Dynamic approach to second language development

Dynamic approach to second language development is a perspective and approach to second language acquisition. However, some researchers (e.g. Diane Larsen-Freeman) consider the approach as a theory on second language acquisition. The dynamic view on second language acquisition is contrasted with second language acquisition by emphasising that language learning is an infinite process with no end state. Researchers prefer the word development which includes both regression and improvement. Researchers who view language learning as a second language development mostly apply dynamic systems theory to explicate changes in the development.

Origins

The dynamic systems approach to second language acquisition originates from applied mathematics which studies dynamical systems. The introduction of dynamic systems theory to study development in social sciences can be attributed to Esther Thelen who applied it to study motor development. She explained the A-not-B error from a dynamic systems theory perspective.[1][2]

Diane Larsen-Freeman in her article entitled "Chaos/Complexity Science and Second Language Acquisition", published in 1997, was the first scientist to suggest the application and the introduction of dynamic systems theory to study second language acquisition. In her article she claimed that language should be viewed as a dynamic system which is dynamic, complex, nonlinear, chaotic, unpredictable, sensitive to initial conditions, open, self-organizing, feedback sensitive, and adaptive.

Definition

In 1997, Larsen-Freeman published an article in which she claimed that second language acquisition should be viewed as a developmental process which includes language attrition as well as language acquisition.[3]

Second language development is mainly studied by applying dynamical systems theory. Language is considered to be a system which includes many subsystems such as linguistic system, phonetic system. Dynamic systems are interconnected, nonlinear, adaptive, open, sensitive to initial conditions. Variability is seen as an inherent property of development and it is not viewed as measurement error, therefore from a dynamic systems perspective variability in the data is analysed and considered valuable information.

Main characteristics

The main characteristics of second language development from a dynamic systems perspective are:

  • sensitive dependence on initial conditions
  • complete interconnectedness
  • nonlinearity in development
  • change through internal reorganization (self-organization) and interaction with the environment
  • dependence on internal and external resources
  • constant change, with chaotic variation sometimes, in which the systems only temporarily settle into attractor states
  • iteration
  • change caused by interaction with the environment and internal reorganization
  • emergent properties

There is sensitive dependence on initial conditions usually cited as the Butterfly effect. Different language learners start learning a second language (L2) with different background (different motivation, language aptitude etc.). The outcome critically depends on the initial conditions of the language learners. The systems of a language are completely interconnected. The development of the syntactic system affects the development of the lexical system and vice versa. Second language development is nonlinear that is language learners acquire new words in different tempo. On one day they might acquire ten new words, but the next day they may learn only one. On the third day they might even forget some of the previously learnt vocabulary. In second language development change occurs through self-organization which can take place unpredictably. Language learners' are dependent on internal and external resources. Internal resources are the motivational factors of the language learners, while the language teacher or the environment are examples of the external resources. The growth is described as an iterative process in second language development and it is often modelled by using coupled-equation models (Logistic Equation).

Second language motivation

Dynamic systems theory is also most recently applied to study motivation in second-language learning. Motivational factors such as interest, boredom, anxiety are usually explicated as attractor states. Second language motivation also fluctuates in time (on short time and long time scales). In 2014 Zoltán Dörnyei's book Motivational Dynamics in Language Learning was influential in reorienting second language motivation research by claiming that motivation is dynamic.[4]

Methods and techniques

Second language development is mainly studied by applying time series data. It is contrasted with traditional techniques used in second language acquisition research such as Cross-sectional data research design (for example pre-test and post-test design) in cross-sectional studies.

Studies on second language development prefer the case study approach rather than observing a larger population. Time-series data are usually plotted and inspected visually and correlations (usually Spearman's rank correlation coefficient since lingusitic data are expected to be not normally distributed) are calculated. In 2002 Paul van Geert created techniques and methods to measure the degree of variability by applying min-max graphs, resampling techniques, and Monte Carlo method along with Marijn van Dijk.[5]

More recently the Hidden Markov Model is used to detect phase shifts or transitional jumps in the development of language systems such as lexical or syntactic complexity. This model was first used for linguistic data by Chan in 2015 .[6]

Hiver and Al-Hoorie's article, published in The Modern Language Journal in 2016, provides a "Dynamic ensemble for second language research". They present a practical catalog of 9 considerations: 1. systems, 2. level of granularity, 3. context, 4. systemic networks, 5. dynamic processes, 6. emergent outcomes, 7. components, 8. interactions, and 9. parameters.[7]

Criticism

The application of dynamical systems theory to study second language acquisition has received criticism in the field. Gregg criticized Larsen-Freeman's book entitled Complex Systems and Applied Linguistics.[8]

In contrast to traditional cross-sectional studies, the DST approach does not use componential observations, generalizability, or linear causality.

Notable researchers

The following is a list of those researchers who support the idea that second language development should viewed from a dynamic systems perspective and have made major contributions to the field:

See also

References

  1. "Dynamic Systems Theories". Wiley Online Library. 2007.
  2. "Discovery of Motor Development: A Tribute to Esther Thelen". PsycNET. 2005.
  3. "Chaos/Complexity Science and Second Language Acquisition". Applied Linguistics. 1997.
  4. "Zoltan Dornyei - Books". zoltandornyei.co.uk. 2018.
  5. "Focus on variability: New tools to study intra-individual variability in developmental data". APA PsycNET. 2002.
  6. "Belinda Chan: A Dynamic Approach to the Development of Lexicon and Syntax in a Second Language" (PDF). University of Groningen. 2015.
  7. https://eric.ed.gov/?id=EJ1126639
  8. "Kevin Gregg: Review article: Shallow draughts: Larsen-Freeman and Cameron on complexity". Sage Journals. 2010.
  9. "Cornelis de Bot - Faculty of Arts". University of Groningen. 3 February 2018.
  10. "Marijn van Dijk - Faculty of Behavioural and Social Sciences". University of Groningen. 8 February 2018.
  11. "Paul van Geert - Faculty of Behavioural and Social Sciences". University of Groningen. 19 January 2018.
  12. "Diane Larsen-Freeman - University of Michigan". University of Michigan. 23 January 2018.
  13. "Wander Lowie - Faculty of Arts". University of Groningen. 21 January 2018.
  14. "Marjolijn Verspoor - Faculty of Arts". University of Groningen. 21 January 2018.
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