Question 1:
When conducting laboratory studies on animal learning, what sorts of precautions should you take to ensure that your interpretations of the role of learning in animal system are accurate? If you were not studying learning, why should you remain cognizant of the learning abilities of your study organism?
Question 2:
Under what parental investment conditions should females and males have equal ability to learn? When should females exhibit greater learning abilities than males? When should males exhibit greater learning abilities than females?
Question 3:
Read the paper by Kotrschal and colleagues (2013), “Artificial Selection on Relative Brain Size in the Guppy Reveals Costs and Benefits of Evolving a Larger Brain” (Current Biology, 23, 1- 4). Describe the artificial selection procedure and the major behavioral and morphological differences between the small-brained and large-brained guppy lines. How do these data relate to the “expensive-tissue hypothesis”? Expand upon why it is important to consider functional trade-offs when studying the evolution of learning.
Kotrschal A, Rogell B, Bundsen A, Svensson B, Zajitschek S, Brannstrom I, Immler S, Maklakov AA, Kolm N. 2013. Artificial Selection on Relative Brain Size in the Guppy Reveals Costs and Benefits of Evolving a Larger Brain. Current Biology 23:1-4.
Kotrschal – artificial selection on guppy brain size – Curr Bio 2013.pdf (100.56 KB)
Question 4:
What types of environments would be conducive to natural selection favoring the ability to learn? Support your answers from peer-reviewed literature.
Question 5:
Don’t like any of these questions? Ask your own.
Question 6:
Suppose I run an experiment in which I take a bird (the observer) and let it view another bird (the demonstrator) opening a sealed cup by pecking at a circle on the cover of the cup. I then test the observer and see that it now opens the cup by pecking at the circle. What can I infer about social learning here? What other critical treatment is missing from this experiment?