of arguments. In subject-prominent, nominative-accusative languages such as English, a transitive verb typically distinguishes between its subject and any of its objects, which can include bu ...

is marked with a path movement from the former to the latter. This manner of marking agreement is shared with some lexical signs. There are also correlations in

(ASL) between specific types of classifier constructions and the kind of argument structure they have: # Predicates with a handling classifier are transitive (with an external and an internal argument) # Predicates with a whole entity classifier are intransitive unaccusative (one single internal argument) # Predicates with a body part classifier are intransitive unergative (one single external argument)

Classification

There have been many attempts at classifying the types of classifiers. The number of proposed types have ranged from two to seven. Overlap in terminology across the classifications systems can cause confusion. In 1993, Engberg-Pedersen grouped the handshapes used in classifier constructions in four categories: * Whole entity classifiers: The handshape represents an object. It can also represent a non-physical concept, such as culture. The same object may be represented by multiple handshapes to focus on different aspects of the concept. For example, a CD may be represented by a flat palm or by a rounded C-hand. *Extension and surface classifiers: The handshape represents the depth or width of an entity. For example, a thin wire, a narrow board or the wide surface of a car's roof. These are not always considered to be classifiers in more recent analyses. * Handling/instrument classifiers: The handshape represents the hands handling an entity or instrument, such as a knife. They resemble whole entity classifiers, but they

semantically Semantics (from grc, σημαντικός ''sēmantikós'', "significant") is the study of reference, meaning, or truth. The term can be used to refer to subfields of several distinct disciplines, including philosophy, linguistics and c ...

imply an agent handling the entity. Just as with whole entity classifiers, the entity in handling classifiers does not have to be a physical object. *Limb classifiers: The handshape represents limbs such as legs, feet or paws. Unlike other classifier types, these cannot be combined with motion or location morphemes. The handshape's movement is grouped similarly: * Location morphemes: Movement represents the location of an entity through a short, downward movement. The entity's orientation can be represented by shifting the hand's orientation. *Motion morphemes: Movement represents the entity's movement along a path. *Manner morphemes: Movement represents the manner of motion, but not the path. *Extension morphemes: Movement does not represent actual motion, but the outline of the entity's shape or perimeter. It can also represent the configuration of multiple similar entities, such as a line of books. Whole entity classifiers and handling classifiers are the most established classifier types. The former occur with intransitive verbs, the latter occur with

transitive verbs A transitive verb is a verb that accepts one or more objects, for example, 'cleaned' in ''Donald cleaned the window''. This contrasts with intransitive verbs, which do not have objects, for example, 'panicked' in ''Donald panicked''. Transit ...

. Most linguists don't consider extension and surface classifiers to be true classifiers. This is because they appear in a larger range of syntactic positions. They also cannot be referred back to anaphorically in the discourse, nor can they be combined with motion verbs. Certain types of classifiers and movements cannot be combined for grammatical reasons. For example, in ASL manner of motion cannot be combined with limb classifiers. To indicate a person limping in a circle, one must first sign the manner of motion (limping), then the limb classifiers (the legs). There is little research on the differences in classifier constructions across sign languages. Most seem to have them and can be described in similar terms. Many unrelated languages encode the same entity with similar handshapes. This is even the case for children not exposed to language who use a

home sign Home sign (or kitchen sign) is a gestural communication system, often invented spontaneously by a deaf child who lacks accessible linguistic input. Home sign systems often arise in families where a deaf child is raised by hearing parents and is iso ...

system to communicate. Handling classifiers along with extension and surface classifiers are especially likely to be the same across languages.

Relation to gestures

Gestures are manual structures that are not as conventionalized as linguistics signs. Hearing non-signers use forms similar to classifiers when asked to communicate through gesture. There is a 70% overlap in how signers and non-signers use movement and location, but only a 25% overlap for handshapes. Non-signers use a greater amount of handshapes, but the signers' have more complex phonology. Non-signers also do not constrain their gestures to a morphological system as with sign language users.

Lexicalization

Certain classifier constructions may also, over time, lose their general meaning and become fully-fledged signs. This process is referred to as lexicalization. These types of signs are referred to as frozen signs. For example, the ASL sign FALL seems to have come from a classifier construction. This classifier construction consists of a V-shaped hand, which represents the legs, moving down. As it became more like a sign, it could also be used with non-animate referents, like apples or boxes. As a sign, the former classifier construction now conforms to the usual constraints of a word, such as consisting of one syllable. The resulting sign must not be a simple sum of its combined parts, but can have a different meaning entirely. They may serve as the root morpheme that serves as the base for aspectual and derivational affixes. Classifiers cannot take these types of affixes.

