--- title: "Tryon's Rat Experiment" description: "Tryon's Rat Experiment is a multi-decade selective breeding animal experiment begin in the 1930s which rapidly bred enormous differences in a complex psychological trait, maze-running, demonstrating core principles of behavior genetics." thumbnail: /doc/genetics/heritable/correlation/1940-tryon-figure4-mazebrightdullrats-distributions.png thumbnailText: "Statistical graph (Figure 4, Tryon 1940): results of selective breeding for rats that run mazes fast and slow show that after a few generations, the populations' running speed are so different that there is almost no longer any overlap—the slowest fast rats are still faster than the fastest slow rats." thumbnailCSS: "outline" created: 2020-01-13 modified: 2020-01-14 status: notes previous: /dune-genetics next: /amuse confidence: highly likely importance: 7 cssExtension: dropcaps-kanzlei ...
> Tryon's Rat Experiment is a multi-decade selective breeding animal experiment in the 1920s--1940s which employed automated maze-running machinery to minimize measurement error and, using truncation selection, bred two different strains of rats: "maze-bright" and "maze-dull" rats, selected for high & low maze-running performance. > > Within a few generations, the rats showed increasing differences in maze-running performance, and the two strains eventually had non-overlapping distributions. Tryon's Rat Experiment rapidly bred enormous differences in a complex psychological trait, demonstrating core principles of behavior genetics: the heritability of even psychological traits far removed from standard examples of genetics like coat color, and the ability of selection produce large population-wide changes in a short time for even highly polygenic traits like maze-running. > > The etiology of the changes in performance were subsequently investigated: the performance changes were not on the _g_-factor of intelligence, but were more maze-running-specific, and have neurological correlates. > > The experiment was widely-cited in psychology and early behavior genetics, and paralleled various later experiments in selection on complex behavioral traits.
# Results ![Figure 4 from [Tryon 1940](/doc/genetics/selection/artificial/1940-tryon-3.pdf "Studies in Individual Differences in Maze Ability, XIII: Genetic Differences in Maze-Learning Ability in Rats") showing near-complete divergence after 7 generations.](/doc/genetics/heritable/correlation/1940-tryon-figure4-mazebrightdullrats-distributions.png) - Davis & Tolman 1924, ["A Note on the Correlations Between Two Mazes"](/doc/psychology/animal/maze/1924-davis.pdf) - Tolman & Jeffress 1925, ["A Self-Recording Maze"](/doc/psychology/animal/maze/1925-tolman.pdf) - Tolman & Nyswander 1927, ["The Reliability and Validity of Maze-Measures for Rats"](/doc/psychology/animal/maze/1927-tolman.pdf) - Tolman 1924, ["The Inheritance of Maze-Learning Ability in Rats"](/doc/genetics/selection/1924-tolman.pdf) - Stone & Nyswander 1927, ["The Reliability of Rat Learning Scores from the Multiple-T Maze as Determined by Four Different Methods"](/doc/psychology/animal/maze/1927-stone.pdf) - Tryon 1930, ["Studies in Individual Differences in Maze Ability, I: The Measurement of the Reliability of Individual Differences"](/doc/psychology/animal/maze/1930-tryon.pdf) - Tryon 1931, ["Studies in Individual Differences in Maze Ability, II: The Determination of Individual Differences by Age, Weight, Sex and Pigmentation"](/doc/psychology/animal/maze/1931-tryon-3.pdf) - Tryon 1931, ["Studies in Individual Differences in Maze Ability, III: The Community of Function Between Two Maze Abilities"](/doc/psychology/animal/maze/1931-tryon.pdf) - Tryon 1931, ["Studies in Individual Differences in Maze Ability, IV: The Constancy of Individual Differences: Correlation between Learning and Relearning"](/doc/psychology/animal/maze/1931-tryon-2.pdf) - Tryon 1931, ["Studies in Individual Differences in Maze Ability, V: Luminosity and Visual Acuity as Systematic Causes of Individual Differences and an Hypothesis of Maze Ability"](/doc/psychology/animal/maze/1931-tryon-4.pdf) - Heron 1933, ["An Automatic Recording Device for Use in Animal Psychology"](/doc/psychology/animal/maze/1933-heron.pdf) - Krechevsky 1933, ["Hereditary Nature of 'Hypotheses'"](/doc/genetics/selection/1933-krechevsky.pdf) - Heron 1935, ["The Inheritance of Maze Learning Ability in Rats"](/doc/genetics/selection/1935-heron.pdf) - Hamilton 1935, ["The Association Between Brain Size and Maze Ability in the White Rat"](/doc/genetics/selection/artificial/1935-hamilton.pdf) - Tryon 1939, ["Studies in Individual Differences in Maze Ability, VI: Disproof of Sensory Components: Experimental Effects of Stimulus Variation"](/doc/psychology/animal/maze/1939-tryon.pdf) - Tryon 1940, ["Studies in Individual Differences in Maze Ability, VII: The Specific Components of Maze Ability and a General Theory of Psychological Components"](/doc/psychology/animal/maze/1940-tryon.pdf) - Tryon 1940, ["Studies in Individual Differences in Maze Ability, VIII: Prediction Validity of the Psychological Components of Maze Ability"](/doc/psychology/animal/maze/1940-tryon-2.pdf) - Tryon 1940, ["Studies in Individual Differences in Maze Ability, XIII: Genetic Differences in Maze-Learning Ability in Rats"](/doc/genetics/selection/artificial/1940-tryon-3.pdf "'Genetic Differences in Maze-Learning Ability in Rats', Tryon 1940c") - Tryon et al 1941, ["Studies in Individual Differences in Maze Ability, IX: Ratings of Hiding, Avoidance, Escape, and Vocalization Responses"](/doc/psychology/animal/maze/1941-tryon.pdf) - Tryon 1941 , ["Studies in Individual Differences in Maze Ability, X: Ratings and Other Measures of Initial Emotional Responses of Rats to Novel Inanimate Objects"](/doc/psychology/animal/maze/1941-tryon-2.pdf) - Heron 1941, ["The Inheritance of Brightness and Dullness in Maze Learning Ability in the Rat"](/doc/genetics/selection/artificial/1941-heron.pdf) - Hall 1951, ["The Genetics of Behavior"](/doc/genetics/selection/1951-hall.pdf) (in [_Handbook of Experimental Psychology_](/doc/psychology/1951-stevens-handbookexperimentalpsychology.pdf), Stevens 1951) - Hirsch & Tryon 1956, ["Mass Screening and Reliable Individual Measurement in the Experimental Behavior Genetics of Lower Organisms"](/doc/genetics/selection/1956-hirsch.pdf) - Cooper & Zubek 1958, ["Effects of Enrich and Restricted Early Environments on the Learning Ability of Bright and Dull Rats"](/doc/genetics/selection/1958-cooper.pdf) - McClearn 1959, ["The Genetics of Mouse Behavior in Novel Situations"](/doc/genetics/heritable/1959-mcclearn.pdf) - McClearn 1962, ["The Inheritance of Behavior"](/doc/genetics/heritable/1962-mcclearn.pdf) - Rosenthal, R, & Fode, K. (1963). ["The effect of experimenter bias on the performance of the albino rat"](/doc/iq/animal/1963-rosenthal.pdf). *Behavioral Science*, 8, 183-189. - [Scott](!W "John Paul Scott (geneticist)") & [Fuller](!W "John L. Fuller") 1965, [_Genetics and the Social Behavior of the Dog_](/doc/genetics/heritable/dog/1965-scott-geneticsandthesocialbehaviorofthedog.pdf "'Genetics and the Social Behavior of the Dog [Dog Behavior: The Genetic Basis]', Scott & Fuller 1965") - Hirsch et al 1967, [_Behavior-Genetic Analysis_](/doc/genetics/selection/1967-hirsch-behaviorgeneticanalysis.pdf) - McClearn 1970, ["Behavioral Genetics"](/doc/genetics/heritable/1970-mcclearn.pdf "‘Behavioral Genetics [Annual Review]’, McClearn 1970") - Wahlsten 1972, ["Genetic experiments with animal learning: A critical review"](/doc/genetics/selection/artificial/1972-wahlsten.pdf). *Behavioral