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results, which causes a "bell Curve" graph of IQ score frequency. Colors delineate one Standard Deviation .]]
An intelligence quotient or '''IQ''' is a number derived from a set of Standardized Test s developed to measure a person's Cognitive Abilities (" Intelligence ") in relation to their age group. An IQ test does not measure intelligence the way a ruler measures height (absolutely), but rather the way a Race measures speed (relatively); IQ is described as a "quotient" because, originally, it represented the ratio between a person's "mental age" and actual chronological age.

For people living in the prevailing conditions of the developed world, IQ is highly Heritable , and by adulthood the influence of family environment on IQ is undetectable. IQ test scores are correlated with measures of brain structure and function, as well as performance on simple tasks that anyone can complete within a few seconds.

IQ is correlated with academic success, job performance, socioeconomic advancement, and "social pathologies". It is taken by psychologists to be an excellent Proxy for intelligence, and possibly the best measurable definition of intellectual ability, but generally not taken to represent intelligence perfectly. Recent work has demonstrated links between IQ and health, longevity, and functional literacy.


HISTORY


Early attempts of mental tests were those of Sir Francis Galton (1863) and James Cattell (1888). These tests were more physical tests than mental ones. Their importance was in developing the idea that one's IQ can be measured and is different from person to person. They also proposed normal distributions of mental tests results within a large population.

Alfred Binet and his colleague Theodore Simon created the Binet-Simon scale in 1905 , which used testing to identify students who could benefit from extra help in school. Their assumption was that lower scores indicated the need for more teaching, not an inability to learn. This interpretation is still held by some modern experts.

Notably, Binet himself made ''no claim'' that his test properly measured intelligence. He stated in his paper ''New Methods for the Diagnosis of the Intellectual Level of Subnormals'' that
:"This scale properly speaking does not permit the measure of the intelligence, because intellectual qualities are not superposable, and therefore cannot be measured as linear surfaces are measured, but are on the contrary, a classification, a hierarchy among diverse intelligences; and for the necessities of practice this classification is equivalent to a measure." {Link without Title}

In (IQ of 51–70), Imbecile (IQ of 26–50), and Idiot (IQ of 0–25). This taxonomy was the standard of intelligence research for decades.

In 1916 , Stanford University psychologist Lewis Terman released the "Stanford Revision of the Binet-Simon Scale", generally known as the Stanford-Binet Test . This became the most commonly administered test for many decades. The term "intelligence quotient," in which each student's score was the quotient of his or her tested mental age with his or her actual age, was adopted by Terman from a 1912 proposal by German psychologist William Stern . This led to refined testing developed by Robert Yerkes for United States Army recruits.

Today, the most commonly administered IQ test is the WISC-IV test, originally developed by David Wechsler . The WISC-IV test is comprised of 15 subtests, 10 core subtests required in order to calculate the composite scores, and five additional subtests suitable for substitution / replacement of core subtests or for additional information. These subtests comprise four composite scores of verbal comprehension (and expression), perceptual reasoning (visual problem solving), working memory (auditory repetition and immediate verbal memory), and processing speed (visual scanning and matching with differing degrees of graphomotor demands), as well as the better-known Full Scale IQ. Another notable type of IQ test is the Bayley Scale of Infant Development, regarded as the 'best' means of testing cognitive development in infants.

Today, informal online IQ tests are popular, but they are at best rough approximations. Most of these tests are not expert certified and notable limitations include a small number of questions and a lack of the time limit.


IQ SCORE DISTRIBUTION


IQ scores are ''normalized''. It is not possible to infer an IQ from a test without specifying a sample population, as scores are interpreted so the mean IQ will be 100. The ). A difference has been documented between the IQ score distributions of Left-handed and Right-handed test subjects; the distribution in left-handed people tends to cluster at the two extremes of the IQ scale.

