Herbert S. Terrace

Herbert S. Terrace (born 29 November 1936) is a Professor of Psychology and Psychiatry at Columbia University. His work covers a broad set of research interests that include behaviorism,[1] animal cognition,[2] ape language[3] and the evolution of language.[4] He is the author of Nim (1979) and Why Chimpanzees Can't Learn Language and Only Humans Can (2019). Terrace has made important contributions to comparative psychology, many of which have important implications for human psychology. These include discrimination learning,[5] ape language,[6] the evolution of language,[7] and animal cognition.[8]

Herbert S. Terrace

Background

Early life

Terrace was born and raised in Brooklyn as the youngest child of two Polish immigrants. He attended Stuyvesant High School in New York. His interest in science was instilled by an older sister, Dr. Dorothy Krieger, who won a Lasker Award for her research in endocrinology.

Education

Terrace obtained a Bachelor of Arts in Psychology (1957) and a Master of Arts in Experimental Psychology (1958) from Cornell University, where he was a Josiah Macy, Jr. Foundation Fellow (1957–1958). His mentor during graduate studies was Julian Hochberg. He obtained his PhD in Psychology (1961) from Harvard University, where his mentor was B. F. Skinner.[9] At Harvard, he was a USPHS Pre-Doctoral Fellow (1959–1961)[10]

Contributions to psychological theory

Discrimination Learning

Learning by trial and error is a basic feature of conditioning theory.[1] For his doctoral dissertation, Terrace showed that it was possible to train a discrimination without any errors.[5][11] He did this with pigeons who learned to discriminate two narrowly spaced stimuli by starting with a large distance between the discriminative stimuli that was gradually reduced. When a discrimination is trained with errors, subjects exhibit frustration. Such aversive effects are absent when a discrimination is trained without errors.[12][13] Skinner cited a similar difference in the case of the teaching machine, a device he invented to train human subjects to learn different types of technical material. The teaching machine introduces a new topic with simple questions that are gradually made more difficult.[14] Subjects who learn with few or no errors do not exhibit the frustration they would have experienced had they learned by trial and error.[13]

Ape Language and The Evolution of Language

Terrace joined other leading behaviorists challenging Noam Chomsky's theory that only humans can learn language and grammar. With Project Nim, he attempted to teach a chimpanzee (Nim Chimpsky),[3][6] to learn American Sign Language (ASL). Sign language was used because of the physical limitations of a chimpanzee's vocal apparatus. Nim’s vocabulary grew steadily and he began to combine signs. However, analyses of videotapes of Nim signing with his teachers showed that most of his signs were cued by a teacher’s prompts.[6]

Terrace concluded that the only reason Nim (and other chimpanzees) signed was to obtain rewards.[6][15] Were it not for his teacher, Nim would try to grab a reward directly. When that failed, Nim's only alternative was to sign. Anticipating his signing, Nim's teachers unwittingly made one or more appropriate signs, about a quarter of a second before he signed. Terrace also showed that prompting explained the signing of other chimpanzees who were trained to use ASL.[6]

Because chimpanzees only signed to obtain rewards, their signing was, by definition, limited to the imperative function of words. That differs fundamentally from its declarative function, which is to name objects conversationally. Imperatives are a miniscule portion of human vocabulary. If human communication were limited to imperatives, language would have never evolved.[4] Initially, Terrace hoped that combinations of a chimpanzee’s signs would provide evidence that it could create a sentence. What Project Nim showed, however, is that a chimpanzee canot even use signs declaratively. Until a chimpanzee can learn words, he concluded that it’s pointless to ask if it can create a sentence.[3][4][16]

The negative results of Project Nim posed two questions: why cannot a chimpanzee learn language, words in particular, and which of our ancestors was the first species to use words? To answer the first question, Terrace cited recent discoveries by developmental psychologists who showed that, infants experience two non-verbal relations with their caretakers, intersubjectivity and joint attention before they learn to name objects.[4][16] He argued that the absence of those precursors in chimpanzees is the best explanation for their failure to learn words.[4]

To answer the second question, Terrace integrated hypotheses by an anthropologist[17] and a linguist[18] who suggested that the caloric requirements of Homo erectus’ large brain was the motivation for their invention of words. Meat was the most efficient way to get those calories. Because Homo erectus could not hunt, they had to scavenge large animals. That required a group effort, in which a scout had to inform members of his group about the location of a dead animal they could not see. Because it required displaced reference, such communication was assumed to be the occasion for the first use words.[4]

