1. 1.1 The monogamous prairie vole
versus
Polygynous
(all others --
ex. meadow vole)
WHY?
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

2. 1.2 The brain of the prairie vole is a complex, highly organized machine
Vasopressin - large number of receptors (V1a) in Ventral pallium - (emotion and memory)
Copulation --> some brain areas release large amounts of vasopressin --> binds to pallium vasopressin receptors --> rewards animal
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

3. Meadow voles!!! Gene in two different brain areas
1.7 Testing the hypothesis that monogamy in prairie voles is linked to a specific gene
Meadow voles!!! Gene in two different brain areas
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg
Meadow voles!!! Gene in two different brain areas

4. 1.3 A gene that affects male pairing behavior in the prairie vole
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg
Encoded by a specific gene V1aR

5. Box 1.1 How are phylogenetic trees constructed and what do they mean?
C:\Figures\Chapter01\high-res\Alcock8e-Box jpg

6. 1.4 The evolutionary relationships of the prairie vole and six of its relatives
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

7. 1.5 The possible history behind monogamy in the prairie vole
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

8. Specific genes that up-regulate hormones? Up-regulation of receptors?
Which is correct?
Brain physiology?
Specific genes that up-regulate hormones?
Up-regulation of receptors?
Reproductive benefits by guarding females?

9. All answers could be correct BUT Levels of analysis very important
mutant gene
changes behavior
male remains with female and prevents her from mating with other males leads to greater reproductive success and survival (less infanticide)
genetic makeup changed
Example. Gene for vasopressin receptor protein increases

10. 1.6 The connection between evolutionary history and the mechanisms of behavior
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

11. C:\Figures\Chapter01\high-res\Alcock8e-Table jpg

12. The great behavioral biologist Niko Tinbergen said that there were four main questions for behavioral researchers
How does the behavior promote an animal’s ability to survive and reproduce?
How does an animal use its sensory and motor abilities to activate and modify its behavior patterns?
How does an animal’s behavior change during its growth, especially in response to the experiences that it has while maturing?
How does an animal’s behavior compare with that of other closely related species, and what does this tell us about the origins of its behavior and the changes that have occurred during the history of the species?

13. Question 1 deals with issues of adaptive value (ultimate/evolutionary);
Question 2 focuses on the physiological level of analysis (proximate/immediate);
Question 3 has to do with developmental causes of behavior (proximate/immediate), while
Question 4 deals with the historical origins and modification of behavior (ultimate/evolutionary).
Although ultimate sounds more important than proximate, both levels of analysis are essential for a complete understanding of behavior; ultimate analyses complement proximate ones, and vice versa; a total understanding of the ultimate causes of behavior would still leave a huge explanatory gap that could only be filled by information on the immediate causes of behavior.

14. Proximate Causes explain how a
behavior is elicited and coordinated –
What are the anatomical & physiological
mechanisms underlying the behavior?
Search for physiological mechanisms
Environmental conditions needed
Hormones and Behavior
Behavioral Genetics

15. Survival Value - Ultimate Causes explain why a behavior has evolved INTO ITS PRESENT FORM–
Why is the behavior used? How does it help the animal survive and reproduce?
Search for functional significance
Evolutionary history, adaptiveness of behavior
Danger!!! Don’t assume all mechanisms are adaptive –
Need to be tested carefully!!
Tinbergen’s gull experiments. Tinbergen observed that ground breeding gulls removed the empty egg shells from the nest right after hatching while a closely related species, which breeds in inaccessible rocky outcrops, does not.

16. Law of Parsimony – foundation of animal behavior
“In no case should we interpret an action as the outcome of the exercise of a higher psychical faculty if it can be interpreted as the outcome of the exercise of one which stands lower in the psychological scale”
Must seek out the simplest explanation of the observed facts. Reduce complex hypotheses to the simplest terms to facilitate the clearest understanding of the mechanisms that control behavior.