History

It wasn't until the 1960s that sign languages were being studied seriously. Initially, classifier constructions were not regarded as full linguistic systems. This was due to their high degree of apparent variability and iconicity. Consequently, early analyses described them in terms of visual imagery. Linguists started focusing on proving that sign languages were real languages. They started paying less attention to their iconic properties and more to the way they are organized. Frishberg was the first to use the term "classifier" in her 1975 paper on arbitrariness and iconicity in ASL to refer to the handshape unit used in classifier constructions. The start of the study of sign language classifier coincided with a renewed interest in spoken language classifiers. In 1977, Allan performed a survey of classifier systems in spoken languages. He compared classifier constructions to the "predicate classifiers" used in the

Athabaskan Athabaskan (also spelled ''Athabascan'', ''Athapaskan'' or ''Athapascan'', and also known as Dene) is a large family of indigenous languages of North America, located in western North America in three areal language groups: Northern, Pacific Co ...

languages. These are a family of oral

indigenous languages An indigenous language, or autochthonous language, is a language that is native to a region and spoken by indigenous peoples. This language is from a linguistically distinct community that originated in the area. Indigenous languages are not nec ...

spoken throughout North America. Reasons for comparing them included standardizing terminology and proving that sign languages are similar to spoken languages. Allan described predicate classifiers as separate verbal

s that denote some salient aspect of the associated noun. However, Schembri pointed out the "terminological confusion" surrounding classifiers. Allan's description and comparison came to draw criticism. Later analyses showed that these predicate classifiers did not constitute separate morphemes. Instead, they were better described as classificatory verbs stems rather than classifiers. In 1982, Supalla showed that classifier constructions were part of a complex morphological system in ASL. He split the classifier handshapes into two main categories: semantic classifiers (also called "entity classifiers") and size and shape specifiers (SASSes). SASS categories use handshapes to describe the visual properties of an entity. Entity classifiers are less iconic. they refer to a general semantic class of objects such as "thin and straight" or "flat and round". Handling classifiers would be the third type of classifier to be described. This classifier imitates the hand holding or handling an instrument. A fourth type, the body-part classifier, represents a human or animal body parts, usually the limbs. Linguist adopted and modified Supalla's morphological analysis for other sign languages. In the 1990s, a renewed interested in the relation between sign languages and gesture took place. Some linguists, such as , called the linguistic status of classifier constructions into question, especially the location and movement. There were two reasons for doing so. First, the imitative gestures of non-signers are similar to classifiers. Second, very many types of movement and locations can be used in these constructions. Liddell suggested that it would be more accurate to consider them to be a mixture of linguistic and extra-linguistic elements, such as gesture. Schembri and colleagues similarly suggested in 2005 that classifier constructions are "blends of linguistic and gestural elements". Regardless of the high degree of variability, Schembri and colleagues argue that classifier constructions are still grammatically restrained by various factors. For example, they are more abstract and categorical than the gestural forms made by non-signers. It is now generally accepted that classifiers have both linguistic and gestural properties. Similar to Allan, Grinevald also compared sign language classifiers to spoken classifiers in 2000. Specifically, she focused on verbal classifiers, which act as verbal affixes. She lists the following example from Cayuga, an

Iroquoian The Iroquoian languages are a language family of indigenous peoples of North America. They are known for their general lack of labial consonants. The Iroquoian languages are polysynthetic and head-marking. As of 2020, all surviving Iroquoian ...

language: The classifier for the word vehicle in Cayuga, ''-treht-'', is similar to whole entity classifiers in sign languages. Similar examples have been found in Digueño, which has morphemes that act like extension and surface classifiers in sign languages. Both examples are attached to the verb and cannot stand alone. It is now accepted that classifiers in spoken and signed languages are similar, contrary to what was previously believed. They both track references grammatically, can form new words and may emphasize a salient aspect of an entity. The main difference is that sign language only have verbal classifiers. The classifiers systems in spoken languages are more diverse in function and distribution. Despite the many proposed alternative names to the term classifier, and questionable relationship to spoken language classifiers, it continues to be a commonly used term in sign language research.