(The following numbers apply to IQ scales standard deviation σ = 15.) Roughly 68% of the population has an IQ between 85 and 115. The "normal" range, or range between −2 and +2 standard deviations from the mean, is between 70 and 130, and contains about 95% of the population. An accurate score below 70 may indicate Mental Retardation , and a score above 130 may indicate Intellectual Giftedness . Retardation may result from normal variation or from a genetic or developmental malady; analogously, some otherwise normal people are very short, and others have Dwarfism . Giftedness appears to be normal variation; Autistic Savant s often have astonishing cognitive powers but below-average IQs.

It has been observed that scores outside the range 55 to 145 must be cautiously interpreted because there are smaller numbers of respondents with which to make comparisons in those ranges. Moreover, at such extreme values, the normal distribution is a less accurate estimate of the true IQ distribution.

In actuality there is a higher percentage of the population measured at 3 or more standard deviation levels on the test than the probabilities of the normal distribution would predict ( Lewis Terman , ''Genetic Studies of Genius'', v.1, 1925). Some IQ scoring procedures may attempt to integrate such clusters of statistical outliers into the curve by adjusting the scores so that they better represent actual probabilities (according to Silverman) and in these cases, scores around 145 and above may actually have been notably higher, were they not so adjusted.

Most IQ tests in the United States tend to use a SD-15 or SD-16 scale, meaning that one standard deviation corresponds to ±16 points on the IQ scale. However, European IQ tests tend to use a SD-24 or SD-25 scale, resulting in discrepancies. Therefore, an IQ of 130 (+2 standard deviations) in the U.S. might correspond to an IQ of 148-150 in Europe. Due to these differences, percentiles are more accurate measurements than IQ numbers.


IQ AND GENERAL INTELLIGENCE FACTOR''

See Also: General intelligence factor



Modern IQ tests produce scores for different areas (e.g., language fluency, three-dimensional thinking, etc.), with the summary score calculated from subtest scores. Individual subtest scores tend to Correlate with one another, even when seemingly disparate in content. Analyses of an individual's scores on the subtests of a single IQ test or the scores from a variety of different IQ tests (e.g., Stanford-Binet , WISC-R , Raven's Progressive Matrices and others) will reveal that they all measure a single common factor and various factors that are specific to each test. This kind of Factor Analysis has led to the theory that underlying these disparate cognitive tasks is a single factor, termed the General Intelligence Factor (or ''g''), that corresponds with the common-sense concept of intelligence. In the normal population, ''g'' and IQ are roughly 90% correlated and are often used interchangeably.


GENETICS VS ENVIRONMENT

See Also: Inheritance of intelligence



The role of genes and environment (nature vs. nurture) in determining IQ is reviewed in Plomin ''et al.'' (2001, 2003). The degree to which genetic variation contributes to observed variation in a trait is measured by a statistic called Heritability . Heritability scores range from 0 to 1, and can be interpreted as the percentage of variation (e.g. in IQ) that is due to variation in genes. Twins Studies and adoption studies are commonly used to determine the heritability of a trait. Until recently heritability was mostly studied in children. These studies yield an estimate of heritability of 0.5; that is, half of the variation in IQ among the children studied was due to variation in their genes. The remaining half was thus due to environmental variation and measurement error. A heritability of 0.5 implies that IQ is "substantially" heritable. Studies with adults show that they have a higher heritability of IQ than children do and that heritability could be as high as 0.8, though it is probably not this high. The American Psychological Association 's 1995 task force on "Intelligence: Knowns and Unknowns" concluded that within the White population the heritability of IQ is “around .75” (p. 85). {Link without Title}


Environment


Environmental factors play a large role in determining IQ in extreme situtations. Proper childhood Nutrition appears critical for Cognitive Development ; Malnutrition can lower IQ. Other research indicates environmental factors such as prenatal exposure to Toxin s, duration of Breastfeeding , and Micronutrient deficiency can affect IQ. In the developed world, there are some family effects on the IQ of children, accounting for up to a quarter of the variance. However, by adulthood, this correlation disappears, so that the IQ of adults living in the prevailing conditions of the developed world may be heritable.

