Empirical Treasure, Lost and Found

1. Empirical Treasure, Lost and Found Linda S. Gottfredson University of Delaware, USA International Society for Intelligence Research Melbourne, Australia December 12, 2013

2. Imagine

3. …that someone told you this. “If all 13-year-olds took the same 15-minute test (WASI), I could give you each child’s odds for all these adult outcomes without knowing anything else about them.” • Drops out of high school, • Holds mostly unskilled jobs, skilled jobs vs. professional jobs • Performs those jobs well • Lives in poverty AND • Can find a particular intersection on a map, or grams of carbohydrate per serving on a food label • Adheres to a medical treatment regimen for diabetes or other chronic illness • Dies prematurely Miraculous? Would you bet against this odds-maker? Don’t!

4. Actual landscape of odds, by outcome and IQ* Sample Odds (yes/no) 50:50 Outcomes Ability level * Source of data: Gottfredson, 1997, p.118 (young adults) and p.116 (all adults)

5. Now imagine

6. …that this person also claims that: “With just one more piece of information, I can tell you how to improve the worst odds—without changing IQ and without leveling social resources. AND It would save thousands if not millions of lives, and millions if not billions of health care dollars.” Yes, and g is the key! Miraculous? Credible??

7. Lost treasure of g—a personal account Chronology • Today—g 30 years after rediscovery • Yesterday—Dark Ages before rediscovery • Tomorrow—Vast opportunities ahead Unexpected lessons • Complexity of everyday life • Power of “inconsequential” effects A story to remember

8. g: 30 Years of Discovery

9. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

10. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

11. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

12. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

13. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

14. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

15. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

16. g rediscovered (See notes for slide) Traits g Brain Performance Life outcomes Genes Social structure Evolution

17. g rediscovered Traits g Brain Performance Life outcomes Genes Social structure Evolution

18. g rediscovered Traits g Brain Performance Life outcomes Genes Social structure Evolution

19. g rediscovered Traits g Brain Performance Life outcomes Genes Social structure Evolution

20. g rediscovered Traits g Brain Performance Life outcomes Genes Social structure Evolution

21. g rediscovered Traits g Brain Performance Life outcomes Genes Social structure Evolution

22. g rediscovered Traits g Brain Performance Nomological network Life outcomes Genes Social structure Evolution

23. Human variation in g: Extraordinary phenomenon • Recurring • Species-wide • General-use capacity • Shapes human institutions • Drives its own evolution g

24. Dark Ages Before Rediscovery

25. g lost by 1970s Traits IQ X Brain Performance when I entered grad school X Life outcomes Genes X Social structure Evolution

26. My 30 years, pre-PhD • Themes • Explore, collect & classify • Chase puzzles • Feet on the ground • Man from Mars Penang Malaysia 1947 1977

27. 1970s • Sociology • Difference= inequality • Inequality is neither natural nor moral Social inequality Life outcomes Social structure Social class hierarchy

28. 1970s Social privilege is… Social inequality …socially reproduced Social class hierarchy

29. 1970s Social privilege is… Performance …socially inherited Social inequality …socially reproduced Social class hierarchy

30. 1970s Social privilege is… Manufactured differences aspirations IQ Performance …disguised as “merit” …socially inherited “everyone can do any job” “doctors should work up from orderly” Social inequality …socially reproduced Social class hierarchy

31. Sound eerily familiar? In USA: • Law—“No Child Left Behind” • Too-good-to-be-true science—“several weeks of N-back training raised intelligence”

32. Needed: Shift in Focus Knowing g by what brings it forth— task complexity

33. My alternative explanation:*Higher intelligence has functional value Required me to study attributes of jobs and tasks, not just people. Specifically-- What in a job requires the exercise of g? What makes some more “g loaded” than others? *Alternative to social privilege theory

34. Key finding #1: Occupational hierarchy is cognitive • Same worldwide • Mean worker IQs track jobs’ cognitive complexity • Job complexity hierarchy evolved as work tasks clustered (into occupations) by g loading to fit human variation in g

35. Key finding #2: “Judgment & Reasoning Factor” among jobs* Complexity factor among jobs is mirrorimage of gfactor among people Workers must:

36. Traits So, g loading is the flip side of g g + Performance g loadings Tasks Life outcomes Social structure

37. Key finding #3: The Complexity Dynamic • Tasks that are more complex • put a bigger premium on learning-reasoning ability • lead to bigger differences in task performance A B Gaps A B More complex task Gains A B Performance level

38. But how could a general intelligence ever evolve? What adaptive challenges could possibly have been so general, so non-specific, to evolve such a content-free, domain-general ability??

39. Key finding #4: Power of cumulating “inconsequential” effects Traits g Brain Performance Tasks Life outcomes Genes innovation New hazards Social structure Evolution

40. Key finding #5: Life’s complexity turns the wheel of g Traits g Brain Performance Task complexity Life outcomes Genes Social structure Evolution

41. Complexity of everyday life, today

42. Typical life outcomes along IQ continuum

43. Landscape of cognitive error on everyday tasks* Recall this Sample Odds (yes/no) 50:50 Outcomes Ability level * Source of data: Gottfredson, 1997, p.118 (young adults) and p.116 (all adults)

44. Examples of everyday tasks* Level 1 Level 2 Level 5 Your child is 11 years old and weighs 85 pounds. How many 80 mg tablets can you give in 24-hr period? Level 4 Level 3 *Items on 1993 National Adult Literacy Survey (NALS)

45. Landscape of cognitive error on everyday tasks* Error rate (%) Difficulty level (sample literacy tasks) Interpret brief phrase in long article Calculate discount on bill paid early Write letter explaining error in bill Total the costs on order form Find meeting time on form 2 3 4 5 *Source of data: National Adult Literacy Survey (NALS), ages 16-65., Kirsch et al. (1993)

46. Landscape of cognitive error on everyday tasks* Error rate (%) Cognitive risk Cognitive burden 2 3 4 5 % of adults: 23% 28% 15% 31% 3% % of adults ages 60+: 47% 33% 4% 16% ~0% Cognitive resources *Source of data: National Adult Literacy Survey (NALS), ages 16-65., Kirsch et al. (1993)

47. Opportunities—An Example

48. Current (g-blind) “solutions” to challenges in health care • Political: race-class disparities in health • Equalize access to care [it actually increases disparities] • Teach health providers to be more culturally sensitive • Redistribute wealth to keep social disadvantage from “getting under the skin” • Practical: patient non-adherence to treatment • Give patients more information “Déjà vu all over again”

49. Current projectIncrease cognitive accessibility of DSM* • Analyze the “job” of diabetes • Focus on most critical tasks • Target instruction to ability level • Feedback & follow-up *DSM = diabetes self-management

50. Human face of diabetes self-management