Linguistic analyses

There is no consensus on how to analyze classifier constructions. Linguistic analyses can be divided into three major categories: representational, morphological, and lexical. Representational analyses were the first attempt at describing classifiers. This analysis views them as manual representations of movements in the world. Because classifier constructions are highly iconic, representational analyses argue that this form-meaning connection should be the basis for linguistic analysis. This was argued because finite sets of morphemes or parameters cannot account for all potentially meaningful classifier constructions. This view has been criticized because it predicts impossible constructions. For example, in ASL, a walking classifier handshape cannot be used to represent the movement of an animal in the animal

noun class In linguistics, a noun class is a particular category of nouns. A noun may belong to a given class because of the characteristic features of its referent, such as gender, animacy, shape, but such designations are often clearly conventional. Some ...

, even though it is an iconic representation of the event. Lexical analyses view classifiers as partially lexicalized words. Morphological analyses view classifiers as a series of morphemes. Currently, this is the predominant school of thought. In this analyses, classifier verbs are combinations of verbal roots with numerous affixes. If the handshape is taken to consist of several morphemes, it is not clear how they should be segmented or analyzed. For example, the fingertips in

Swedish Sign Language Swedish Sign Language (SSL; ) is the sign language used in Sweden. It is recognized by the Swedish government as the country's official sign language, and hearing parents of deaf individuals are entitled to access state-sponsored classes that f ...

can be bent in order to represent the front of a car getting damaged in a crash; this led Supalla to posit that each finger might act as a separate morpheme. The morphological analysis has been criticized for its complexity. Liddell found that to analyze a classifier construction in ASL where one person walks to another would require anywhere between 14 and 28 morphemes. Other linguists, however, consider the handshape to consist of one, solitary morpheme. In 2003, Schembri stated that there is no convincing evidence that all handshapes are multi-morphemic. This was based on grammaticality judgments from native signers. Morphological analyses differ in what aspect of the construction they consider the root. Supalla argued that the morpheme which expresses motion or location is the verbal root to which the handshape morpheme is affixed. Engberg-Pedersen disagreed with Supalla, arguing that the choice of handshape can fundamentally change how the movement is interpreted. Therefore, she claims the movement should be the root. For example, putting a book on a shelf and a cat jumping on a shelf both use the same movement in ASL, despite being fundamentally different acts. Classifiers are

affixes In linguistics, an affix is a morpheme that is attached to a word stem to form a new word or word form. Affixes may be derivational, like English ''-ness'' and ''pre-'', or inflectional, like English plural ''-s'' and past tense ''-ed''. They a ...

, meaning that they cannot occur alone and must be bound. Classifiers on their own are not specified for place of articulation or movement. This might explain why they are bound: this missing information is filled in by the root. Certain classifiers are similar to

pronouns In linguistics and grammar, a pronoun ( abbreviated ) is a word or a group of words that one may substitute for a noun or noun phrase. Pronouns have traditionally been regarded as one of the parts of speech, but some modern theorists would not ...

. Like pronouns, the signer has to first introduce the referent, usually by signing or

fingerspelling Fingerspelling (or dactylology) is the representation of the letter (alphabet), letters of a writing system, and sometimes numeral systems, using only the hands. These manual alphabets (also known as finger alphabets or hand alphabets) have often ...

the noun. The classifier is then taken to refer to this referent. Signers do not have to re-introduce the same referent in later constructions; it is understood to still refer to the that referent. Some classifiers also denote a specific group the same way that the pronoun "she" can refer to women or waitresses. Similarly, ASL has a classifier which refers to vehicles, but not people or animals. In this view, verbal classifiers may be seen as

markers for their referents with the movement as its root.

