Book contents
- Frontmatter
- Contents
- List of Contributors
- Preface
- Acknowledgments
- Section 1 Connecting genes, brain, and behavior in neurodevelopmental disorders
- Section 2 Genetic disorders and models of neurocognitive development
- 4 Language and communication in autism spectrum disorders
- 5 Language development in children with Williams syndrome: New insights from cross-linguistic research
- 6 Language in Down syndrome: A life-span perspective
- 7 Genetic disorders as models of mathematics learning disability: Fragile X and Turner syndromes
- 8 A developmental approach to genetic disorders
- 9 The use of strategies in embedded figures: Tasks by boys with and without organic mild mental retardation: A review and some experimental evidence
- Index
- References
9 - The use of strategies in embedded figures: Tasks by boys with and without organic mild mental retardation: A review and some experimental evidence
Published online by Cambridge University Press: 04 August 2010
Edited by
Book contents
- Frontmatter
- Contents
- List of Contributors
- Preface
- Acknowledgments
- Section 1 Connecting genes, brain, and behavior in neurodevelopmental disorders
- Section 2 Genetic disorders and models of neurocognitive development
- 4 Language and communication in autism spectrum disorders
- 5 Language development in children with Williams syndrome: New insights from cross-linguistic research
- 6 Language in Down syndrome: A life-span perspective
- 7 Genetic disorders as models of mathematics learning disability: Fragile X and Turner syndromes
- 8 A developmental approach to genetic disorders
- 9 The use of strategies in embedded figures: Tasks by boys with and without organic mild mental retardation: A review and some experimental evidence
- Index
- References
Summary
The field dependent–independent cognitive style and role of simultaneous and successive processes
Educators and researchers have long recognized the unique differences among individuals and the effects these differences can have on learning. Concern for these differences led to research on the cognitive variables or cognitive styles that individuals possess (Tamaoka, 1985). Green (1985) defines cognitive style as consistencies in the ways in which people perceive, think, respond to others, and react to their environment. He contends that cognitive styles are bipolar, value neutral, consistent across domains, and stable over time. With nearly 5,000 references in the literature, field dependence/independence has received the most attention by researchers of all the cognitive styles (Chinien & Boutin, 1993; Harold, 1996; Kent-Davis & Cochran, 1989).
The Field Dependent–Independent cognitive style was hypothesized by Herman Witkin (e.g., Witkin, 1950; Witkin & Goodenough, 1981) and refers to the extent to which a person is dependent vs. independent in organization of the surrounding perceptual field. Measures of cognitive style provide a more extensive and more functional characterization of the child than could be derived from IQ tests alone (Messick, 1984).
A principal measure of field dependence–independence is the Embedded Figures Test (e.g., Children's Embedded Figures Test by Karp & Konstadt, 1971; The Diagnostic Embedded Figures Test by Aalders & Pennings, 1981), in which children locate a previously seen simple figure within a larger, complex figure (pattern). Bowd (1976) stated that embedded figures tests are the most widely used measures designed to assess field dependence–independence in children.
- Type
- Chapter
- Information
- Genes, Brain and DevelopmentThe Neurocognition of Genetic Disorders, pp. 199 - 215Publisher: Cambridge University PressPrint publication year: 2010
References
& (1981). Het verborgen-figuren diagnosticum. [The diagnostic embedded figures test]. Pedagogische Studien, 58, 265–75.Google Scholar
, , , , , & (2005). Using self-monitoring to increase following-direction skills of students with moderate to severe disabilities in general education. Education and Training in Developmental Disabilities, 40, 3–13.Google Scholar
, , , & (2004). Field dependence- independence of normally developing and mentally retarded boys of low and upper/middle socioeconomic status. Perceptual and Motor Skills, 99, 913–23.CrossRefGoogle ScholarPubMed
(1987). Differentiation of normal, reading disabled, and developmentally handicapped students using the Das-Naglieri cognitive processing tasks. Unpublished doctoral dissertation, Ohio State University, Columbus, Ohio.Google Scholar
& (1998). The development of strategy use and metacognitive processing in mental retardation: Some sources of difficulty. In , , & (Eds.), Handbook of Mental Retardation and Development (pp. 382–407). Cambridge, UK: Cambridge University Press.Google Scholar