According to some sources (Harris, 1998; Plomin & Daniels, 1987), nearly all Personality traits show that, contrary to expectations, environmental effects actually cause adoptive siblings raised in the same family to be as different as children raised in different families. Put another way, shared environmental variation for personality is zero, and all environmental effects would be nonshared. Conversely, IQ is actually an exception to this, at least among children. The IQs of adoptive siblings, who share no genetic relation but do share a common family environment, are correlated at .32. Despite attempts to isolate them, the factors that cause adoptive siblings to be similar have not been identified, though it could be related to parents choosing the type of children they will adopt. However, as explained below, shared family effects on IQ disappear after adolescence.

Active genotype-environment correlation, also called the "nature of nurture", is observed for IQ. This phenomenon is measured similarly to heritability; but instead of measuring variation in IQ due to genes, variation in environment due to genes is determined. One study found that 40% of variation in measures of home environment are accounted for by genetic variation. This suggests that the way human beings craft their environment is due in part to genetic influences.


Development


It is reasonable to expect that genetic influences on traits like IQ should become less important as we gain experiences with age. Surprisingly, the opposite occurs. Heritability measures in infancy are as low as 20%, around 40% in middle childhood, and as high as 80% in adulthood.

Shared family effects also seem to disappear by adulthood. Adoption studies show that, after adolescence, adopted siblings are no more similar in IQ than strangers (IQ correlation near zero), while full siblings show an IQ correlation of 0.6. Twin studies reinforce this pattern: Monozygotic (identical) Twins raised separately are highly similar in IQ (0.86), more so than Dizygotic (fraternal) Twins raised together (0.6) and much more than adopted siblings (~0.0).

Most of the IQ studies described above were conducted in developed countries, such as the United States , Japan , and Western Europe . Also, a few studies have been conducted in Moscow, East Germany, and India, and those studies produce similar results. Any such investigation is limited to describing the genetic and environmental variation found within the populations studied. This is a caveat of any heritability study.


Mental retardation


About 75–80 percent of Mental Retardation is familial (runs in families), and 20–25 percent is due to organic problems, such as chromosomal abnormalities or brain damage. {Link without Title} Mild to severe mental retardation is a symptom of several hundred single-gene disorders and many chromosomal abnormalities, including small deletions. Based on twin studies, moderate to severe mental retardation does not appear to be familial, but mild mental retardation does. That is, the relatives of the moderate to severely mentally retarded have normal ranges of IQs, whereas the families of the mildly mentally retarded have IQs skewing lower.

IQ score ranges (from DSM-IV):
  • mild mental retardation: IQ 50–55 to 70; children require mild support; formally called "Educable Mentally Retarded".

  • moderate retardation: IQ 35–40 to 50–55; children require moderate supervision and assistance; formally called "Trainable Mentally Retarded".

  • severe mental retardation: IQ 20–25 to 35–40; can be taught basic life skills and simple tasks with supervision.

  • profound mental retardation: IQ below 20–25; usually caused by a neurological condition; require constant care.


The rate of mental retardation is higher among males than females, and higher among blacks than whites, according to a 1991 U.S. Centers For Disease Control And Prevention (CDC) study. {Link without Title}

By race, the overall rate was 16.6 per 1000 for blacks and 6.8 per 1000 for whites. Rates of mental retardation for black males, the group with the highest rates, were 1.7 times higher than black females, 2.4 times higher than white males, and 3.1 times higher than white females.

Individuals with IQs below 70 have been exempted from the death penalty in the U.S. since 2002. {Link without Title}


IQ, education, and income


Tambs ''et al.'' (1989) found that occupational status, educational attainment, and IQ are individually heritable; and further found that "genetic variance influencing educational attainment … contributed approximately one-fourth of the genetic variance for occupational status and nearly half the genetic variance for IQ". In a sample of US siblings, Rowe ''et al.'' (1997) report that the inequality in education and income was predominantly due to genes, with shared environmental factors playing a subordinate role.