Biology*, 1972, 7, 143-182 - Innis 1992, ["Tolman and Tryon: Early research on the inheritance of the ability to learn"](/doc/genetics/selection/artificial/1992-innis.pdf) # Criticism - Rosenthal, R, & Fode, K. (1963). ["The effect of experimenter bias on the performance of the albino rat"](/doc/iq/animal/1963-rosenthal.pdf). *Behavioral Science*, 8, 183-189. - [_Experimenter Effects In Behavioral Research_](/doc/statistics/bias/1976-rosenthal-experimenterexpectancyeffects.pdf "'Experimenter Effects in Behavioral Research: Enlarged Edition', Rosenthal 1976"), Rosenthal 1976 ([review](/review/book#experimenter-effects-in-behavioral-research-rosenthal-1976 "'Book Reviews § Experimenter Effects In Behavioral Research, Rosenthal 1976', Branwen 2013")) Rosenthal & Fode 1963 tested the ability of expectancy effects to create 'maze-bright'-like differences in rats; undergraduate students were told random rats were maze-bright or dull, and there were subsequent small differences which were just barely statistically-significant. While they do not explicitly cite Tolman or Tryon, they use maze-running as the task and the term 'maze-bright', and approvingly quote Pavlov about how supposed genetic effects may in fact be solely environmental. Given how well-known Tryon was, the specific term, and Rosenthal's broader research paradigm which is purely environmental and his claims to make enormous changes in highly heritable traits by simple expectancy effects like the (debunked) [Pygmalion effect](/replication#pygmalion-effect), Rosenthal & Fode 1963 has been interpreted as implying that Tryon's rats were not genetically modified and possibly the observed differences were merely Tryon et al's expectancy effects---maze-brightness becomes a self-fulfilling prophecy.^[Ironically, Rosenthal would later invoke his animal results as increasing the prior plausibility of the Pygmalion effect: "If animals become 'brighter' when expected to by their experimenters, then it seemed reasonable to think that children might become brighter when expected to by their teachers." (Rosenthal & Jacobson 1968) But [one man's modus ponens is another man's modus tollens](/modus "'One Man’s Modus Ponens', Branwen 2012")...] This is false for many reasons: #. **_p_-Hacking**: Rosenthal & Fode 1963 is highly dubious to begin with: the _p_-values are all one-tailed (despite Rosenthal's other experiments supposedly showing that expectancy effects are complex & their directions difficult to predict, making one-tailed unjustified except to make the _p_-values much smaller^[This casual use of one-tailed tests when convenient shows up in Pygmalion effect research as well, despite unexpected results.]), and despite that, still generally only just _p_ < 0.05 (a classic indicator of a result that will fall prey to the [Replication Crisis](/replication "'The Replication Crisis: Flaws in Mainstream Science', Branwen 2010")). Other results of Rosenthal like the Pygmalion effect have signally failed to replicate, and there do not appear to be any replications of Rosenthal & Fode 1963. #. **Too Small Effect**: The expectancy effect is far smaller than the genetic effect observed within a few generations, much less the final generation. The genetic effects of selection can easily accumulate; the supposed environmental effect would not. #. **Irrelevant to Automated Experiments**: The mechanism of bias as proposed is impossible---Tolman & Tryon invested great efforts into automated maze-running machinery precisely to make the measurements as accurate & unbiased as possible. Undergraduate students could not have biased the maze-running measurements by handling the rats during testing because there were no humans involved during testing! (Rosenthal does not mention this in either version.)