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Sequential dependencies in recall of sequences: Filling in the blanks

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Sequential dependencies in recall of sequences: Filling in the blanks. / Hurlstone, Mark John.
In: Memory and Cognition, Vol. 41, 01.08.2013, p. 938–952.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Hurlstone, MJ 2013, 'Sequential dependencies in recall of sequences: Filling in the blanks', Memory and Cognition, vol. 41, pp. 938–952. https://doi.org/10.3758/s13421-013-0310-0

APA

Hurlstone, M. J. (2013). Sequential dependencies in recall of sequences: Filling in the blanks. Memory and Cognition, 41, 938–952. https://doi.org/10.3758/s13421-013-0310-0

Vancouver

Hurlstone MJ. Sequential dependencies in recall of sequences: Filling in the blanks. Memory and Cognition. 2013 Aug 1;41:938–952. doi: 10.3758/s13421-013-0310-0

Author

Hurlstone, Mark John. / Sequential dependencies in recall of sequences : Filling in the blanks. In: Memory and Cognition. 2013 ; Vol. 41. pp. 938–952.

Bibtex

@article{5459cc7e73c14073ae2179e234df88e8,
title = "Sequential dependencies in recall of sequences: Filling in the blanks",
abstract = "Sequential dependencies can provide valuable information about the processes supporting memory, particularly memory for serial order. Earlier analyses have suggested that anticipation errors—reporting items ahead of their correct position in the sequence—tend to be followed by recall of the displaced item, consistent with primacy gradient models of serial recall. However, a more recent analysis instead suggests that anticipation errors are followed by further anticipation errors, consistent with chaining models. We report analyses of 21 conditions from published serial recall data sets, in which we observed a systematic pattern whereby anticipations tended to be followed by the “filling in” of displaced items. We note that cases where a different pattern held tended to apply to recall of longer lists under serial learning conditions or to conditions where participants were free to skip over items. Although the different patterns that can be observed might imply a dissociation (e.g., between short- and long-term memory), we show that these different patterns are naturally predicted by Farrell{\textquoteright}s (Psychological Review 119:223–271, 2012) model of short-term and episodic memory and relate to whether or not spontaneously formed groups of items can be skipped over during recall.",
author = "Hurlstone, {Mark John}",
year = "2013",
month = aug,
day = "1",
doi = "10.3758/s13421-013-0310-0",
language = "English",
volume = "41",
pages = "938–952",
journal = "Memory and Cognition",
issn = "0090-502X",
publisher = "Springer New York",

}

RIS

TY - JOUR

T1 - Sequential dependencies in recall of sequences

T2 - Filling in the blanks

AU - Hurlstone, Mark John

PY - 2013/8/1

Y1 - 2013/8/1

N2 - Sequential dependencies can provide valuable information about the processes supporting memory, particularly memory for serial order. Earlier analyses have suggested that anticipation errors—reporting items ahead of their correct position in the sequence—tend to be followed by recall of the displaced item, consistent with primacy gradient models of serial recall. However, a more recent analysis instead suggests that anticipation errors are followed by further anticipation errors, consistent with chaining models. We report analyses of 21 conditions from published serial recall data sets, in which we observed a systematic pattern whereby anticipations tended to be followed by the “filling in” of displaced items. We note that cases where a different pattern held tended to apply to recall of longer lists under serial learning conditions or to conditions where participants were free to skip over items. Although the different patterns that can be observed might imply a dissociation (e.g., between short- and long-term memory), we show that these different patterns are naturally predicted by Farrell’s (Psychological Review 119:223–271, 2012) model of short-term and episodic memory and relate to whether or not spontaneously formed groups of items can be skipped over during recall.

AB - Sequential dependencies can provide valuable information about the processes supporting memory, particularly memory for serial order. Earlier analyses have suggested that anticipation errors—reporting items ahead of their correct position in the sequence—tend to be followed by recall of the displaced item, consistent with primacy gradient models of serial recall. However, a more recent analysis instead suggests that anticipation errors are followed by further anticipation errors, consistent with chaining models. We report analyses of 21 conditions from published serial recall data sets, in which we observed a systematic pattern whereby anticipations tended to be followed by the “filling in” of displaced items. We note that cases where a different pattern held tended to apply to recall of longer lists under serial learning conditions or to conditions where participants were free to skip over items. Although the different patterns that can be observed might imply a dissociation (e.g., between short- and long-term memory), we show that these different patterns are naturally predicted by Farrell’s (Psychological Review 119:223–271, 2012) model of short-term and episodic memory and relate to whether or not spontaneously formed groups of items can be skipped over during recall.

U2 - 10.3758/s13421-013-0310-0

DO - 10.3758/s13421-013-0310-0

M3 - Journal article

VL - 41

SP - 938

EP - 952

JO - Memory and Cognition

JF - Memory and Cognition

SN - 0090-502X

ER -