1. 鄭先祐 (Ayo) 教授 國立台南大學 環境與生態學院 生態科學與技術學系 環境生態研究所 + 生態旅遊研究所 國立臺南大學 通識課程 2011 年春 Ayo NUTN Web: http://myweb.nutn.edu.tw/~hycheng/ http://myweb.nutn.edu.tw/~hycheng/

2.  交配體系的類型 1. Monogamous mating system 2. Polygamous mating system  2a. Polygyny  2b. Polyandry 3. Polygynandry (Promiscuous mating system)  polygynous mating systems 的生態與演化  Multiple mating systems in a single population? Ayo 2011 Ethology 通識 2

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4.  Monogamy was rare in mammals, but it was much more common in smaller diurnal groups, particularly rodents.  範例： the oldfield mouse Excavated more than 500 oldfield mouse burrows, captured the individuals in each burrow, and then brought them into the laboratory. 90% of the offspring found in a family group were fathered by the male in their burrow Ayo 2011 Ethology 通識 4

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7.  Choosing a high-quality mate, a mate that would give their partners high relative reproductive success by siring attractive offspring, offspring with strong immune systems, and so on.  Significantly more pups were born to pairs made up of a male and his preferred mate Ayo 2011 Ethology 通識 7

8.  Prairie voles, dopamine, nucleus accubens (brain), linked affiliate (friendly) and aggressive behavior two dopamine-related receptors (labeled D1 and D2) When D2 receptors were activated by dopamine, pair bonding was facilitated, whereas when D1 were activated by dopamine, pair bonding was inhibited. Ayo 2011 Ethology 通識 8

9.  Polygyny – males mate with more than one female per breeding season  Polyandry – females mate with more than one male per breeding season. Ayo 2011 Ethology 通識 9

10.  one well-studied form of polygyny is called lekking, or arena mating. Lekking, which has been studied in birds, mammals, amphibians, fish, and insects, occurs when males set up and defend small arenas called leks – temporary territories specifically for mating– that typically contain no apparent resources (no food or shelter, for example). Ayo 2011 Ethology 通識 10

11.  Two questions: 1. What benefits do females obtain from this form of polygyny? 2. What benefits do males obtain?  兩個假說： Good genes with respect to health Sexy-son hypothesis Ayo 2011 Ethology 通識 11

12.  案例： Males defend small arenas that measure about 4cm in diameter. Females can choose freely among courting males, who emit a chemical attractant called a pheromone. Ayo 2011 Ethology 通識 12

13.  Compared the survival of offspring that were the product of females that could choose among a random sample of males (part 1) and the offspring of females that were forced to choose between less attractive males (part 2). No evidence for the good genes model was uncovered.  Support the sexy-son hypothesis When male offspring from part 1 and part 2 were placed in a lek, females showed a strong mating preference for the former. Ayo 2011 Ethology 通識 13

14.  Family of birds known as Acrocephaline warblers.  Three known facts 1. Mating system vary from monogamous to polygynous 2. Warblers in monogamous systems show much higher levels of parental care than do warblers in polygynous systems, with monogamous males providing much more food to chicks than do polygynous males. 3. Warbler species in ranging from poor habitats with little food, to much better habitats that contain significantly more and better food types. Ayo 2011 Ethology 通識 14

15. Ayo 2011 Ethology 通識 15 (A)The polygynous great reed warbler (B)The monogamous Seychelle warbler

16.  A strong correlation between mating system and habitat quality Most monogamous systems were found in poor habitats, and most polygynous systems were found in better habitats. Ayo 2011 Ethology 通識 16

17. Ayo 2011 Ethology 通識 17 Where there was less food, there was greater paternal care; where there was more food, there was less paternal care.

18.  Jacanas ( 水雉 ), a group of sex-role-reversed shorebirds, in which the males incubated the eggs and care for the young, and the females compete aggressively for multiple mates. Ayo 2011 Ethology 通識 18

19. Ayo 教材 ( 動物行為學 2010) 19 Sex role reversal in northern jacanas  Females defend a territory overlapping several male territories She plays a dominant role in courtship Females are much larger than males  Females back up males in confronting potential predators She’s more effective than the male at predator deterrence

20. Ayo 教材 ( 動物行為學 2010) 20 Males: build nests, incubate eggs, and care for and defend chicks.

21.  Polyandry has been well-studied in social insects, where a single queen will often mate with many worker males. Ayo 2011 Ethology 通識 21

22.  When polyandry and polygyny are occurring in the same population of animals, the breeding system is said to be promiscuous.  案例： Barbary macaque( 巴巴利獼猴 ) During their estrous period, female Barbary macaques search for new male mating partners after each copulation. Female will mate different males. Male having numerous female sexual partners. Ayo 2011 Ethology 通識 22

23.  Several males form pair bonds with several females simultaneously.  案例： dunnock (Prunella modularis)  One or two males were resident on a female’s territory. The more help a polygynandrous female received, the higher the mean nestling weight of the chicks in the brood and the lower the chick mortality rate due to starvation. Ayo 2011 Ethology 通識 23

24. Ayo 2011 Ethology 通識 24 (A) A female with a newly hatched offspring. (B) A female feeding her brood.

25. Ayo 2011 Ethology 通識 25 Female territories are shown in green, while alpha male territories are depicted by solid red lines and beta male territories are shown by dashed red lines. We can find mating systems ranging from monogamy to polygamy, polyandry, and polygynandry.

