A1 Refereed original research article in a scientific journal
The role of semantic transparency in the processing of Finnish compound words
Authors: Pollatsek A, Hyona J
Publisher: PSYCHOLOGY PRESS
Publication year: 2005
Journal: Language and Cognitive Processes
Journal name in source: LANGUAGE AND COGNITIVE PROCESSES
Journal acronym: LANG COGNITIVE PROC
Volume: 20
Issue: 1-2
First page : 261
Last page: 290
Number of pages: 30
ISSN: 0169-0965
DOI: https://doi.org/10.1080/01690960444000098
Abstract
Three experiments examined whether the semantic transparency of a long Finnish compound word has any influence on how the compound word is encoded in reading. The frequency of the first constituent (as a separate word) was manipulated, while matching for the frequencies of the compound word and of the second constituent. The effect of this frequency manipulation on encoding time served as a 'marker' that the compound word was processed, at least in part, componentially. In Experiment 1, each high-frequency transparent compound was paired with a low-frequency transparent compound, and each high-frequency opaque compound was paired with a low-frequency opaque compound. A sentence frame was created for each pair that was identical up to the word following the target word. In Experiments 2 and 3, the matching was done between transparent and opaque word pairs. In addition, Experiment 3 had a display change manipulation in which most of the second constituent was not visible until it was fixated. Readers' eye fixation patterns on and immediately after the target word were examined. Reliable first constituent frequency effects were observed in the fixation duration measures on the target word, but there were no effects of transparency. In addition, a comparison of the display change condition to the standard condition indicated that the constituents of the compound word were processed sequentially. It thus appears that the identification of both transparent and opaque long compound words takes place, at least in part, by accessing the constituent lexemes and does not rely on constructing the meaning from the components.
Three experiments examined whether the semantic transparency of a long Finnish compound word has any influence on how the compound word is encoded in reading. The frequency of the first constituent (as a separate word) was manipulated, while matching for the frequencies of the compound word and of the second constituent. The effect of this frequency manipulation on encoding time served as a 'marker' that the compound word was processed, at least in part, componentially. In Experiment 1, each high-frequency transparent compound was paired with a low-frequency transparent compound, and each high-frequency opaque compound was paired with a low-frequency opaque compound. A sentence frame was created for each pair that was identical up to the word following the target word. In Experiments 2 and 3, the matching was done between transparent and opaque word pairs. In addition, Experiment 3 had a display change manipulation in which most of the second constituent was not visible until it was fixated. Readers' eye fixation patterns on and immediately after the target word were examined. Reliable first constituent frequency effects were observed in the fixation duration measures on the target word, but there were no effects of transparency. In addition, a comparison of the display change condition to the standard condition indicated that the constituents of the compound word were processed sequentially. It thus appears that the identification of both transparent and opaque long compound words takes place, at least in part, by accessing the constituent lexemes and does not rely on constructing the meaning from the components.
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