& (1987). The general strategies hypothesis as applied to cognitive theory in mental retardation. Intelligence, 11, 91–105.CrossRefGoogle Scholar
, , & (1986). A comparison of the cognitive styles of typical and mildly retarded boys with educational recommendations. Education and Training of the Mentally Retarded, 33, 93–7.Google Scholar
(1976). Item difficulty on the Children's Embedded Figures Test. Perceptual and Motor Skills, 43, 134.CrossRefGoogle Scholar
, , & (1997). Cognitive competencies and strategy use in individuals with mild mental retardation. In , Jr. (Ed.), Handbook of Mental Deficiency, Psychological Theory and Research, 3rd edn. (pp. 197–217). Hillsdale, NJ: Erlbaum.Google Scholar
, , & (1985). Selective remembering during adolescence. Developmental Psychology, 21, 290–4.CrossRefGoogle Scholar
, , , & (1994). Intellectual and developmental differences in external memory strategies. American Journal on Mental Retardation, 99, 19–31.Google ScholarPubMed
, , & (1985). Developmental progressions and regressions in the selective remembering strategies of EMR individuals. American Journal of Mental Deficiency, 90, 198–205.Google ScholarPubMed
& (1976). The effect of training specific mnemonics on the metamnemonic efficiency of retarded children. Child Development, 47, 71–80.CrossRefGoogle Scholar
& (1998). Outer-directedness in individuals with and without mental retardation: A review. In , , & (Eds.), Handbook of Mental Retardation and Development (pp. 461). Cambridge, UK: Cambridge University Press.Google Scholar
& (1994). Facilitation and inhibition effects in visual selective attention processes of individuals with and without mental retardation. American Journal on Mental Retardation, 98, 594–600.Google ScholarPubMed
& (1993). Cognitive style FOil: An important learner characteristic for educational technologists. Journal of Educational Technology Systems, 21, 303–11.CrossRefGoogle Scholar
(2002). A better look at intelligence. Current Directions in Psychological Science, 11(1), 28–33.CrossRefGoogle Scholar
, , & (1979). Simultaneous and Successive Cognitive Processes. New York: Academic Press.Google Scholar
, , , & (2008). Investigating ongoing strategic behaviour of students with mild mental retardation: Implementation and relations to performance in a problem solving situation. Evaluation and Research in Education, 21, 96–110.CrossRefGoogle Scholar
, , & (1983). Genetic influences on the development of spatial skills during early adolescence. Cognition, 13, 167–85.CrossRefGoogle ScholarPubMed
& (1997). Rigidity in the behavior of mentally retarded persons. In (Ed.), Ellis' Handbook of Mental Deficiency, Psychological Theory and Research (pp. 175–195). Mahwah, NJ: Erlbaum.Google Scholar
(1970). Memory processes in retardates and normals. In , (Ed.), International Review of Research in Mental Retardation (Vol. 4, pp. 132). New York: Academic Press.Google Scholar
& (1991). Further evidence for cognitive inertia of persons with mental retardation. American Journal on Mental Retardation, 95, 613–21.Google ScholarPubMed
(1980). The Instrumental Enrichment Method: An Intervention Program for Cognitive Modifiability. Baltimore: University Park Press.Google Scholar
, , , & (1979). Cognitive modifiability in retarded adolescents: Effects of instrumental enrichment. American Journal of Mental Deficiency, 83, 539–50.Google ScholarPubMed
& (1995). External and verbal strategies in children with and without mild mental retardation. American Journal on Mental Retardation, 99(4), 363–75.Google ScholarPubMed
, , & (2003). Effects of verbal and physical prompts on external strategy use in children with and without mild mental retardation. American Journal on Mental Retardation, 108(4), 245–56.2.0.CO;2>CrossRefGoogle ScholarPubMed
(1985). Cognitive, Style: A Review of the Literature. Chicago: Johnson O'Connor Research Foundation.Google Scholar
& (1971). Selective attention in mental retardation. Developmental Psychology, 5, 151–60.CrossRefGoogle Scholar
, , & (1987). Stability over age and sex of children's responses to embedded figures test. Perceptual and Motor Skills, 64, 399–406.CrossRefGoogle ScholarPubMed
(1996). Interaction of cognitive style and learner control of presentation mode in a hypermedia environment. Unpublished doctorate dissertation, Virginia Polytechnic Institute and State University, Blacksburg, VA.Google Scholar
(2008). Short-term memory coding in children with intellectual disabilities. American Journal on Mental Retardation, 113, 187–200.CrossRefGoogle ScholarPubMed
& (1987) Developmental patterns of spatial ability: An early sex difference. Child Development, 58, 725–40.CrossRefGoogle ScholarPubMed