Regression


The heritability of IQ determines the extent to which the IQ of children will be similar to the IQ of parents. Because the heritability of IQ is less than 100%, the IQ of children tends to "regress" towards the mean IQ of the population. That is, high IQ parents tend to have children who are less bright than their parents, whereas low IQ parents tend to have children who are brighter than their parents. The effect can be quantified by the equation \hat y = \bar x + h^2 \left ( rac{\mbox{mom} + \mbox{dad}}{2} - \bar x ight) where:
  • \hat{y} is the predicted average IQ of Mom and Dad's children

  • \bar{x} is the mean IQ of the population that Mom and Dad come from

  • h^2 is the heritability of IQ

    • Thus, if the heritability of IQ is 50%, a couple with an average IQ of 120 may have children that average around an IQ of 110, assuming that both parents come from a population with a median IQ of 100.



IQ AND THE BRAIN

See Also: Neuroscience and intelligence



Brain size and IQ

Modern studies using MRI imaging have shown that brain size correlates with IQ by a factor of approximately .40 among adults (McDaniel, 2005). The correlation between brain size and IQ seems to hold for comparisons between and within families (Gignac et al. 2003; Jensen 1994; Jensen & Johnson 1994). However, one study found no familial correlation (Schoenemann et al. 2000). A Study On Twins (Thompson ''et al.'', 2001) showed that frontal Gray Matter volume was correlated with ''g'' and highly heritable. A related study has reported that the correlation between brain size (reported to have a Heritability of 0.85) and ''g'' is 0.4, and that correlation is mediated entirely by genetic factors (Posthuma et al 2002).


Brain areas associated with IQ

Many different sources of information have converged on the view that the frontal lobes are critical for fluid intelligence. Patients with damage to the Frontal Lobe are impaired on fluid intelligence tests (Duncan et al 1995). The volume of frontal grey (Thompson et al 2001) and white matter (Schoenemann et al 2005) have also been associated with general intelligence. In addition, recent neuroimaging studies have limited this association to the lateral prefrontal cortex. Duncan and colleagues (2000) showed using Positron Emission Tomography that problem-solving tasks that correlated more highly with IQ also activate the Lateral Prefrontal Cortex . More recently, Gray and colleagues (2003) used functional magnetic resonance imaging (fMRI) to show that those individuals that were more adept at resisting distraction on a demanding working memory task had both a higher IQ and increased prefrontal activity. For a review of this topic, see Gray and Thompson (2004).


Brain structure and IQ

A study involving 307 children (age between six to nineteen) measuring the size of brain structures using magnetic resonance imaging (MRI) and measuring verbal and non-verbal abilities has been conducted (Shaw et al 2006). The study has indicated that there is a relationship between IQ and the structure of the cortex - the characteristic change being the group with the superior IQ scores starts with thinner cortex in the early age then becomes thicker than average by the late teens.


THE FLYNN EFFECT

See Also: Flynn effect



Worldwide, IQ scores appear to be slowly rising, a trend known as the Flynn effect. However, tests are only renormalized occasionally to obtain mean scores of 100, for example WISC-R (1974), WISC-III (1991) and WISC-IV (2003). Hence it is difficult to compare IQ scores measured years apart.


IQ CORRELATIONS


Race and IQ

See Also: Race and intelligence




While the distributions of IQ scores among different racial-ethnic groups overlap considerably, groups differ in where their members cluster along the IQ scale. Some groups, such as ). The findings of this field are often thought to conflict with fundamental social philosophies, and have thus engendered a large controversy.The controversy itself has caused some scientists to debate whether such areas of science are inappropriate, or whether group differences in traits are just another area of the science of human nature, as Steven Pinker and others argue. (See Race_and_intelligence#Utility_of_research_and_racism .)


Religiosity and IQ

See Also: Religiosity and intelligence




Several studies have investigated the relationship between intelligence and the degree of religious belief, with most showing a negative correlation {Link without Title} .


