Thursday, 6th September - Mating systems and parental behaviour

Question 1

What are mating systems?

Answer 1

• The way animals gain access to mates
• the number of mates they interact with in a breeding season
• the duration of social bonds
• and the relative investment of each sex into parental care

Question 2

Explain the difference between Polygamy and Monogamy and give an example animal of each.

Answer 2

- Polygamy: some members of one sex control access to >1 of the other sex.

- Monogamy: 1 male, 1 female

Driven by the distribution of resources in space and time.

– Distribution of females is governed by resources.

– Distribution of males is governed by that of females.

Question 3

What are the 4 main types of mating systems?

Answer 3

1. Sexual promiscuity - Multiple partners, no real peer bonds formed.

2. Polygany – 1 male (Alpha) and >1 female (common, e.g. baboons, gorillas)

3. Polyandry – 1 female and >1 male (rare, e.g. jacana)

4. Monogamy – for life (in long-lived species) – for each season (in short-lived species; e.g. songbirds)

Question 4

Why are some animals polygynous?

Answer 4

• Where the distribution of resources is patchy, there is more potential for some individuals to monopolise access and deny others.
• Polygyny is the best strategy for males due to anisogamy, but there is high cost for unsuccessful males.

Question 5

When females or resources are defensible:

1. Resource defence: males control a critical resource needed by females (potentially before females arrive).

– Observed in a wide variety of animals: invertebrates, fish, mammals, birds.

2. Female defence: males control groups of females (harems), which are grouped around patches of resources.

– Common in lions, horses, deer.

Question 6

Forms of polygyny

Answer 6

When females or resources are not defensible:

3. Lek polygyny

• Males do not provide parental care (just provide copulations).
• males congregate and display in breeding arenas where all breeding occurs.
• Males defend small territories with no vital resources for females.
• Females can choose freely among males – allows ‘window shopping’.
• Most copulations involve a very small proportion of displaying males

Question 7

Polyandry: male-female role reversal

Answer 7

1. Classical polyandry:

one female mates with >1 male.

– Females compete over males and control territory/resources.

– Males care for offspring

2. Cooperative Polyandry:

>1 males associated with a single female during a breeding attempt/season. Evolutionary/ecological reasons for polyandry still unresolved!

Question 8

Consequences of polygamy

Answer 8

• High polygamy means high variance in lifetime reproductive success of males, but not in females.

– high rewards for best males and few or none for others produces fierce competition over females.

– that then increases effects of sexual selection.

– visible in larger size, stronger colours or behaviour of best males and their offspring

• Degree of polygamy of a species partially predictable from extent of sexual dimorphism
– Males usually larger, stronger, more colourful than females.

– But is the opposite for polyandrous species!

– This suggests that sexual selection is a product of mating systems.

Question 9

Monogamy

• Optimal strategy only in limited conditions:

– When neither sex can monopolise >1 of opposite sex

– parents achieve best individual lifetime reproductive success by cooperating to raise young.

• Occurs either within breeding season or for life.
• Can even vary within populations, depending on resource availability.

Question 10

Are monogamous animals always faithful?

Answer 10

Extra-pair copulations are frequent in some “monogamous” species; especially passerines.

Extra-pair paternity increases offspring without having to care for them!

– Benefit for males: get another dad to care for your offspring; males are mostly limited by access to females and not sperm.

– Benefit for females: can get good genes from high-quality males (limited resource) + parental care (even if from lower-quality male).

– Cost for males: You might get stuck wasting your energy on someone else’s offspring.

– Cost for females: Very little = Females typically encourage EPP wherever possible.

Question 11

Parental investment

Answer 11

Any behaviour towards existing offspring that increases their survival (at a cost to the parents!).

• Anisogamy is the key factor; it means selection acts differently on males vs. females.

– Female makes few costly offspring: choosy about father, tries to retain his help if possible but many can manage alone.

– Male makes abundant cheap sperm: competes to maximise matings, less choosy, will escape parental responsibilities if possible.

– Always exceptions! If male invests more in offspring he becomes choosy & female competes for his services. • Conflict between unrelated sexual partners inevitable. • Conflict among siblings over parental care probable.

Question 12

Costs of parental investment

Answer 12

Costs are paid in three different ways:

1. Energetic costs – Reduced feeding opportunities & increased metabolic expense during care.

2. Survival costs – Starvation or increased susceptibility to predation.

3. Reproductive costs – Lost future opportunities for mating.

Question 13

Variation in strategies of parental care

Answer 13

Probability of parents remaining together depends on relative investment of male and female

• Option 1: Maternal care

– male invests less than female, e.g. only sperm,

– and female can rear young alone,

– Then, male can desert (most mammals, some birds).

• Depends on probability of survival of young.
• Mallards males might stick around, but just to donate more sperm if offspring die!

Question 14

Variation in strategies of parental care

Answer 14

• Option 2: Paternal care

– male invests much more, e.g. in defending territory

– and young can be fed by him, or can feed themselves

– Then, female can desert (e.g., seahorse, jacana, cichlids, some arthropods).

Question 15

Variation in strategies of parental care

Answer 15

The evolution of sexy super-dads in a neotropical harvestman:

• Males tending eggs are more attractive.
• Females more likely to lay there eggs next to a male that is already tending eggs.
• Imposes energetic cost on males; cannot forage while caring for eggs.

Answer 16

• Option 3: Biparental care

– investment equal, e.g., he defends territory, she broods

– or shared care (feeding, defence) needed for success.

– Then, neither deserts: most birds… but also arthropods!

Question 17

What is the definition of ‘Reproductive effort’ (RE) ?

Answer 17

Definition: all energy spent + risks taken (including parental care) for this brood at the cost of future broods

Question 18

Explain the difference between R & K strategists?

Answer 18

– minimal in r-strategists (opportunistic, unstable habitat)

• produce many small, rapidly growing/dispersing young (many birds & arthropods)
• Iteroparity: RE spread over many broods, each well cared for
• Semelparity: all RE concentrated in 1 huge brood, no care Ronnie Macdonald – CC-BY-2.0

– maximal in K-strategists (equilibrium species, stable habitat)

• produce fewer large, slow-growing young
• invest in education as well as care (cheetah)

Question 19

Allocation of parental investment

Answer 19

1. Life history – Long-lived species might invest less in current offspring; always another chance. – Short-lived species might invest everything as it’s the only chance! – Investment into offspring also increases with age in long-lived species

2. Confidence in paternity – Females can be pretty sure its theirs; guarantees 50% genes present in progeny. – Can be much harder for males to tell; this can be extremely costly!

Question 20

Parental investment: other factors

Answer 20

3. Physiology

• Homeotherms must keep young warm; biparental care more common in birds (both can sit on eggs) than mammals.

– Mound builders use heat from mound of compost & monitor temperature with beak. Can guard nest from a distance