& (1971). The Children's Embedded Figures Test (CEFT). In , , , & (Eds.), Manual for the Embedded Figures Test (pp. 21–26). Palo Alto, CA: Consulting Psychologists Press.Google Scholar
& (1989). An information processing view of field dependence- independence. Early Child Development and Care, 51, 31–47.CrossRefGoogle Scholar
& (1991). Sex differences in spatial ability in boys. Behavior Genetics, 21, 383–96.CrossRefGoogle Scholar
& (1999). Cognitive modifiability in adult and older people with mental retardation. Mental Retardation, 37, 125–38.2.0.CO;2>CrossRefGoogle ScholarPubMed
& (1974). Outer-directedness in boys of three ages as a function of experimentally induced success and failure. Journal of Experimental Psychology, 66, 919–25.Google Scholar
, , & (1990). The role of motivational factors in the functioning of mentally retarded individuals. IN , , & (Eds.), Isues in the Developmental Approach to Mental Retardation (pp. 114–34). Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
& (1996). Negative priming and mental retardation: The processing of distractor information. American Journal on Mental Retardation, 101, 63–71.Google ScholarPubMed
(1984) The nature of cognitive styles: Problems and promise in educational practice. Educational Psychologist, 19, 59–74.CrossRefGoogle Scholar
(1989). A cognitive processing theory for the measurement of intelligence. Educational Psychologist, 24, 185–206.CrossRefGoogle Scholar
, , & (1990). Planning, attention, simultaneous, and successive processes as a model of assessment. School Psychology Review, 19(4), 423–42.Google Scholar
& (1976). Performance of MA-matched nonretarded and retarded children on measures of field dependence. American Journal of Mental Deficiency, 80(4), 469–72.Google ScholarPubMed
(1977). Hierarchical structure in perceptual representation. Cognitive Psychology, 9, 441–74.CrossRefGoogle Scholar
& (1979). Intelligence and experience: A neo- Piagetian approach. Instructional Science, 8, 301–67.CrossRefGoogle Scholar
(1988). The development of strategies in embedded figures tasks. International Journal of Psychology, 23, 65–78.CrossRefGoogle Scholar
(1990). An item response model for describing the use of strategies in embedded figures tasks. In , , , & (Eds.), Learning and Instruction: European Research in an International Context (Vol. 2, pp. 231–45). Oxford, UK: Pergamon.Google Scholar
& (2006). Cognitive strategies. In & , (Eds. in Chief), and & (Vol. Eds.), Handbook of Child Psychology: Vol 2. Cognition, Perception and Language. 6th edn. (pp. 511–56). Hoboken, NJ: John Wiley and Sons.Google Scholar
(2004). Interactive assessment of metacognition: Exploratory study of a procedure for persons with severe mental retardation. European Journal of Psychology of Education, 19(4), 349–64.CrossRefGoogle Scholar
& (1993). Why do autistic individuals show superior performance on the block design task?Journal of Child Psychology and Psychiatry, 34, 1351–64.CrossRefGoogle ScholarPubMed
(1973). Structuring Tendency as an Aspect of Cognitive Style. Unpublished doctoral dissertation. State University of Utrecht, Utrecht.Google Scholar
(1980). Restructuring as a Cognitive Task. Paper presented at the Annual Meeting of the AERA, Boston, MA.Google Scholar
(1979). Beyond field theory in the study of mental deficiency. In (Ed.), International review of research in mental retardation, 2nd edn. (pp. 121–41). Hillsdale, NJ: Erlbaum.Google Scholar
(1985). Historical Development of Learning Style Inventories from Dichotomous Cognitive Concepts of Field Dependence and Field Independence to Multi-dimensional Assessment. (ERIC Document Reproduction Service No. ED 339 729).
(1985) The negative priming effect: Inhibitory effects of ignored primes. Quarterly Journal of Experimental Psychology, 37A, 571–90.CrossRefGoogle Scholar
, , & (1996). Influence of intelligence on memory development. American Journal on Mental Retardation, 100, 468–80.Google ScholarPubMed
(1979). Perceived control and learned helplessness among mentally retarded and nonretarded boys: A developmental analysis. Developmental Psychology, 15, 311–9.CrossRefGoogle Scholar
(1950) Individual differences in ease of perception of embedded figures. Journal of Personality, 19, 1–15.CrossRefGoogle ScholarPubMed
& (1981) Cognitive Styles: Essence and Origins. New York: International Universities Press.Google ScholarPubMed
& (1971). Outer-directedness in the problem-solving of institutionalized and nonistitutionalized typically developing and retarded boys. Developmental Psychology, 4, 277–88.CrossRefGoogle Scholar
(1965). The development of perception in the preschool child. Monographs of the Society for Research in Child Development, 30, 82–101.CrossRefGoogle ScholarPubMed