26.  Polygyny and resources  The polygyny threshold model (PTM) How the PTM works The PTM and mate choice in female birds The PTM and human female mate choice  Extrapair copulations  Sperm competition Ayo 2011 Ethology 通識 26

27.  A female can often fertilize all her available eggs by mating with one or a very few males.  Females track resources Female fecundity is not so much tied to the availability of mates as it is to the availability of resources, for example, food, defense, and so forth.  Males track females Males, on the other hand, can potentially fertilize large numbers of females, and so male reproductive success is more tightly associated with access to females than with access to resources. Ayo 2011 Ethology 通識 27

28.  If resource are clumped, males may be able to mate with and defend several females at once. Females live together for easier access to resources and for protection from predators. Ayo 2011 Ethology 通識 28

29.  Imagine that ten males each have their own territory, and that these territories vary with respect to some resource that is valuable to females. Male 1’s territory representing the area with the most food and male 10’s territory that with the least food. The first female arriving to choose a male … The second female choosing..  案例： lark buntings Ayo 2011 Ethology 通識 29

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31.  Kipsigi tribe of Kenya  The number of wives was strongly affected by the size of his territory– with larger, and presumably more resource-rich, territories came an increase in the number of wives. Ayo 2011 Ethology 通識 31

32. Ayo 2011 Ethology 通識 32 In the Kipsigi population, polygyny is the norm. Kipsigi “co-wives” both relax (A) and work (B) together. (C) a man with many wives will have numerous huts, grain stores, strips for maize, and so on.

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34.  Males and females were leaving their territories during the mating season and mating with other individuals, usually those in nearby territories. (Extrapair copulations, EPCs)  The increased reproductive success of males who leave territories and engage in EPCs is clear, as they can fertilize more females. But why would a female be involved in EPCs? Ayo 2011 Ethology 通識 34

35. 1.Increase the probability that all their eggs are fertilized 2.Maximize genetic diversity in their offspring 3.Use EPCs to select males who have good genes 4.Increase the amount of direct benefits– food, protection, and so on– that they receive from male. Ayo 2011 Ethology 通識 35

36.  About 13% of all mating were EPCs. Females generally resisted EPCs to a greater extent than mating with their nesting partner, with the females resisting EPCs in 34 out of 43 attempts, while only resisting mating with their pairmates in 72 out of 320 attempts.  Using electrophoretic comparisons, 257 young that were biopsided, 37 had genotypes that were not consistent with the genotype of one of their presumed parents. (about 13% EPCs) Ayo 2011 Ethology 通識 36

37. Ayo 2011 Ethology 通識 37 (A)A female indigo bunting (B)A male indigo bunting

38.  In some promiscuous mating systems, males compete not only for access to mating opportunities with females, but directly for access to eggs.  Sperm storage occurs in sperm storage tubules (SST) at the uterovaginal junction. Females can store sperm from multiple males, setting the stage for sperm competition. Only a small proportion of sperm makes it into the SST. Ayo 2011 Ethology 通識 38

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40.  Dungflies use the droppings of large, often domestic, animals as their choice site for breeding.  While in most insects, copulations often last a matter of seconds, in dungflies they can last on the order of thirty minutes or more. Ayo 2011 Ethology 通識 40

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42.  The number of eggs that were fertilized by the last male to mate with a female was proportional to how long such a mating lasted.  The longer the last mating, the greater the reproductive success of the male. Ayo 2011 Ethology 通識 42

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44.  It can also play an important role in species that do not have internal fertilization.  Sperm’s swimming speed and fertilization success. To fertilize the same number of eggs, males who produced slow-moving sperm needed to release up to 100 times more sperm than males who produced fast-moving sperm. Ayo 2011 Ethology 通識 44

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46.  Sperm decrease their swimming speed with age. (A) in sea urchins, older sperm swim slower, (B) a greater quantity of such sperm is needed to achieve high fertilization rates.  As they aged, they were much less likely to fertilize an egg, even when they encountered one. Ayo 2011 Ethology 通識 46

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49.  Kamikaze sperm hypothesis Natural selection might favor the production of some sperm types that are designed to kill other males ’ sperm rather than fertilize eggs.  Variability in sperm morphology Ayo 2011 Ethology 通識 49

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51.  Sperm competition has effects o the number of sperm produced per ejaculate. Data on the interval between copulations in a given pair of individuals, and assumed that the longer this interval, the greater the chances that a partner would have been unfaithful. Obtained sperm samples from individuals the next time they copulated with their partner. the number of sperm ejaculated during a copulation is a function of the time since a pair last copulated. Ayo 2011 Ethology 通識 51

52.  When couples spent more time together, and hence the risk of extrapair copulations was low, sperm count was significantly lower than when couples spent less time together. Ayo 2011 Ethology 通識 52

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54.  Dunnocks: the long-term persistence of monogamy, polygyny, polyandry, and polygynandry in the same population.  Battle of the sexes Fitness of males: polygyny > monogamy > polyandry Fitness of females: polyandry, polygynandry > monogamy > polygyny  Females appear to be winning this battle: 75% of females and 68% of males observed were involved in either polyandrous or polygynandrous mating groups. Ayo 2011 Ethology 通識 54

55.  Difference between monogamy and polygyny is a function of male territory size.  Difference between polyandry and polygynandry was a function of female territory size. Ayo 2011 Ethology 通識 55

56. Ayo 2011 Ethology 通識 56 Supplementing the food on dunnock territories led to a decrease in female territory size but not male territory size.

57. Ayo NUTN website: http://myweb.nutn.edu.tw/~hycheng/ 問題與討論