Take the 2-minute tour ×
Cognitive Sciences Stack Exchange is a question and answer site for practitioners, researchers, and students in cognitive science, psychology, neuroscience, and psychiatry. It's 100% free, no registration required.

despite the obvious difficulties of definition and measurement, and the various controversies surrounding the use of IQ-type scores in human beings, it seems unquestionable that there are significant intraspecies individual differences in some general component of learning ability. have any such measures in fact been defined and investigated for any non-human species?

share|improve this question
add comment

2 Answers

up vote 5 down vote accepted

Like any simple-seeming cognitive sciences question, it is important to start with a series of disclaimers. It might seem like human intelligence or intelligence more generally is an intuitive concept, but once you start to explore your intuition or look at historic definitions of intelligence, you see that intelligence is a very ill-defined and slippery concept. You could, of course, take the behaviorist view, and define intelligence as performance on IQ-tests, and then your question has a simple answer: no, we can't measure that in most animals.

Alternatively, you might try to look at general behaviors that you usually associate with intelligence, then you can often come up with tests for animals. However, this might challenge some of your preconceptions. I want to provide two example tests (but many many more exist) to illustrate my point.

When we usually think of 'intelligence' we are eager to associate things like behavioral flexibility and innovation with it. Both of these can be tested.

Serial discrimination reversal learning

Serial discrimination reversal learning is a relatively standard procedure for studying animal cognition. The first reference I can find to this specific methodology is from 1966 in the sea lion (Schusterman, 1966), but the basic ideas of using similar tests in animals was already common practice before WW2 (Spence, 1936).

The task is usually given in the form of a choice between two actions (say pushing a button). At first whenever the animal clicks the left button, it is given a treat, and nothing for the right button. This training phase is continued until the animal learns that left button gives food. At this point, the reversal phase is enacted, and suddenly the left button stops giving food, and the right button does, and the animal is trained to associate the right button with food.

These learning, reversal, learning cycles are repeated several times and the rate of change from one button to the other after reversal, and consistency of picking the correct button during learning are tracked to give a measure of the animals behavioral flexibility. There is great inter-species variation on this, but also a lot of intra-species variation.

Innovation tasks

Innovation tasks are popular in the context of social learning, where the animal (and the species) has to balance between innovating and copying behavior (Reader & Laland, 2003). The classic example of this is English greats tits learning to break the foil caps of home-delivered milk bottles to eat the cream at the top (Hawkins, 1950).

An example I want to highlight is from Griffin et al. (2013), where myna birds where tested with a novel extractive foraging task. In this task, birds faced difficult foraging tasks like having to pull out a piece of paper from a champagne flute before getting food, or by having to open a dish with a lid that could only be lifted by a hook in the middle and not from the side. Birds show great interspecies and intraspecies diversity on these sort of innovation tasks.

Challenging preconceptions

Naively, one might expect both reversal learning and innovation to be important components of intelligence, and 'smarter' animals to do better on both. This intuition would be well supported if you looked at the inter-species level, you would find an increase in innovation and behavioral flexibility with relative brain size. However, at the intra-species level, Griffin et al. (2013) show that this is not necessarily the case. Among myna birds, those that do better on the innovation task, tend to perform worse on the reversal learning, and those that do worse on the innovation task, tend to perform better on the reversal learning. This means that if you are looking for variation within a species, then you have to be careful with your tests. Two tests that both correspond to an intuitive notion of "intelligence" in humans, might in fact correspond to opposite ends of the spectrum in the non-human animal.

References

Griffin, A. S., Guez, D., Lermite, F., & Patience, M. (2013). Tracking Changing Environments: Innovators Are Fast, but Not Flexible Learners. PloS One, 8(12), e84907.

Hawkins, T. (1950). Opening of Milk Bottles By Birds. Nature 165(4194): 435–436.

Lefebvre, L. (2011). Taxonomic counts of cognition in the wild. Biol. Lett. 7: 631–633.

Reader, S.M. & Laland, K.N. (2003). Animal Innovation. Oxford: Oxford University Press.

Schusterman, R.J. (1966) Serial discrimination-reversal learning with and without errors by the California sea lion. J. Exp. Anal. Behav. 9: 593–600.

Spence, K. W. (1936). The nature of discrimination learning in animals. Psych. Rev,, 43(5): 427.

share|improve this answer
    
if you can't comfortably define intelligence you shouldn't answer questions about intelligence. moreover links to your own blog posts are not valid sources of scientific information. –  caseyr547 Jan 21 at 1:21
2  
I don't think anyone should be "comfortable" defining intelligence anymore. The word is so loaded with connotations from obsolete theory and common usage that trying to define it is like walking into a minefield. If you can get where you're headed by going around the minefield (i.e., if the points you want to make about intelligence don't require complete specificity about what kind of "intelligence" is in question), I wouldn't fault you for that. Note your own answer didn't even touch the minefield; you just linked to it! Wise move...but Wikipedia isn't much better than blogs with references! –  Nick Stauner Jan 21 at 8:09
add comment

Animal cognition and Plant Intelligence are active areas of research in the psychology of intelligence. Comparing abilities of memory, numerical concepts and language are possible but no standard IQ test has been developed at this time. Its difficult because every test must be crafted considering the abilities and psychology of the individual species. Comparisons made inside a species are easy but those between species are difficult. Many types of animals are less generalized thinking machines (designed specifically for a series of tasks).

This history of animal cognition is controversial as it includes malformed examples of intelligence like Clever Hans. Hans was a horse who learned to watch for ques from his owners in order to tap a certain amount of times. It gave the appearance of intelligence.

share|improve this answer
    
"Many types of animals are less generalized thinking machines." what does that mean? –  Artem Kaznatcheev Jan 18 at 23:07
1  
@ArtemKaznatcheev many are programmed for a specific task like calculators instead of personal computers. In ai such are called weak compared to strong (or generalized) ai. –  caseyr547 Jan 18 at 23:38
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.