Acquisition

The gestures of speaking children sometimes resemble classifier constructions. However, signing children learn these constructions as part of a grammatical system, not as iconic representations of events. Owing to their complexity, it takes a long time to master them. Children do not master the use of classifier constructions until the age of eight or nine. There are many reasons for this relatively late mastery. Children must learn to express different viewpoints correctly, select the correct handshape and order the construction properly. Schick found that the handling classifiers were the most difficult ones to master. This was followed by the extension and surface classifier. The whole entity classifiers had the fewest production errors. Young children prefer to substitute complex classifiers with simpler, more general ones. Children start using classifiers at the age of two. These early forms are mostly handling and whole entity classifiers. Simple movements are produced correctly as early as 2.6 years of age. Complex movements, such as arcs, are more difficult for children to express. The acquisition of location in classifier constructions depends on the complexity between the referents and the related spatial locations. Simple extension and surface classifiers are produced correctly at 4.5 years of age. By the age of five to six, children usually select the correct handshape. At age six to seven, children still make mistakes in representing spatial relationships. In signs with a figure-ground relationship, these children will sometimes omit the ground entirely. This could be because mentioning them together requires proper coordination of both hands. Another explanation is that children have more trouble learning optional structures in general. Although mostly mastered, children aged nine still have difficulty understanding the locative relations between classifiers. It is widely accepted that iconicity helps in learning spoken languages, although the picture is less clear for sign languages. Some have argued that iconicity plays no role in acquiring classifier construction. This is claimed because constructions are highly complex and are not mastered until late childhood. Other linguists claim that children as young as three years old can produce adult-like constructions, although only with one hand. Slobin found that children under three years of age seem to "bootstrap" natural gesture to make learning the handshape easier. Most young children do not seem to represent spatial situations iconically. They also do not express complex path movements at once, but rather do so sequentially. In adults, it has been shown that iconicity can help in learning lexical signs.

Brain structures

As with spoken languages, the left

hemisphere Hemisphere refers to: * A half of a sphere As half of the Earth * A hemisphere of Earth ** Northern Hemisphere ** Southern Hemisphere ** Eastern Hemisphere ** Western Hemisphere ** Land and water hemispheres * A half of the (geocentric) celesti ...

of the brain is dominant for sign language production. However, the right hemisphere is superior in some aspects. It is better at processing concrete words, like bed or flower, compared to abstract ones. It is also important in showing spatial relations between entities iconically. It is especially important in using and understanding classifier constructions. Signers with

damage Damage is any change in a thing, often a physical object, that degrades it away from its initial state. It can broadly be defined as "changes introduced into a system that adversely affect its current or future performance".Farrar, C.R., Sohn, H., ...

to the right hemisphere cannot properly describe items in a room. They can remember the items themselves, but cannot use classifiers to express their location. The

parietal cortex The parietal lobe is one of the four major lobes of the cerebral cortex in the brain of mammals. The parietal lobe is positioned above the temporal lobe and behind the frontal lobe and central sulcus. The parietal lobe integrates sensory informa ...

is activated in both hemispheres when perceiving the spatial location of objects. For spoken languages, describing spatial relationships only engages the left parietal cortex. For sign languages, both the left and right parietal cortex are needed when using classifier constructions. This might explain why people with right hemisphere damage have trouble with expressing these constructions. Namely, they cannot encode external spatial relations and use them while signing. In order to use certain classifier constructions, the signer must be able to visualize the entity and its shape, orientation and location. It has been shown that deaf signers are better at generating spatial mental images than hearing non-signers. The spatial memory span of deaf signers is also superior. This is linked to their use of sign language, rather than being deaf. This suggests that using sign language might change the way the brain organizes non-linguistic information.

Stylistic and creative use

It is possible for a signer to "hold" the non-dominant hand in a classifier construction. This is usually the background. This may serve the function of keeping relevant information present during the conversation. During the hold, the dominant hand might also articulate other signs that are relevant to the first classifier. In performative story-telling and poetry, classifiers may also serve creative purposes. Just as in spoken language, skilled language use can indicate eloquence. It has been observed in ASL poetry that skilled signers may combine classifiers and lexical signs. The sign for BAT and DARK are identical in

British Sign Language British Sign Language (BSL) is a sign language used in the United Kingdom (UK), and is the first or preferred language among the Deaf community in the UK. Based on the percentage of people who reported 'using British Sign Language at home' on ...

; they're also both articulated at the face. This may be used for poetic effect. For example, likening bats with darkness by using an entity classifier showing a bat flying at the face. Classifiers may also be used in expressively characterizing animals or non-human objects.

Citations

References

* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *{{Cite book, title=Sign language: an international handbook, last=Zwitserlood, first=Inge, publisher=De gruyter mouton, year=2012, isbn=9783110261325, location=Berlin, chapter=Classifiers, oclc=812574063 Linguistics Sign language Linguistic morphology