Health and IQ


Persons with a higher IQ have generally lower adult morbidity and mortality. This may be because they better avoid injury and take better care of their own health, or alternativly may be due to a slight increased propensity for material wealth (see above). It also decreases the risk of Post-Traumatic Stress Disorder , severe Depression , and Schizophrenia . On the other hand, it increases the risk of Obsessive Compulsive Disorder {Link without Title} .

Research in Scotland has shown that a 15-point lower IQ meant people had a fifth less chance of seeing their 76th birthday, while those with a 30-point disadvantage were 37% less likely than those with a higher IQ to live that long {Link without Title} .


Economic development and IQ

A controversial book '' IQ And The Wealth Of Nations '', claims to show that the wealth of a nation can in large part be explained by the average IQ score. This claim has been both disputed and supported in peer-reviewed papers. The data used has also been questioned.


PRACTICAL VALIDITY


Evidence for the practical validity of IQ comes from examining the Correlation between IQ scores and life outcomes.

Research shows that general intelligence plays an important role in many valued life outcomes. In addition to academic success, IQ correlates with job performance (see below), socioeconomic advancement (e.g., level of education, occupation, and income), and "social pathology" (e.g., adult criminality, poverty, unemployment, dependence on welfare, children outside of marriage). Recent work has demonstrated links between general intelligence and health, longevity, and functional literacy. Correlations between '' G '' and life outcomes are pervasive, though IQ and Happiness do not correlate. IQ and ''g'' correlate highly with school performance and job performance, less so with occupational prestige, moderately with income, and to a small degree with law-abidingness.

General intelligence (in the literature typically called "cognitive ability") is the best predictor of job performance by the standard measure, validity. ''Validity'' is the correlation between score (in this case cognitive ability, as measured, typically, by a paper-and-pencil test) and outcome (in this case job performance, as measured by a range of factors including supervisor ratings, promotions, training success, and tenure), and ranges between −1.0 (the score is perfectly wrong in predicting outcome) and 1.0 (the score perfectly predicts the outcome). See Validity (psychometric) . The validity of cognitive ability for job performance tends to increase with job complexity and varies across different studies, ranging from 0.2 for unskilled jobs to 0.8 for the most complex jobs.

A large Meta-analysis (Hunter and Hunter, 1984) which pooled validity results across many studies encompassing thousands of workers (32,124 for cognitive ability), reports that the validity of cognitive ability for entry-level jobs is 0.54, larger than any other measure including job tryout (0.44), experience (0.18), interview (0.14), age (−0.01), education (0.10), and biographical inventory (0.37).

Because higher test validity allows more accurate prediction of job performance, companies have a strong incentive to use cognitive ability tests to select and promote employees. IQ thus has high practical validity in economic terms. The Utility of using one measure over another is proportional to the difference in their validities, all else equal. This is one economic reason why companies use job interviews (validity 0.14) rather than randomly selecting employees (validity 0.0).

However, legal barriers, most prominently the 1971 United States Supreme Court decision '' is known for using non-illegal tests that correlate with IQ tests as part of the interview process, weighing the results even more than experience in many cases. [https://www.keepmedia.com/Auth.do?extId=10022&uri=/archive/forbes/2005/1031/045.html

Some researchers have echoed the popular claim that "in economic terms it appears that the IQ score measures something with decreasing marginal value. It is important to have enough of it, but having lots and lots does not buy you that much." (Detterman and Daniel, 1989) {Link without Title}

However, some studies suggest IQ continues to confer large benefits even at very high levels. Ability and performance for jobs are linearly related, such that at all IQ levels, an increase in IQ translates into a concomitant increase in performance (Coward and Sackett, 1990). In an analysis of hundreds of siblings, it was found that IQ has a substantial effect on income independently of family background (Murray, 1998).

