In pragmatics, scalar implicature, or quantity implicature, is an implicature that attributes an implicit meaning beyond the explicit or literal meaning of an utterance, and which suggests that the utterer had a reason for not using a more informative or stronger term on the same scale. The choice of the weaker characterization suggests that, as far as the speaker knows, none of the stronger characterizations in the scale holds. This is commonly seen in the use of 'some' to suggest the meaning 'not all', even though 'some' is logically consistent with 'all'. If Bill says 'I have some of my money in cash', this utterance suggests to a hearer (though the sentence uttered does not logically imply it) that Bill does not have all his money in cash.
Scalar implicatures typically arise where the speaker qualifies or scales their statement with language that conveys to the listener an inference or implicature that indicates that the speaker had reasons not to use a stronger, more informative, term. For example, where a speaker uses the term "some" in the statement, "Some students can afford a new car.", the use of "some" gives rise to an inference or implicature that "Not all students can afford a new car."
As with pragmatic inference generally, such inferences are defeasible or cancellable – the inferred meaning may not be true, even though the literal meaning is true. This distinguishes such inferences from entailment. They are also non-detachable. A conversational implicature is said to be non-detachable when, after the replacement of what is said with another expression with the same literal meaning, the same conversational implicature remains. This distinguishes them from conventional implicatures.
In a 2006 experiment with Greek-speaking five-year-olds' interpretation of aspectual expressions, the results revealed that children have limited success in deriving scalar implicatures from the use of aspectual verbs such as "start" (which implicates non-completion). However, the tested children succeed in deriving scalar implicatures with discrete degree modifiers such as "half" as in half finished. Their ability to spontaneously compute scalar implicatures was greater than their ability to judge the pragmatic appropriateness of scalar statements. In addition, the tested children were able to suspend scalar implicatures in environments where they were not supported.
Griceans attempt to explain these implicatures in terms of the maxim of quantity, according to which one is to be just as informative as required. The idea is that if the speaker were in a position to make the stronger statement, they would have. Since (s)he did not, (s)he must believe that the stronger statement is not true.
Some examples of scalar implicature are:
- 1a. Bill has got some of Chomsky's papers.
- 1b. The speaker believes that Bill hasn't got all of Chomsky's papers.
- 2a. There will be five of us for dinner tonight.
- 2b. There won't be more than five of us for dinner tonight.
- 3a. She won't necessarily get the job.
- 3b. She will possibly get the job.
Uttering the sentence (a) in most cases will communicate the assumption in (b). This seems to be because the speaker did not use stronger terms such as 'there will be more than five people for dinner tonight' or 'she can't possibly get the job'. For example, if Bill really did have all of Chomsky's papers, the speaker would have said so. However, according to the maxim of quantity, a speaker will only be informative as is required, and will therefore not use any stronger terms unless required. The hearer, knowing this, will assume that the stronger term does not apply.
- Cooperative principle
- Logical consequence
- Entailment (pragmatics)
- Indirect speech act
- Implicate and explicate order
- Intrinsic and extrinsic properties
- Robyn Carston, "Informativeness, Relevance and Scalar Implicature" .
- Chierchia G., Guasti M. T., Gualmini A., Meroni L., Crain S., Foppolo F. (2004). Semantic and pragmatic competence in children and adults comprehension of or. In Experimental Pragmatics, Eds. I. Noveck and D. Sperber, pag. 283-300, Palgrave Macmillan, New York.
- Laurence R. Horn. 1984. "A new taxonomy for pragmatic inference: Q-based and R-based implicature." In D. Schiffrin (ed.), Meaning, Form and Use in Context (GURT '84), 11-42. Washington: Georgetown University Press.
- Laurence R. Horn, 'A natural history of negation', 1989, University of Chicago Press: Chicago.
- Kepa Korta, 'Implicitures: Cancelability and Non-detachability', 
- Angelika Kratzer, Scalar Implicatures: Are There Any? Workshop on Polarity, Scalar Phenomena, and Implicatures. University of Milan-Bicocca June 18, 2003 
- Ira Noveck, "When children are more logical than adults : experimental investigations of scalar implicature", Cognition 2001, vol. 78, no2, pp. 165-188.
- Stanford Encyclopedia of Philosophy, article "Implicature" 
- Mante S. Nieuwland, Tali Ditman & Gina R. Kuperberg (2010). On the incrementality of pragmatic processing: An ERP investigation of informativeness and pragmatic abilities. Journal of Memory and Language 63 (2010) 324–346. 
- Zondervan, A. Meroni, L & Gualmini, A.(2010)Experiments on the role of the Question under Discussion for Ambiguity Resolution and Implicature Computation in Adults. In SALT 18.
- Hansen, Maj-Britt Mosegaard; Erling Strudsholm (May 1, 2008). "The semantics of particles: advantages of a contrastive and panchronic approach: a study of the polysemy of French deja and Italian gia". Linguistics: An Interdisciplinary Journal of the Language Sciences. Walter de Gruyter. 46 (3): 471. Retrieved 2008-10-24.
Moreover, the truth of a sentence like "It's a pretty big thing in itself if I recover the outlay." with an inherently scalar predicate allows, in principle, for the truthful application of a predicate higher up on the scale, but will, at the same time, carry a generalized conversational quantity implicature to the effect that the stronger proposition does not, in fact, hold (cf. Horn 1989; Levinson 2000): "Has Anne ever eaten squid? No, she has never eaten that."
- Noveck p. 165
- Musolino, Julien; Jeffrey Lidz (July 1, 2006). "Why children aren't universally successful with quantification". Linguistics: An Interdisciplinary Journal of the Language Sciences. Walter de Gruyter. 44 (4): 818. Retrieved 2008-10-24.
Here we investigate experimentally the development of the semantics-pragmatics interface, focusing on Greek-speaking five-year-olds' interpretation of aspectual expressions such as arxizo ('start') and degree modifiers such as miso ('half') and mexri ti mesi ('halfway')." "Such expressions are known to give rise to scalar inferences cross-linguistically: for instance, start, even though compatible with expressions denoting completion (e.g. finish), is typically taken to implicate non-completion. Overall, our experiments reveal that children have limited success in deriving scalar implicatures from the use of aspectual verbs but they succeed with 'discrete' degree modifiers such as 'half'.
- Korta p.4
- Staff (December 25, 2006). "Research reports from University of Delaware, Department of Psychology provide new insights into child language in children". Health & Medicine Week (Expanded Reporting ed.). NewsRX: 195. ISSN 1531-6459.
- taken from Carston