17. Why do gulls remove eggshells from the nest immediately after the chick hatches?

18. Tinbergen phrased it and said it better:
What might be the adaptive value of egg shell removal?
Adaptive value ===== Survival value

19. Removing the eggshells should reduce predation risk.
Gull egg removal
Tinbergen hypothesized that broken eggshells draw attention to the nest and attract predators.
Removing the eggshells should reduce predation risk.

20. Place broken eggshells at different distances from intact gull eggs.
Experiment
Place broken eggshells at different distances from intact gull eggs.
Does presence of egg shells affect chance of intact eggs being found?

21. Yes!
Distance from Pct eggs eaten
eggshell to egg
15 cm 42%
100 cm 32%
200 cm 21%

22. Gull egg removal
Conclude that Black-headed gulls remove egg shells because this behavior reduces egg losses to predators (and ultimately increase the bird’s reproductive success).

23. How did egg removing behavior evolve?
Genetic mutation made a gull more likely to remove egg shells from its nest.
This gull had higher reproductive success than others in population, so gene became more common and ultimately became fixed in the population as alternative genes became extinct.
This is the process of natural selection.

24. Evolution - Units of selection
"In 1859 I obtained a very fertile descendant with large, tasty seeds from a first generation hybrid. Since in the following year, its progeny retained the desirable characteristics and were uniform, the variety was cultivated in our vegetable garden, and many plants were raised every year up to 1865" -- Gregor Mendel in a letter to Carl Nägeli,1867
Evolution is a process by which the characteristics of living organisms change over many generations as traits are passed from one generation to the next. It attempts to explain how living things first appeared on earth and how they have since diversified and changed. It involves change of gene frequency within populations, which ultimately result in behavioral and phenotypic changes.
Natural Selection is the mechanism that leads to changes in gene frequency (think selfish gene) or a (box of genes)

25. It will be universally admitted that instincts are as important as corporeal structures for the welfare of each species, under its present conditions of life. Under changed conditions of life, it is at least possible that slight modifications of instinct might be profitable to a species, and if it can be shown that instincts do vary ever so little, then I can see no difficulty in Natural Selection preserving and continually accumulating variations in instinct to any extent that may be profitable. It is thus, I believe, that all the most complex and wonderful instincts have originated.
C. Darwin, 1859, The Origin of the Species

26. "It takes a very long period of observing to become really familiar with an animal and to attain a deeper understanding of its behaviour; and without love for the animal itself, no observer, however patient, could ever look at it long enough to make valuable observations on its behaviour" -- Konrad Z. Lorenz

27. Example: When a female baboon copulates, she vocalizes loudly, but her cries are longer and louder if her partner happens to be a high-ranking “alpha” male. A primate researcher has suggested that females cry out more vigorously when copulating with top males because this warns low-ranking baboons to stay clear. (Subordinate males sometimes harass mating pairs to such an extent that the copulation ends prematurely, but if that happens, they may be attacked by the dominant male whose mating has been so rudely interrupted.) The same researcher also says, however, that the more vigorous cries may simply reflect the fact that females are more strongly stimulated by the larger, more energetic, alpha males. Are the two explanations really in competition with each other? Explain why they could both be right and how they could be shown to be complementary.

28. What we have here is a dispute based on thinking that proximate and ultimate explanations are in competition when in fact they are complementary. The proximate cause of the female’s loud calls could be related to the nature of stimulation provided by a dominant male; the adaptive consequence of giving those calls in response to that stimulation could be a reduction in interference from subordinate harassers (leading to greater reproductive success)

29. 1.4 Imagine that it would be possible to inject prairie voles with a chemical that tied up the V1-a receptors in the ventral pallium. If that experiment were done, what outcome would result in the rejection of the vasopressin receptor hypothesis for monogamy in the prairie vole? Which is better, a tested hypothesis that is rejected, or a tested hypothesis that is accepted?