Other studies question the real-world importance of whatever is measured with IQ tests, especially for differences in accumulated and unequal treatment of women (but note that many studies find identical average IQs among men and women; see Sex And Intelligence ). In contrast, others claim that the refusal of high-IQ elites to take IQ seriously as a cause of inequality is itself immoral. {Link without Title}


PUBLIC POLICY

See Also: Intelligence and public policy



Because public policy is often intended to influence the same outcomes (for example to improve education, fight poverty and crime, promote fairness in employment, and counter racial discrimination), policy decisions frequently interact with intelligence measures. In some cases, modern public policy references intelligence measures or even aims to alter cognitive development directly.

While broad consensus exists that intelligence measures neither dictate nor preclude any particular social policy, controversy surrounds many other aspects of this interaction. Central issues concern whether intelligence measures should be considered in policy decisions, the role of policy in influencing or accounting for group differences in measured intelligence, and the success of policies in light of individual and group intelligence differences. The importance and sensitivity of the policies at issue have produced an often-emotional ongoing debate spanning scholarly inquiry and the popular media from the national to the local level.


Use of IQ in the United States legal system


The Supreme Court of the United States has also validated the use of IQ results during the sentencing phase of some criminal proceedings. The Supreme Court case of ''Atkins v. Virginia'', decided June 20 2002 , {Link without Title} held that executions of mentally retarded criminals are "cruel and unusual punishments" prohibited by the Eighth Amendment. In ''Atkins'' the court stated that

:"… {Link without Title} t appears that even among those States that regularly execute offenders and that have no prohibition with regard to the mentally retarded, only five have executed offenders possessing a known IQ less than 70 since we decided ''Penry''. The practice, therefore, has become truly unusual, and it is fair to say that a national consensus has developed against it."

In overturning the Virginia Supreme Court's holding, the ''Atkins'' opinion stated that petitioner's IQ result of 59 was a factor making the imposition of capital punishment a violation of his eighth amendment rights. In the opinion's notes the court provided some of the facts relied upon when reaching their decision

:"At the sentencing phase, Dr. Nelson testified: "Atkins' full scale IQ is 59. Compared to the population at large, that means less than one percentile…. Mental retardation is a relatively rare thing. It's about one percent of the population." App. 274. According to Dr. Nelson, Atkins' IQ score "would automatically qualify for Social Security disability income." Id., at 280. Dr. Nelson also indicated that of the over 40 capital defendants that he had evaluated, Atkins was only the second individual who met the criteria for mental retardation. Id., at 310. He testified that, in his opinion, Atkins' limited intellect had been a consistent feature throughout his life, and that his IQ score of 59 is not an "aberration, malingered result, or invalid test score." Id., at 308."


VALIDITY AND ''G''-LOADING OF SPECIFIC TESTS


While IQ is sometimes treated as an end unto itself, scholarly work on IQ focuses to a large extent on IQ's Validity , that is, the degree to which IQ predicts outcomes such as job performance, social pathologies, or academic achievement. Different IQ tests differ in their validity for various outcomes.

Tests also differ in their ''g'' -loading, which is the degree to which the test score reflects general mental ability rather than a specific skill or "group factor" such as verbal ability, spatial visualization, or mathematical reasoning). ''g''-loading and validity are related in the sense that most IQ tests derive their validity mostly or entirely from the degree to which they measure ''g'' (Jensen 1998).


SOCIAL CONSTRUCT


Some maintain that IQ is a Social Construct invented by the privileged classes, used to maintain their privilege. Others maintain that intelligence, measured by IQ or ''g'', reflects a real ability, is a useful tool in performing life tasks and has a biological reality.

The social-construct and real-ability interpretations for IQ differences can be distinguished because they make opposite predictions about what would happen if people were given equal opportunities. The social explanation predicts that equal treatment will eliminate differences, while the real-ability explanation predicts that equal treatment will accentuate differences. Evidence for both outcomes exists. Achievement gaps persist in socioeconomically advantaged, integrated, liberal, suburban school districts in the United States (see Noguera, 2001). Test-score gaps tend to be larger at higher socioeconomic levels (Gottfredson, 2003). Some studies have reported a narrowing of score gaps over time.

