1. The effects of increasing cognitive complexity on�L2 narrative oral production Roger Gilabert
rogergg@blanquerna.url.edu
Blanquerna Communication Studies Department
Universitat Ramon Llull
Barcelona, Spain
Leuven 2005
2. Context 2 main research agendas into task features:
Interactionist perspective: how certain conversational episodes (e.g. CR or CC), caused by task design, may lead to acquisition (Long, 1985, 1989, 2000).
Information-processing approach: how manipulating the cognitive features of tasks can lead to differentials in the fluency, complexity, and accuracy of learners performance .
3. Context: research into cognitive task features degree of familiarity: (Bygate, 1999, 2001; Foster & Skehan,
1996; Plough & Gass, 1993; Robinson, 2001)
number of elements: (Kuiken & Vedder, 2004; Robinson, 2001)
single and dual task performance: (Niwa, 2000)
pre-task and on-line planning time: (Crookes, 1989; Ellis, 1987;
Foster & Skehan, 1996;
Mehnert, 1998; Ortega, 1999;
Skehan & Foster, 1997;
Wigglesworth, 1997; Yuan &
Ellis, 2003)
degree of complexity along displaced,
past time reference: (Iwashita et al. 2001; Robinson, 1995;
Rahimpour, 1997).
4. Context: Skehan / Robinson Most studies concerned with the issue of competition for attention during task performance.
Predictions for performance:
competition exists (Skehan, 1998; Skehan & Foster, 2001 )
it depends: resource-directing vs. resource-dispersing
(Robinson, 2001; 2003; 2005)
+ cognitively complex = - fluency
+ complexity
+ accuracy
Claims based on studies which have manipulated task features in isolation (e.g. planning time studies and +/- here-and-now studies).
5. Previous findings Planning time studies:
Fluency increases (Foster & Skehan, 1996; Skehan & Foster, 1997; Ortega,
1999; Yuan & Ellis, 2003)
Higher structural complexity (Foster & Skehan, 1996; Ortega, 1999; Yuan &
Ellis, 2003; only a trend in Skehan & Foster, 1997)
No significant effects on lexical complexity: (Ortega, 1999; Yuan & Ellis, 2003).
Mixed results for accuracy: higher accuracy (Foster & Skehan, 1997)
no differences (Foster & Skehan, 1996; Yan & Ellis,
2003)
mixed restuls (Ortega, 1999)
6. Previous findings Here-and-Now/There-and-Then studies:
Fluency decreases: (Robinson, 1995; Rahimpour, 1997)
Increased lexical complexity: (Robinson, 1995; Rahimpour, 1997)
No differences in structural complexity: (Robinson, 1995; Rahimpour,
1997)
Higher accuracy: (Robinson, 1995; Rahimpour, 1997; Iwashita et al.)
7. Research question How does manipulating Task Complexity simultaneously along planning time and the +/- here-and-now variables affect production?
8. Pre-task planning time will positively affect the areas of fluency and structural complexity, with no effects on lexical complexity or accuracy.
- cognitive complexity + cognitive complexity
+ fluency - fluency
+ structural complexity - structural complexity
= lexical complexity = lexical complexity
= accuracy = accuracy
More complex tasks, in the there-and-then, will trigger more accurate and complex speech at the expense of fluency.
- cognitive complexity + cognitive complexity
+ fluency - less fluency
- structural complexity + structural complexity
- lexical complexity + lexical complexity
- accuracy + accuracy Hypotheses
9. Experimental design
11. Participants
12. Measures Fluency: Rate A (syllables x minute in unpruned speech)
Rate B (syllables x minute in pruned speech)
Structural
Complexity: S-Nodes per T-unit
Lexical Complexity: Percentage of Lexical Words
Ratio of Lexical / Function Words
Guirauds Index of Lexical Richness
Accuracy: Error-free T-units
TLU of Articles
Percentage of Self-repairs
Repaired to Unrepaired Errors
13. Why self-repairs?
Self-repairs are the result of wrong formulation (Levelt, 1989), and may be used to correct an inappropriate syntactic structure, a lexical problem, faulty morphology, or a phonetic error. Self-repairs, whether other-initiated or self-initiated Schegloffs (1977), denote students awareness of form and can be interpreted as learners attempts at being accurate. Self-repairs require conscious attention. Some of the functions of self-repairs are:
Learners automatize the retrieval of target language knowledge they already have.
They revise their hypotheses about the target language (Lyster and Ranta, 1997:57).
They noticing a hole in their own interlanguage that may direct their attention to relevant input (Swain, 1998:66; Drnyei & Kormos, 1999).
They check their speech, both internal and overt, against their receptive knowledge (De Bot, 1996:551).
14. Statistical analysis Sphericity of data achieved by means of detecting (by means of box plots) and eliminating outliers from the calculation.
Repeated-measures ANOVAS for stories and conditions.
Post hoc Scheffes comparisons to identify exact location of differences.
15. Hypothesis 1�+/- Planning time
16. Hypothesis 1�Planning time
17. Hypothesis 1�+/- Planning time
18. Hypothesis 1: Planning time
19. Discussion: Planning time �and fluency
Conceptualization during pre-task planning allows faster retrieval during performance
Instantiation of words (i.e. lemmas and forms) or chunks in WM
Problem-solving mechanisms, rehearsal, and memorization (Ortega, 1999)
20. Discussion: �+/- Here-and-Now �and fluency
Lack of contextual support
Efficient scheduling and attention-allocation policies
21. Discussion: �planning time and lexical and structural complexity
22. Discussion: �+/- Here-and-Now and lexical and structural complexity
23. Discussion: �Planning time and accuracy
24. Discussion: �+/- Here-and-Now and accuracy
25. Discussion: �Simultaneous manipulation �of both variables
27. Conclusions
28. Thank you