30. The vasopressin receptor hypothesis yields the prediction that if these receptors were blocked, then the intense social bonding that normally occurs between males and their sexual partners would not occur. If it did occur, then the hypothesis would have to be rejected.
Although human psychology being what it is, we tend to think that accepted hypotheses are somehow superior to ideas that have to be thrown out, nevertheless, science advances whenever a hypothesis is adequately tested no matter whether the outcome is the rejection or acceptance of the explanation.

31. Statistical Analyses involve two competing hypotheses: a null hypothesis and an alternative hypothesis.
A null hypothesis is an explicit claim about the value of a specific parameter.
Example:What would you predict if the decision to turn left/right on the T-maze is random?
In our example, the probability to turn right P(R) must equal the probability of the subject turning left P(L). Because subjects have two mutually exclusive choices at the decision point we know that the probability of turning either left or right P(R or L) = P(R) + P(L) = 1, or P(R) = P(L) = 0.5. Thus, we can make an explicit claim about the probability that a subject turns right or left at the decision point. Our null hypothesis is that P(R) = 0.5 (or, equivalently, that P(L) = 0.5).

32. Our alternative hypothesis simply states that our null hypothesis is not true, that P(R) = P(L) ≠ Every statistical test involves the computation of a test statistic. A comparison of the test statistic to a critical value allows us to either accept our null hypothesis or reject our null hypothesis in favor of the alternative hypothesis. We accept the null hypothesis if our test statistic does not exceed the critical value and we reject the null hypothesis in favor of the alternative if the test statistic exceeds the critical value.

33. "When you can measure what you are speaking about, and express it in numbers, you know something about it; but when you cannot measure it, when you cannot express it in numbers, your knowledge is of a meager and unsatisfactory kind: it may be the beginning of knowledge, but you have scarcely, in your thoughts, advanced to the state of science" -- William Thomson Kelvin

34. Phrase Null and Alternate Hypotheses
Scientific Method
Initial Observation
Phrase a Question
Phrase Null and Alternate Hypotheses
Plan Experiment that distinguishes between the two hypotheses
Conduct Experiment in Double-Blind Fashion
Un-blind samples
Analyze Data (Get numbers!)
Statistical tests
Reject Ho?
Draw Conclusions
Communicate Results

35. 1.5 Take the material in the paragraph on page 5 of the textbook in which work by Larry Young’s team on the V1aR gene hypothesis for prairie vole monogamy is described. Rewrite this material so that you present a single sentence each for the question about a cause that motivated the research, the hypothesis about what the cause was, a prediction that was derived from the hypothesis, the test evidence that was gathered to check the prediction, and the conclusion that the researchers accepted on the basis of their research.

36. 1.7 Imagine that a mutation occurs this year in the gene that codes for the V1-a receptor protein in prairie voles. The altered protein increases the tendency of a male to form social bonds with a mate, in effect making him somewhat more monogamous than the typical male prairie vole. What is required if enhanced monogamy is to become more common in this species over time? If monogamous males have 3.7 pups on average during their lifetime while enhanced monogamous males have 4.1 on average, will the allele associated with enhanced monogamy necessarily make up an increasing proportion of the population? (“No” is the correct answer. Why? Hint: How does natural selection “measure” individual reproductive success?) Now imagine two types of prairie voles, one type that usually lives for 1.5 years and another for 0.8 years. Would it ever be possible for the one that died sooner to replace the longer-lived type over time?

37. Any change in monogamous behavior will spread only if individuals carrying the altered gene that influences the development of their behavior have more surviving offspring than others with a different hereditary basis for their behavior. The number of babies individuals have is not necessarily an indicator of the number of surviving offspring they will have, which is why males with 4.1 babies on average will not necessarily leave more copies of their alleles than males with 3.7 babies on average.

38. Infanticide in Hanuman langurs

39. Langurs live in groups of one male, several females and their young.
Males fight to control groups of females.

40. When new male takes over group, infants
often killed by the new male.

41. Why does infanticide take place?
Why does the male risk serious injury from
females to kill babies?
How can this behavior be favored by natural selection? Shouldn’t it be selected against because babies are killed?

