Lecture 26-29: Hammond

Question 1

What are some examples of social behaviour?

Answer 1

Parental behaviour, mating behaviour, extended families, cooperation. Interspecific interactions, predation, chance groupings are NOT SOCIAL BEHAVIOUR

Question 2

Define adaptations?

Answer 2

Characteristics which increase reproductive fitness –> generally the outcome of selection, either natural or selective

Question 3

What is the action of selection?

Answer 3

Doesn’t generally affect groups –> mutant in a group could go against the rest of the group and be successful. Normally acts on traits that are controlled by genes made up alleles.

Question 4

What are the four types of social interactions?

Answer 4

Cooperation: recipient + / donor + Altruism: recipient + / donor - Selfish: - / + Spiteful: - / -

Question 5

Benefits of living in groups?

Answer 5

Greater protection from predators Increases resources obtained, located and maintained Mating opportunities Reduced infanticide

Question 6

How does group living lead to greater protection from predators?

Answer 6

Dilution effect- individual predation decreases Increased vigilance - many eyes hypothesis Selfish Herd - trying to get into centre of the group —> underlying drive is selfish but appears as cooperation

Question 7

How does group living lead to increased obtaining, locating and maintaining resources?

Answer 7

Increased group size –> Increased kill size, decreased chasing in a hunt (African Hunting Dogs) Cooperation of ant queens: unrelated queens form colonies together to increase the success rate. When workers are produced they then go and forage –> queens then fight to the death for nest dominance.

Question 8

How does group living lead to the creation of mating opportunities?

Answer 8

Lekking behaviour (Lek- display area of congregated males to attract females), males defend very small territories and females select. Male mating success correlates with display activity, aggression and lek attendance. Increases with male trait extravagance. Position in groups also dictates how successful the male will be- central males are more successful

Question 9

How does group living lead to less infanticide?

Answer 9

Lions killing cubs - If they live in groups then lions less likely to kill cubs

Question 10

What are the costs of living in groups?

Answer 10

Increases competition- mates and resources Increased conspicuousness to predators Increased chance of disease.

Question 11

What are the four characteristics of eusocial behaviour?

Answer 11

Adults live in groups Cooperative care of juveniles- caring for individuals which are not their own. Division of reproduction Overlap of generations

Question 12

Explain the structure of the naked mole rats groupings?

Answer 12

75-80 individuals living in a complex burrow with 1 queen and 1-3 breeding males, everyone else workers Workers can compete with queen to become breeding queen –> morphological change (non-reproductive state –> reproductive state) Low extrinsic mortality so can live to up to 300 years.

Question 13

In what insect species is eusociality seen?

Answer 13

Hymenoptera (ants, some bees and wasps) Termites and cockroaches

Question 14

What adaptations are often seen with eusociality?

Answer 14

Role specialisation: soldiers, leaf-cutters, driver ants

Question 15

What is the relatedness like in eusocial insects?

Answer 15

High relatedness between workers because they are from the same mother - Can be a single male or multiple males but males always haploid.

Question 16

What are the problems with altruism and cooperation?

Answer 16

Altruism: appears incompatible with natural selection Cooperation: it is possible for individuals to cheat

Question 17

How does kin-selection explain altruism?

Answer 17

Helping individuals which share copies of the same genes. Relatedness x benefit > cost - Relatedness is higher in eusocial insects than other species, low relatedness would mean cost > benefit

Question 18

What are examples of kin-selection?

Answer 18

Parental care- relative offspring care - If a long tailed tit fails with its nest then it will go and help relatives set up a successful nest - Fostering chicks and seeing who they go an help after —-> chicks which attempt to help will help those which they think are their parents (foster parents)

Question 19

How can co-operation be explained as a by-product of a selfish act?

Answer 19

Multiple ant queens want to create a nest but need to cooperate to do so. —> by cooperating they are more successful and gain increased resources, but then will have to fight for the death. Group augmentation in meerkats —> helping / babysitting

Question 20

Please explain reciprocity?

Answer 20

Helping one individual in the knowledge that they will then help them back e.g. vampire bats, humans, cleaning fish and clients

Question 21

Please define enforcement:

Answer 21

Behaviour which rewards cooperation but will punish free riding (cheating)

Question 22

What are some examples of enforcement?

Answer 22

Dominant female meerkat will temporarily evict pregnant subordinates and in turn this causes abortion. —> prevents a shift in power, dominant female wants all the offspring to be hers. Cleaner fish experiment

Question 23

Please explain how the cleaner fish experiment demonstrates enforcement?

Answer 23

Cleaner fish, is likely to feed on lower benefit but lower cost food, if there is a chance of punishment or fleeing of higher value food.

Question 24

What is the equation to test whether kin selection is positive?

Answer 24

Relatedness x Benefit > Cost

Must be >

Question 25

What are the different types of social conflict which can occur between families?

Answer 25

Between paretns: sexual conflict

Parent offspring conflict

Sibling conflict

Question 26

How do you find the optimal level of parental investment

Answer 26

Where there is the greatest positive difference between benefit and cost

-Resources are only limited and cannot be shared with other offspring

Question 27

Why is the individual offspring selfish in cases of inter-brood and intra-brood conflict

Answer 27

1.0 relatedness to itself compared to 0.5 relatedness to its sibling.

