TY - JOUR
T1 - A behavioral database for masked form priming
AU - Adelman, James S.
AU - Johnson, Rebecca L.
AU - McCormick, Samantha F.
AU - McKague, Meredith
AU - Kinoshita, Sachiko
AU - Bowers, Jeffrey S.
AU - Perry, Jason R.
AU - Lupker, Stephen J.
AU - Forster, Kenneth I.
AU - Cortese, Michael J.
AU - Scaltritti, Michele
AU - Aschenbrenner, Andrew J.
AU - Coane, Jennifer H.
AU - White, Laurence
AU - Yap, Melvin J.
AU - Davis, Chris
AU - Kim, Jeesun
AU - Davis, Colin J.
PY - 2014
Y1 - 2014
N2 - Reading involves a process of matching an orthographic input with stored representations in lexical memory. The masked priming paradigm has become a standard tool for investigating this process. Use of existing results from this paradigm can be limited by the precision of the data and the need for cross-experiment comparisons that lack normal experimental controls. Here, we present a single, large, high-precision, multicondition experiment to address these problems. Over 1,000 participants from 14 sites responded to 840 trials involving 28 different types of orthographically related primes (e.g., castfe–CASTLE) in a lexical decision task, as well as completing measures of spelling and vocabulary. The data were indeed highly sensitive to differences between conditions: After correction for multiple comparisons, prime type condition differences of 2.90 ms and above reached significance at the 5% level. This article presents the method of data collection and preliminary findings from these data, which included replications of the most widely agreed-upon differences between prime types, further evidence for systematic individual differences in susceptibility to priming, and new evidence regarding lexical properties associated with a target word’s susceptibility to priming. These analyses will form a basis for the use of these data in quantitative model fitting and evaluation and for future exploration of these data that will inform and motivate new experiments.
AB - Reading involves a process of matching an orthographic input with stored representations in lexical memory. The masked priming paradigm has become a standard tool for investigating this process. Use of existing results from this paradigm can be limited by the precision of the data and the need for cross-experiment comparisons that lack normal experimental controls. Here, we present a single, large, high-precision, multicondition experiment to address these problems. Over 1,000 participants from 14 sites responded to 840 trials involving 28 different types of orthographically related primes (e.g., castfe–CASTLE) in a lexical decision task, as well as completing measures of spelling and vocabulary. The data were indeed highly sensitive to differences between conditions: After correction for multiple comparisons, prime type condition differences of 2.90 ms and above reached significance at the 5% level. This article presents the method of data collection and preliminary findings from these data, which included replications of the most widely agreed-upon differences between prime types, further evidence for systematic individual differences in susceptibility to priming, and new evidence regarding lexical properties associated with a target word’s susceptibility to priming. These analyses will form a basis for the use of these data in quantitative model fitting and evaluation and for future exploration of these data that will inform and motivate new experiments.
UR - http://handle.uws.edu.au:8081/1959.7/563631
U2 - 10.3758/s13428-013-0442-y
DO - 10.3758/s13428-013-0442-y
M3 - Article
SN - 1554-351X
VL - 46
SP - 1052
EP - 1067
JO - Behavioral Research Methods
JF - Behavioral Research Methods
IS - 4
ER -