The reduction of intelligence to a single score seems extreme and unrealistic to many people. Opponents argue that it is much more useful to know a person's strengths and weaknesses than to know their IQ score. Such opponents often cite the example of two people with the same overall IQ score but very different ability profiles. As measured by IQ tests, most people have highly balanced ability profiles, with differences in subscores being greater among the more intelligent. However, this assumes the ability of IQ tests to comprehensively gauge the wide variety of human intellectual abilities.

The creators of IQ testing did not intend for the tests to gauge a person's worth, and in many (or, as some people suggest, all) situations, IQ may have little relevance.


The Mismeasure of Man


Some scientists dispute Psychometrics entirely. In '' The Mismeasure Of Man '', Professor Stephen Jay Gould argues that intelligence tests are based on faulty assumptions and shows their history of being used as the basis for Scientific Racism . He writes:

:…the abstraction of intelligence as a single entity, its location within the brain, its quantification as one number for each individual, and the use of these numbers to rank people in a single series of worthiness, invariably to find that oppressed and disadvantaged groups—races, classes, or sexes—are innately inferior and deserve their status. (pp. 24–25)

He spends much of the book debunking the concept of IQ, including a historical discussion of how the IQ tests were created and a technical discussion of why ''g'' is simply a mathematical artifact. Later editions of the book include criticism of '' The Bell Curve ''.

Arthur Jensen , Professor of Educational Psychology, University of California, Berkeley, responds to Gould's criticisms in a paper titled ''The Debunking of Scientific Fossils and Straw Persons''. {Link without Title}


The view of the American Psychological Association

In response to the controversy surrounding ''The Bell Curve'', the American Psychological Association 's Board of Scientific Affairs established a task force to write a consensus statement on the state of intelligence research which could be used by all sides as a basis for discussion. The full text of the report is available at a third-party website. {Link without Title}

The findings of the task force state that IQ scores ''do'' have high predictive validity for individual (but not necessarily population) differences in school achievement. They confirm the predictive validity of IQ for adult occupational status, even when variables such as education and family background have been statistically controlled. They agree that individual (again, not necessarily population) differences in intelligence are substantially influenced by genetics.

They state there is little evidence to show that childhood diet influences intelligence except in cases of severe malnutrition. They agree that there are no significant differences between the average IQ scores of males and females. The task force agrees that large differences do exist between the average IQ scores of blacks and whites, and that these differences cannot be attributed to biases in test construction. While they admit there is no empirical evidence supporting it, the APA task force suggests that explanations based on social status and cultural differences may be possible. Regarding genetic causes, they noted that there is not much direct evidence on this point, but what little there is fails to support the genetic hypothesis.

The APA journal that published the statement, '' American Psychologist '', subsequently published eleven critical responses in January 1997, most arguing that the report failed to examine adequately the evidence for partly-genetic explanations.

The report was published in 1995 and thus does not include a decade of recent research.


CONTROVERSY


See article on IQ Test Controversy .


END MATERIAL


Notes



See also




External links



References


  • Carroll, J.B. (1993). Human cognitive abilities: A survey of factor-analytical studies. New York: Cambridge University Press.

  • Coward, W.M. and Sackett, P.R. (1990). Linearity of ability-performance relationships: A reconfirmation. ''Journal of Applied Psychology,'' 75:297–300.

  • Duncan, J., P. Burgess, and H. Emslie (1995) Fluid intelligence after frontal lobe lesions. Neuropsychologia, 33(3): p. 261-8.

  • Duncan, J., et al., A neural basis for general intelligence. Science, 2000. 289(5478): p. 457-60.