Although Project Nim confirmed Chomsky’s view that language is uniquely human, it showed that the use of grammar was not sufficient to distinguish language from animal communication.[4] The use of words, specifically, the ability to name objects, was also necessary. Chomsky argued that grammar was the result of a recent mutation[19] and that the origin of words remained a mystery.[7] Terrace argued that language originated with words, which are as different from the signals that animals use to communicate as words are from grammar.[4] Unlike Chomsky, who argued that language was the result of a mutation, Terrace argued that words could be explained by natural selection.[4]

Animal Cognition

Although chimpanzees cannot learn language, there is evidence that their behavior, and that of other animals, is more intelligent than behavior that could result from conditioning.[8] Since Descartes, it has been generally accepted that animals cannot think because they do not have language.[20] To explain intelligent behavior in animals without language and without the principles of conditioning, Terrace argued that it is necessary to show that they can represent objects, that is, solve a problem in the absence of external cues that can guide their behavior.[2]

Serial Learning

The simultaneous training paradigm differs from the traditional successive training paradigm in which subjects execute a sequence by responding to individual stimuli, which appear successively as, for example, learning which way to turn at successive choice points in a maze.[21]

When learning a sequence by the simultaneous training paradigm, monkeys were shown an array of photographs on a touch-sensitive video display. On each trial, the position of the photographs varied randomly. As a result, subjects could not rely on its physical location as an external cue for determining to which photograph it should respond first, second, and so on. Instead, they had to memorize the order of each photograph.[21][22]

Because the simultaneous training paradigm requires the subject to represent each item’s ordinal position, it provides an opportunity to study animal cognition. In the early 80s, Terrace helped organize an international conference on animal cognition at Columbia University that discussed the simultaneous training paradigm and other instances in which animals are able to represent stimuli.[8][2] Since then, animal cognition has become a dominant area in comparative cognition.

In 1985, Terrace began a primate cognition laboratory in which he studied how monkeys use representations in various serial learning tasks, for example, to respond in the correct order to ascending and descending series of numerically defined stimuli,[23] to acquire serial expertise [the ability to become progressively better at learning arbitrary sequences][24] and to imitate another monkey’s sequential performance.[25]

Metacognition

Terrace also studied a monkey's ability to think about its own behavior, that is, its ability to engage in metacognition. In humans, metacognition is assessed by asking subjects how certain they are about their knowledge of a particular topic, for example, how well they did on an exam. To assess metacognition in monkeys, Terrace devised a task in which the monkeys had to place a “bet” that was commensurate with their confidence in the accuracy of a response on a cognitive task.[26] Following each response, monkeys learned to select a “high confidence” symbol if their response was correct and a “low confidence” symbol after an error. They did so correctly even when the appearance of the confidence symbols was delayed for as much as 5 sec after a trial ended. This was the first demonstration that a monkey could think about its behavior.

Honors and awards

Grants

Since 1962, Terrace's research has been funded by grants from the NIH, NSF and the James McDonnell Foundation.

gollark: So you won't mind if I deploy lethal cognitohazards‽
gollark: DKIM just has mail servers sign your mail I think.
gollark: ++remind 3y Additionally, fear the Nyquist-Shannon sampling theorem.
gollark: ++remind 3y By the way: did we finally get consumer AR glasses, working self-driving cars, PHONES WITH KEYBOARDS ÆÆÆ, etc?
gollark: ++remind 3y Otherwise I will dispatch bees proactively. I don't even need retroactive deployment, since this is the past.

