Domain-Specific Knowledge Systems in the Brain: The Animate-Inanimate Distinction

Caramazza, Alfonso; Shelton, Jennifer R.

doi:10.1162/089892998563752

Cited by 1,095 publications

(752 citation statements)

References 69 publications

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“…In the domain-specific account (Caramazza & Shelton, 1998), conceptual knowledge is organized by category, with evolutionary demands generating specialization for a small number of categories such as living things and plant life. On this account we might expect performance on living things to be facilitated (i.e., overall faster RTs and fewer errors) relative to performance on nonliving things.…”

Section: Discussionmentioning

confidence: 99%

“…However, it represents an advance over these earlier models in that it addresses one of the criticisms that has been leveled against them-they are so flexible that they can explain any pattern of deficit and are therefore theoretically unhelpful (e.g., Caramazza & Shelton, 1998). By developing specific claims about conceptual structure, based on well-supported claims in the psychological literature (e.g., Keil, 1986Keil, , 1989Malt & Smith, 1984), we have been able to constrain the power of the account and make falsifiable predictions, thus overcoming this kind of objection.…”

Section: Discussionmentioning

confidence: 99%

“…One type of account is that conceptual knowledge is explicitly organized into domain-specific subsystems, each of which may be selectively impaired by brain damage (e.g., Caramazza & Shelton, 1998;Santos & Caramazza, 2002). However, the breakdown of conceptual knowledge does not always respect domain boundaries.…”

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confidence: 99%

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Distinctiveness and Correlation in Conceptual Structure: Behavioral and Computational Studies.

Randall

Moss

Rodd

et al. 2004

Journal of Experimental Psychology: Learning, Memory, and Cogni

178

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Patients with category-specific deficits have motivated a range of hypotheses about the structure of the conceptual system. One class of models claims that apparent category dissociations emerge from the internal structure of concepts rather than fractionation of the system into separate substores. This account claims that distinctive properties of concepts in the living domain are vulnerable because of their weak correlation with other features. Given the assumption that mutual activation among correlated properties produces faster activation in the normal system, the authors predicted a disadvantage for the distinctive features of living things for unimpaired adults. Results of a speeded feature verification study supported this prediction, as did a computational simulation in which networks mapped from orthography to semantics.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Distinctiveness and Correlation in Conceptual Structure: Behavioral and Computational Studies.

Randall

Moss

Rodd

et al. 2004

Journal of Experimental Psychology: Learning, Memory, and Cogni

178

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“…The natural/artifactual dissociation has also been considered from an evolutionary point of view. Caramazza and Shelton (1998) proposed that this dissociation reflects the discrete organization in the brain of different domains of knowledge. At the neuroanatomical level, this distinction emerges as a function of the roles of natural and artifactual objects in the evolution of the human brain: living objects represent food and potential predators, whereas inanimate objects might be manipulated to obtain food or protect against predators.…”

Section: Introductionmentioning

confidence: 99%

“…This task has already been used in Italian in an fMRI study by Miceli et al (2002), who pointed out that the semantic content of a noun bears an arbitrary relationship to its grammatical gender, so that gender effects cannot be ascribed to the organization of knowledge in the brain. We predicted that if natural and artifactual domains constitute separate semantic subsystems with different neurological substrates (Warrington and Shallice, 1984;Caramazza and Shelton, 1998), the scalp topography of the ERPs corresponding to each of these domains would differ regardless of the task. Furthermore, according to the multiple subsystems theories, differences between domains would occur in the semantic processing phase and coinciding with the N400 component.…”

Section: Introductionmentioning

confidence: 99%

Electrophysiological evidence for a natural/artifactual dissociation

2006

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The aim of this work was to test whether the differences usually found between the processing of visual stimuli corresponding to natural and artifactual domains reflect the different ways in which these domains are organized in the brain or are rather due to varying tasks demands. For this purpose, we designed two tasks in which subjects had to classify a series of line drawings. In one task (semantic categorization), the subjects were asked to categorize the stimuli as corresponding either to the natural or the artifactual class, and in the other (gender decision), the subjects had to decide if the names of the stimuli corresponded to either the masculine or the feminine gender. Event-related potentials (ERPs) and reactions times (RTs) were registered during the two tasks. We found both quantitative and topographical differences between ERPs elicited by natural stimuli and those by artifactual stimuli. In the 50-to 200-ms period, ERPs were more positive for the natural stimuli in the categorization task, but more positive for the artifactual stimuli in the gender decision task. In addition, natural stimuli elicited larger P600 and were associated with shorter RTs than artifactual stimuli in the categorization task. These results likely reflect differences concerning the relative difficulty of processing the stimuli of each domain in each task. In the N400 range, in contrast, there were differences between the two domains which were independent of task. In the two tasks, natural and artifactual stimuli elicited IntroductionThe organization of knowledge and its representation in the brain have been the subject of considerable interest in recent years. It is widely accepted that knowledge is grouped into semantic categories, and the division between the natural and artifactual (or living and nonliving) domains is one of the most obvious and traditionally studied distinctions. There is evidence suggesting that this distinction is not only cognitive but also has a neurological basis. Data from studies of braindamaged patients suggest that the two domains are processed, at least partially, in different areas of the brain. For example, patients with lesions in the left frontal area present more problems with images of inanimate objects, whereas B R A I N R E S E A R C H 1 0 6 7 ( 2 0 0 6 ) 1 8 9 -2 0 0 ⁎ Corresponding author.

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Natural Kinds and Artifacts

Gelman

2006

Encyclopedia of Cognitive Science

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Domain-Specific Knowledge Systems in the Brain: The Animate-Inanimate Distinction

Cited by 1,095 publications

References 69 publications

Distinctiveness and Correlation in Conceptual Structure: Behavioral and Computational Studies.

Distinctiveness and Correlation in Conceptual Structure: Behavioral and Computational Studies.

Electrophysiological evidence for a natural/artifactual dissociation

Natural Kinds and Artifacts

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