The Flynn Effect
Originally prepared by: Charles Graham (fall 2001)
Revised: Jonathan Plucker (fall 2002)
The Flynn Effect deals with the issue of how the general IQ scores of a population change over time. Below are three graphs indicating possible trends and fluctuations of IQ scores over time. Click on the image which most accurately portrays how you think IQ scores have changed with time?
How large are the IQ gains?
Where is the IQ test data from?
What are possible causes for the Flynn Effect?
Why must IQ tests be constantly restandardized?
Who has written about the Flynn Effect?
In his study of IQ tests scores for different populations over the past sixty years, James R. Flynn discovered that IQ scores increased from one generation to the next for all of the countries for which data existed (Flynn, 1994). This interesting phenomena has been called "the Flynn Effect." Many of the questions about why this effect occurs have not yet been answered by researchers. This site attempts to explain the issues involved in a way that will better help you to understand the Flynn Effect. It also provides references for further inquiry.
Research shows that IQ gains have been mixed for different countries. In general, countries have seen generational increases between 5 and 25 points. The largest gains appear to occur on tests that measure fluid intelligence (Gf) rather than crystallized intelligence (Gc).
Tests like the Ravens, the Norwegian matrices, the Belgian Shapes test, the Jenkins test, and the Horn test are examples of tests that attempt to measure fluid intelligence. These tests try to emphasize problem solving and minimize a reliance on specific skills or familiarity with words and symbols. These tests on average have shown an increase of about 15 points or one standard deviation per generation (Flynn, 1994)(Flynn, 1987). Deary (2001) notes that it is these types of tests (i.e., "culturally reduced") on which we would not expect to see score increases if the cause of the increases was due to educational factors.
Tests like the Wechsler-Binet and purely verbal tests measure crystallized
intelligence in addition to fluid intelligence. Some questions on
these tests measure problem solving abilities but others measure learned
information such as vocabulary and math skills. The IQ gains for
these tests have been more moderate, with an average of about 9 points
per generation (Flynn, 1994)(Flynn, 1987).
The countries from which data has been gathered to research the increase of IQ scores over time are: Australia, Austria, Belgium, Brazil, Britain, Canada, China, Denmark, East Germany, France, Israel, Japan, Netherlands, New Zealand, Northern Ireland, Norway, Sweden, Switzerland, United States of America, and West Germany (Flynn, 1994).
"The hypothesis that best fits the results is that IQ tests do not measure intelligence but rather correlate with a weak causal link to intelligence." (Flynn, 1987). Based on the presence of the effect on nonverbal tests such as the Raven's Matrices, Flynn believes that the increase is actually an increase in abstract problem solving rather than intelligence. Flynn (1994, 1999) favors environmental explanations for the increase in test scores.
Education a cause of IQ gains?
In many countries the level of education of the general public is increasing. People are spending a larger amount of their time learning and being examined in formal educational settings. In some cases IQ gains are highly correlated to increased years spent in formal education. Again, several scholars point at the increase in culture-free tests as evidence against an educational cause.
The Brand hypothesis: Societal changes causing IQ gains?
Brand suggested that societal changes that teach testing with "time limits" could be a cause of IQ gains. The idea behind this hypothesis is that people in our society have learned to work better within a limited time frame. This societal trend allows later generations to score better on timed tests because they make intelligent guesses and don't waste time trying to get every test item correct. Although this hypothesis seemed promising, there has been research that contradicts its fundamental assumptions (Flynn, 1994)
Better nutrition a cause of IQ gains?
It has also been hypothesized that IQ gains are the results of better world wide nutrition. The idea behind this hypothesis is that better nourished brains would allow subjects to perform better on IQ tests as well as in everyday activities. Experimental data trying to prove this theory are also mixed leading one to believe that nutrition, though a possible contributing cause, cannot account entirely for the massive gains in IQ measured around the world (Flynn, 1994).
A widely held hypothesis is that people lose fluid intelligence as they age. This phenomena is caused by comparing the IQ tests of elderly people with today's young people. However, when compared to the IQ scores of youth in their own era (a half a century before) the IQ losses with age are minimal (Raven, 1992, pp. G22-G26). In a final example, Flynn explains that the WISC, an intelligence test used widely in the United States, was not restandardized for 25 years between 1947 and 1972. This comparison of IQ scores to obsolete norms caused the number of children who were officially classified as mentally retarded to drop from 8.8 million in 1947 to 2.6 million in 1972 (Flynn, 1985).
A note of caution: The Flynn Effect illustrates the difficulty of comparing test results over time, but it says little about the validity of the tests within a given time period (Flynn talks about the validity "within generations").
Flynn, J. R. (1984). The mean IQ of Americans:
Massive gains 1932 to 1978. Psychological Bulletin, 95, 29-51.
Jensen, A. R. (1989). Rising IQ without increasing g? [A review of The Milwaukee Project: Preventing mental retardation in children at risk]. Development Review, 9, 234-258.
Lynn, R. (1987). Japan: Land of the rising IQ, A reply to Flynn. Bulletin of the British Psychological Society, 40, 464-468.
Neisser, U. (Ed.). (1998). The rising curve. Washington, DC: American Psychological Association.
Originally prepared by Charles Graham with subsequent revisions by Jonathan Plucker. Please feel free to contact us with issues, questions, and contributions that you feel would help others using this site as a resource.
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Last Modified: 29 April 2018