References

  1. Terrace, H. S. (1966). Stimulus Control. New York: Appleton-Century-Crofts. pp. 271–344.
  2. Roitblat, H. L.; Bever, T.G.; Terrace, H.S. (1984). Animal cognition: Proceedings of the Harry Frank Guggenheim Conference. Hillsdale, New Jersey: 'Lawrence Erlbaum Associates.
  3. Terrace, H. S. (1979). Nim. New York, New York: 'A. Knopf.
  4. Terrace, H. S. (2019). Why Chimpanzees Can't Learn Language and Only Humans Can. New York, New York: 'Columbia University Press.
  5. Terrace, H. S. (1963a). "Discrimination learning with and without errors". Journal of Experimental Analysis of Behavior. 6: 1–27. doi:10.1901/jeab.1963.6-1. PMC 1404228. PMID 13980667.
  6. Terrace, H. S.; Petitto, L.A.; Sanders, R.J.; Bever, T.G. (1979). "Can an ape create a sentence?". Science. 206 (4421): 891–902. Bibcode:1979Sci...206..891T. doi:10.1126/science.504995. PMID 504995.
  7. Studdert-Kennedy, M.; Terrace, H. S. (2017). "In the beginning: A review of Robert C. Berwick and Noam Chomsky's Why Only Us". Journal of Language Evolution. 2 (2): 114–125. doi:10.1093/jole/lzx005. PMC 6715309. PMID 31467686.
  8. Terrace, H. S. (1984). Roitblat, H. L.; Bever, T. G.; Terrace, H. S. (eds.). Animal Cognition. Hillsdale, NJ: Lawrence Erlbaum Associates. pp. 7–28.
  9. "Herbert S. Terrace Ph.D".
  10. Terrace, H. S. (April 1963). "Errorless Transfer of a Discrimination Across Two Continua". Journal of the Experimental Analysis of Behavior. 6 (2): 223–232. doi:10.1901/jeab.1963.6-223. PMC 1404283. PMID 13980669.
  11. Terrace, H. S. (1963). "Errorless transfer of a discrimination across two continua". Journal of Experimental Analysis of Behavior. 6 (2): 223–232. doi:10.1901/jeab.1963.6-223. PMC 1404283. PMID 13980669.
  12. Terrace, H. S. (1966). "Discrimination learning and inhibition". Science. 154 (3757): 1677–1680. Bibcode:1966Sci...154.1677T. doi:10.1126/science.154.3757.1677. PMID 5924203.
  13. Terrace, H. S. (1968). "Discrimination learning, the peak shift, and behavioral contrast". Journal of the Experimental Analysis of Behavior. 11 (6): 727–741. doi:10.1901/jeab.1968.11-727. PMC 1338626. PMID 16811320.
  14. Skinner, B. F. (1961). "Teaching Machines". Scientific American. 205 (5): 90–107. Bibcode:1961SciAm.205e..90S. doi:10.1038/scientificamerican1161-90.
  15. Terrace, H. S. (1985). "In the beginning was the name". American Psychologist. 40 (9): 1011–1028. doi:10.1037/0003-066X.40.9.1011.
  16. Terrace, H. S. (2013). "Becoming Human: Why two minds are better than one". In Metcalfe, Janet; Terrace, Herbert (eds.). Agency and joint attention. New York: Oxford University Press. pp. 11–48.
  17. Hardy, S. B. (2009). Mothers and Others: The Evolutionary Origins of Mutual Understanding. Cambridge, MA: Belknap Press of Harvard University Press.
  18. Bickerton, D. (2014). More Than Nature Needs: Language, Mind, and Evolution. Cambridge, MA: Harvard University Press.
  19. Berwick, R. C.; Chomsky, N. (2016). Why only us. Cambridge, MA: MIT Press.
  20. Terrace, H. S. (1985). "Animal cognition: Thinking without language". Philosophical Transactions of Royal Society London B. 308 (1135): 113–128. Bibcode:1985RSPTB.308..113T. doi:10.1098/rstb.1985.0014.
  21. Terrace, H. S. (1984a). "Simultaneous chaining: The problem it poses for traditional chaining theory". In Commons, M. L.; Herrnstein, R.; Wagner, A. (eds.). Quantitative Analyses of Behavior: Discrimination Processes. Cambridge, MA: Ballinger Publishing Co. pp. 115–138.
  22. Terrace, H. S. (2005). "The simultaneous chain: A new approach to serial learning". Trends in Cognitive Sciences. 9 (4): 202–210. doi:10.1016/j.tics.2005.02.003. PMID 15808503.
  23. Brannon, E.; Terrace, H. S. (1998). "Ordering of the numerosities 1-9 by monkeys". Science. 282 (5389): 746–749. Bibcode:1998Sci...282..746B. doi:10.1126/science.282.5389.746. PMID 9784133.
  24. Terrace, H. S.; Son, L. K.; Brannon, E. (2003). "Serial expertise of rhesus macaques". Psychological Sciences. 14 (1): 66–73. doi:10.1111/1467-9280.01420. PMID 12564756.
  25. Subiaul, F.; Cantlon, J. F.; Holloway, R. L.; Terrace, H. S. (2004). "Cognitive imitation in rhesus macaques". Science. 305 (5682): 407–410. Bibcode:2004Sci...305..407S. doi:10.1126/science.1099136. PMID 15256673.
  26. Kornell, N.; Son, L. K.; Terrace, H. S. (2007). "Transfer of metacognitive skills and hint seeking in monkeys". Psychological Science. 18 (1): 64–71. doi:10.1111/j.1467-9280.2007.01850.x. PMID 17362380.
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