42. Possible explanations for infanticide?
Overcrowding. Males in high density populations become hyperaggressive and so attack babies.
But, infanticide occurs in low density populations too.

43. Male Hanuman langurs apparently use a rule of thumb when deciding which infants to kill: they attack youngsters of females that they did not copulate with prior to the birth of those offspring. In light of this finding, some observers have an explanation for why it is that after a takeover pregnant females may mate with newcomers. These researchers have suggested that the females’ behavior may create confusion about the paternity of their babies, the better to limit male infanticidal behavior. If females also engage in paternity confusion when their band contains several adult males, what predictions can you make about (1) the duration of female receptivity each reproductive cycle, (2) the relationship between the period when females are in heat and the timing of ovulation, and (3) the occurrence of copulations by subordinate males as well as the dominant male langur, who attempts to monopolize sexual access to the female?

44. If the paternity confusion hypothesis is correct, female receptivity should last longer than the period in which egg fertilization can occur.
Ovulation and estrus need not be closely correlated.
Subordinate males should succeed in copulating with females, although not necessarily when ovulation is actually taking place.

45. Possible explanations?
Darwinian: Male kills young so females come into oestrus (become fertile) sooner.
Male increases his reproductive success.
The behavior favors the spread of “infanticide genes” even though it may have a net negative effect on a langur population.

46. Infanticide in Hunuman langurs
Darwinian explanation is correct.
Infanticide found in other animals too under similar ecological circumstances.

47. Lions: males taking over a pride try
to kill all young < 9 months old.

48. 25% of cubs in some lion populations killed by males.

49. Jacanas: Polyandrous (one female mates
with several males).
Female taking over territory kills any chicks of
previous female. Frees up male to tend new female’s
eggs.

50. 1.15 An evolved response to the risk of infanticide
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

51. 1.11 In an assassin bug, a predatory insect, males stand guard over clutches of eggs that females (usually their mates) have laid on leaves. The males protect the clutch against parasitic wasps that attempt to lay their eggs in assassin bug eggs. From time to time, a male stabs one of the eggs in his clutch with his beak, injecting it with digestive enzymes before drawing out the fluid. Needless to say, this act destroys the egg and so constitutes a kind of infanticide. If infanticide of this sort has evolved through sexual competition for quicker reproduction, as in Hanuman langurs and lions, how should males treat clutches laid by their copulatory partners versus those that the males “adopted” when they forced another male to leave an egg mass he had fertilized, something that happens occasionally? Once you have a prediction in hand, consider these two findings: (1) the parentage of the eggs has no effect on the number eaten, which increases steadily as the period of egg guarding lengthens, and (2) males do not lose weight while egg guarding, even though they cannot feed elsewhere. Are these findings relevant for the quicker reproduction hypothesis? Do they support another hypothesis for the tendency of males to eat some of the eggs under their care?

52. The prediction is that males should tend to destroy the eggs fertilized by other individuals rather than consuming the eggs they have fertilized themselves.
However, the failure of males to discriminate against eggs fertilized by other males suggests that sexual competition is not responsible for the fact that males destroy some eggs under their care. Instead, it appears that males eat some eggs in order to maintain body condition during the long period when they are forced to remain close to the brood they are guarding.

53. 1.13 Variation in suicidal tendencies in a make-believe lemming-like species
Group
Selection
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

54. Lemmings are small rodents that live in the Arctic tundra
Lemmings are small rodents that live in the Arctic tundra. Their populations fluctuate wildly. At high population densities, large numbers leave their homes and travel long distances, during which time many die, some by drowning as they attempt to cross rivers and lakes. One popular explanation for their behavior is that the travelers are actually committing suicide to relieve overpopulation. By heading off to die, the suicidal lemmings leave shelter and food for those who have stayed behind. These surviving individuals will perpetuate their species, saving it from extinction. What theory was used to produce this hypothesis? How would George C. Williams use Gary Larson’s cartoon (Figure 1.13 of the textbook) to evaluate the hypothesis critically?