Individual is selfish and wants to preserve as much as its genes as possible 1>0.5

Parent wants to invest equally as 0.5 related to both offspring

Question 28

How does the cost-benefit analysis change depending on perspective

Answer 28

Offspring would benefit 2x as much from parental investment as a parent would because it has a relatedness to itself of 1.

Parent is only related to offspring by 0.5 so it gains half the benefit of the offspring

Question 29

How do Galapagos fur seals demonstrate conflict?

Answer 29

Average survival of younger sibling is decreased compared to older siblings

This is due to faculatitive siblicide –> different in age of death

Question 30

How do blue-footed boobies demonstrate conflict?

Answer 30

Older sibling begs more effectively than younger sibling (Eggs laid 4 days apart)

If food is abundant then both get food

If food is scarce then the older sibiling takes the food and the younger one starves

FACULATIVE SIBLICIDE

Question 31

What is obligate siblicide?

Answer 31

The older sibling always kills the younger sibling

Second egg is laid as insurance

Removal of the second egg decreases reproductive success.

Question 32

What is the influence of relatedness?

Answer 32

Loudness of begging in passerine birds increases as relatedness in the nest decreases.

This theory needs to be tested over the evolutionary spectrum.

Question 33

What other factors affect how each individual gets fed in a bird brood?

Answer 33

Gape colour

• Colour stands out differently compared to different backgrounds.

—> Yellow gapes in darker background

—> Red gapes in lighter background

Plummage colour

• Juveniles of brighter plummage (orange) are fed more compared to darker plummage (black) in manipulation experiment

Question 34

What examples are there of conflict within a colony?

Answer 34

Queen spreading behaviour

Male percentage (who produces males- queens or workers)

Sex ratio ( investment into males and females)

Reproductive skew ( sharing of reproduction between queens)

Caste fate (does a female become a queen or a worker)

Question 35

How does a nest with a singly mated queen work?

Answer 35

Each worker female is 0.75 related to each other because they are each 0.5 related to the queen, and 0.25 related to male (haploid)

Only 0.25 related to brothers (half of 0.5)

Workers are 0.5 related to their offspring (males / nephews). And are 0.35 related to other workers offspring

WORKERS MORE RELATED TO NEPHEWS THAN BROTHERS

Question 36

How does a nest with a multiply mated queen work?

Answer 36

Workers are between 0.25 and 0.5 due to the variety of males / sperm.

Still 0.25 related to brothers

Still 0.5 related to offspring

Workers <0.25 related to nephews

MULTIPLY MATED NEST, MORE RELATED TO BROTHERS THAN NEPHEWS

Question 37

Why does conflict occur over male percentage?

Answer 37

Relatedness –> preferance

Single mated queen –> worker produced males

Multiple mated queen –> queen produced males

Queens sons preferred if queen mated 3 times or more. Workers and queens sons are equal at 2 mates.

Question 38

What are the other affects of a multiple mated queen producing all of the males.

Answer 38

Workers police other workers to make sure they do not produce males

WORKERS POLICING BEHAVIOUR

• Other workers eat eggs
• Females ovaries do not develop

Question 39

What happens if workers sons are more related than queens sons?

Answer 39

Question 40

How do ants recognise one another?

Answer 40

Cuticular hydrocarbons.

Question 41

What is the difference in sex ratio in single mated and multiply mated nests?

Answer 41

In single mated nests: 3 females : 1 male

In multiple mated nests : 1 female: 1 male

Aligned with worker kin selection intrests

–> workers are in controll of sex ratio

—-> feed the larvae and therefore in control of which sex develops.

Question 42

Please describe the split sex theory

Answer 42

1- colonies with singly mated queens

–> should just produce workers

2- colonies headed by doubly mated queens

—> should just produce males

Question 43

How are the different sex ratios produced?

Answer 43

Queens always lay the same sex ratio, workers control what sex ratio is produced

–> kill male larvae in single mated colonies –> skewed

BIASING CASTE FATE

Different populations lead to different skews

Question 44

Give examples of species which demostrate the split sex theory

Answer 44

• Formica exsecta:* split sex ratio from variation in mating frequency- workers maintain sex ratio
• Leptothorax acervorum:* workers manipulate sex ratio to form the correct balance of queens and workers

Question 45

How and why is punishment induced and enforced in queenless ants?

Answer 45

Dominance interactions- gamergates

• Manipulation experiments making weaker (less dominant) individuals appear more dominant (morphology)
• Gamergate / dominant individual smears her sting on the pretender
• This leads to immobilisation behaviour –> appendages held out by workers for 3-4 days

Question 46

Which ants can produce the sting smearing response which lead to immobilisation

Answer 46

Question 47

How do workers influence royal reproduction?

Answer 47

Different types of multiple queen colonies

Polygynous - multiple reproductive queens

–> low colony relatedness (UK + c. Europe)

Monogynous - single reproductive queen

–> high colony relatedness (Spain)

Workers may be aggressive to queens which do not lay eggs.