  • Frey, M.C. and Detterman, D.K. (2003) Scholastic Assessment or ''g''? The Relationship Between the Scholastic Assessment Test and General Cognitive Ability. ''Psychological Science,'' 15(6):373–378. PDF

  • Gottfredson, L. S. (1997). "Why g matters: The complexity of everyday life." ''Intelligence'', 24(1), 79–132. PDF

  • Gottfredson, L.S. (1998). The general intelligence factor. ''Scientific American Presents,'' 9(4):24–29. PDF

  • Gottfredson, L. S. (2005). Suppressing intelligence research: Hurting those we intend to help. In R. H. Wright & N. A. Cummings (Eds.), Destructive trends in mental health: The well-intentioned path to harm (pp. 155–186). New York: Taylor and Francis. Pre-print PDF PDF

  • Gottfredson, L. S. (in press). "Social consequences of group differences in cognitive ability (Consequencias sociais das diferencas de grupo em habilidade cognitiva)". In C. E. Flores-Mendoza & R. Colom (Eds.), ''Introducau a psicologia das diferncas individuais''. Porto Allegre, Brazil: ArtMed Publishers. PDF

  • Gray, J.R., C.F. Chabris, and T.S. Braver, Neural mechanisms of general fluid intelligence. Nat Neurosci, 2003. 6(3): p. 316-22.

  • Gray, J.R. and P.M. Thompson, Neurobiology of intelligence: science and ethics. Nat Rev Neurosci, 2004. 5(6): p. 471-82.

  • 1

  • Harris, J. R. (1998). The nurture assumption : why children turn out the way they do. New York, Free Press.

  • Hunt, E. (2001). Multiple views of multiple intelligence. of Intelligence Reframed: Multiple Intelligences for the 21st Century.

  • Jensen, A.R. (1998). ''The ''g'' Factor.'' Praeger, Connecticut, USA.

  • Jensen, A.R. (2006). "Clocking the Mind: Mental Chronometry and Individual Differences." Elsevier Science. --->Highly anticipated new release scheduled for early June, 2006.

  • McClearn, G. E., Johansson, B., Berg, S., Pedersen, N. L., Ahern, F., Petrill, S. A., & Plomin, R. (1997). Substantial genetic influence on cognitive abilities in twins 80 or more years old. Science, 276, 1560–1563.

  • Murray, Charles (1998). Income Inequality and IQ, AEI Press PDF

  • Noguera, P.A. (2001). Racial politics and the elusive quest for excellence and equity in education. In Motion Magazine article

  • Plomin, R., DeFries, J. C., Craig, I. W., & McGuffin, P. (2003). ''Behavioral genetics in the postgenomic era''. Washington, DC: American Psychological Association.

  • Plomin, R., DeFries, J. C., McClearn, G. E., & McGuffin, P. (2001). ''Behavioral genetics (4th ed.)''. New York: Worth Publishers.

  • Rowe, D. C., W. J. Vesterdal, and J. L. Rodgers, "The Bell Curve Revisited: How Genes and Shared Environment Mediate IQ-SES Associations," University of Arizona, 1997

  • Schoenemann, P.T., M.J. Sheehan, and L.D. Glotzer, Prefrontal white matter volume is disproportionately larger in humans than in other primates. Nat Neurosci, 2005.

  • Shaw P, Greenstein D, Lerch J, Clasen L, Lenroot R, Gogtay N, Evans A, Rapoport J, and Giedd J (2006), "Intellectual ability and cortical development in children and adolescents". Nature 440, 676-679.

  • Tambs K, Sundet JM, Magnus P, Berg K. "Genetic and environmental contributions to the covariance between occupational status, educational attainment, and IQ: a study of twins." Behav Genet. 1989 Mar;19(2):209–22. PMID 2719624.

  • Thompson, P.M., Cannon, T.D., Narr, K.L., Van Erp, T., Poutanen, V.-P., Huttunen, M., Lönnqvist, J., Standertskjöld-Nordenstam, C.-G., Kaprio, J., Khaledy, M., Dail, R., Zoumalan, C.I., Toga, A.W. (2001). "Genetic influences on brain structure." Nature Neuroscience 4, 1253-1258.