55. The idea that lemmings commit suicide to help their species as a whole is based on group selection theory. The problem is that suicidal individuals are said to die to help others, which should have the result of eliminating any distinctive alleles possessed by the suicidal types. In short order, only individuals that did not commit suicide at high population densities would be left and their alleles would predominate in the population. Natural selection typically trumps group selection in causing evolutionary change to occur.

56. 1.9 A variable species
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

57. Differential reproduction and survival
1.10 Natural selection
Differential reproduction and survival
C:\Figures\Chapter01\high-res\Alcock8e-Fig jpg

58. Summary
Causes of any behavior can be understood in terms of four different levels of analysis; 1) how the behavior develops; 2) how the physiological mechanisms make behavior possible; 3) how the behavior promotes the animal’ reproductive success and 4) how behavior originated and has changed over evolutionary time.
Four levels can be condensed into two (proximate and ultimate causes of behavior).
Proximate and ultimate causes are interrelated. Genes present in animal today reflect adaptations over time and exert proximate influences over course of individual’s development allowing it to do certain things.
Begin with a question about what causes an animal to do or exhibit a particular behavior; we devise a testable null hypotheses to answer the question; we design an experiment and collect data; if results differ from null we reject Ho and we accept the alternative hypothesis.

59. Summary continued
Our theories are shaped by the working hypotheses we generate based on how a given behavior might advance the reproductive success of individuals
Natural selection trumps group selection (law of parsimony holds here). Selection at level of individual is more powerful than group selection in causing evolutionary change
Use logic and evidence (scientific method) to evaluate the validity of competing theories and alternative hypotheses

60. It will be universally admitted that instincts are as important as corporeal structures for the welfare of each species, under its present conditions of life. Under changed conditions of life, it is at least possible that slight modifications of instinct might be profitable to a species, and if it can be shown that instincts do vary ever so little, then I can see no difficulty in Natural Selection preserving and continually accumulating variations in instinct to any extent that may be profitable. It is thus, I believe, that all the most complex and wonderful instincts have originated.
C. Darwin, 1859, The Origin of the Species

61. Concepts in Animal Behavior
Behavior contains genetically based, heritable components
Instinct: capacity of an animal to complete a complex behavior in response to a first-time encounter with a given situation.
Instinctive behavior can usually be elicited by a limited combination of complex environmental cues.
Motor patterns: Fixed Action Pattern (FAP) different individuals produce identical behavioral response to specific sign stimuli, once initiated FAPs continue until completion.
Ethogram: comprehensive compilation of the behavioral repertory of a species, a catalogue of actions as complete and precise as possible.
Imprinting: capacity to learn specific types of information at certain critical periods in development.

62. Behavioral Ecology - the study of how animals use behavior to interact with their environments.
John Krebs - acoustic communication in birds and crickets, optimal foraging theory
N. B. Davies - the economics of behavioral strategies
Sociobiology - the study of social behavior from an adaptive evolutionary perspective, behavior patterns come into being, are modified, and even disappear through the process of natural selection. --- E. O. Wilson - social behavior of ants.

63. Proximate and Ultimate Causes of Bird Song (Chapter 2)
Neuroethology - the study of the proximate mechanisms of behavior. It concerns itself with mechanisms that underlie the performance and control of behavior. How does the nervous system gain a view of the outside world? How does it pattern and regulate movement? How is information derived from experience stored in the brain? What are the physiological mechanisms underlying motivational states?
Walter Heiligenberg - social behavior and communication via electric signals in fish
Eric Kandel - learning and memory in Aplysia
Mark Konishi - auditory sensory map in prey-capture of owls
Franz Huber - acoustic signaling in courtship and aggression of crickets
Peter Marler - Why do birds sing?
Proximate and Ultimate Causes of Bird Song (Chapter 2)