Primate Mating Systems - Anthropology 201 Fall 2024 PDF

Summary

This document, Primate Mating Systems, discusses the reproductive strategies of primate males and females, covering topics like solitary mating, monogamy, polyandry, polygyny, and polygynandry. The relationship between reproductive success and resource acquisition is emphasized, along with the roles of sexual selection and competition in shaping these strategies.

Full Transcript

11. Primate Mating Systems and
Sexual Selection
Anthropology 201
Fall 2024
Primate Mating Systems (A Closer Look - 5.2)

Solitary or “noyau”
Orangutans, lorises

Pair-bonded (monogamy)
Gibbons, owl monkeys

Uni-female/multi-male
(polyandry)
Tamarins
[cooperative breeding in text]

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Primate Mating Systems
Uni-male/multi-female
(polygyny)
Langurs, mountain gorillas
Non-resident males may form
“bachelor groups”

Multi-male/multi-female
(polygynandry)
Vervets, macaques
Special case: fission-fusion
(spider monkeys, chimpanzees)

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 Primate Mating Systems
How do these mating systems (or groups)
influence the reproductive strategies of
males and females?

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 Objectives
Define a strategy in evolutionary terms
Distinguish reproductive strategies of
female and male primates
– Competition over different resources
Define and describe sexual selection
– How it differs from natural selection

Reading: Chapter 6; Ch 5 p. 133-136
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 The language of adaptation

Strategy = set of behaviours occurring in specific
functional context
– e.g. folivory is a foraging/feeding strategy
– e.g. polygyny is a mating strategy

à Strategies are products of selection, not
conscious plans

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 The language of adaptation
Different behaviours have different impacts on
fitness*
– Beneficial = increases fitness
– Costly = decreases fitness
What currency should we use to measure costs
and benefits?
– Best: reproductive success (RS): number of offspring
surviving to reproductive age
– When RS difficult to measure: use proxies (e.g.
foraging efficiency)

*Fitness = an individual’s genetic contribution to the next generation
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The language of adaptation

Sets of behaviours (i.e. strategies)
that tend to increase fitness will
evolve through selection

Strategies may be different for
males and females, and in different
group compositions

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 An observation
Primate females always provide lots of
care for their young
Primate males do so in very few species

WHY?

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 Why females invest more
Why is it female primates that invest more, and
not males?
– In fish and bird species the males sometimes provide
more/most parental care

Mammalian reproductive system constrains
female strategies
– Must carry offspring to term
– Must nurse them until they can forage independently
– Infant’s survival (hence mother’s fitness) in mammals
depends on these factors, more than in other animals

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 Why females invest more
Primates: extended
pregnancy (large brain),
altriciality

Extra time and energy per
infant

Relatively small number of
surviving infants produced
over lifetime

Each infant = greater portion
of lifetime fitness
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 Why males invest less
Males typically less
involved in care of
offspring
– Male care often less
important for survival of
offspring
– Time, energy and
resources are limited
– Paternity uncertain
– Often better strategy to
use their resources to
access additional females
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 When males invest less
Males will be less involved:
– 1) when attracting additional mates is relatively
easy (low cost)
– 2) when fitness of offspring raised by one parent is
high (benefit of additional care is minimal)

When benefits of investment outweigh costs of
seeking new matings, males will provide more care
(tamarins, owl monkeys – females can’t provide
enough care?)

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 Reproductive Strategies
Sexes invest unequally in offspring
– Female investment typically higher

Causes of variation in RS are likely to
be different:
– Females: securing resources (food)
– Males: securing mates

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Female Reproductive Strategies
Female RS depends on ability to obtain enough
resources (esp. food) for her and her offspring
Abundance leads to
high birth rates,
shorter interbirth
intervals (e.g.,
provisioning by
humans)

Resource crashes lead
to low rates, long
intervals (e.g.,
cyclones)
(provisioned years in open squares, 1964-1971)

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Female Reproductive Strategies
Access to food is important, so females often
compete for this access
Dominance hierarchies often form
– High-ranking females gain access to
more/better quality food

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Female Reproductive Strategies
Rank is positively correlated with RS

1. Macaques: rank 2. Hanuman langurs:
and group size rank and age
influence RS influence RS
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Female Reproductive Strategies
Rank is positively correlated with RS

High rank

Mid rank

Low rank

3. Chimpanzees: Mother’s rank influences
survival to weaning in offspring (hence RS)
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Female Reproductive Strategies
Socializing can positively influence RS
May insulate some females from cost of low rank
– Benefits from association with high ranking females?

J B Silk et al. Science 2003;302:1231-1234
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 Reproductive Strategies
Females
Females produce few offspring, invest heavily in
each, and can raise them (largely) without males
Limiting factor that causes competition and
influences the RS of females = access to food

Males
Males less constrained by food, seldom invest in
offspring, hence can potentially mate with many
females
Limiting factor that causes competition and
influences the RS of males = access to mates
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 Male Reproductive Strategies
All about access to mates

Traits that increase success in competition for
mates evolve through a special form of selection:

Sexual Selection

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 Sexual Selection
Originally proposed by Darwin
Special category of natural selection
Accounts for features with no obvious survival
function (secondary sexual characteristics)
Helps explain traits that seem maladaptive in
terms of natural selection (e.g. costly)

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 Natural vs. Sexual Selection
Natural Selection Sexual Selection

Favours phenotypes related to
Favours phenotypes that
survival/reproduction, e.g.
increase success in competition
predator avoidance, resource
for mates
acquisition...

Affects one sex more strongly,
Affects both sexes the one whose access to mates
is limited

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 Components of Sexual Selection
Intrasexual Selection
– Competition within the sex(es)
– Usually stronger among males
– Common in primates
Intersexual Selection
– Mate choice
– Usually stronger in females
– Common in birds, ?primates

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Intersexual Selection:
What do females want?
Females have high parental
investment
Also reproduce slowly
Low reproductive potential
Should mate with “quality”
mates
– Do not want to waste rare
reproductive opportunities on
unhealthy males or those that
might produce less competitive
offspring
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 Intersexual Selection
Females can choose males that:
– Will increase their fitness
Defend resources, infanticide protection
– Show good “genetic quality”
Will produce more fit offspring
Measured by condition, and costly traits
Text suggests that intersexual selection not
important in primates (female choice limited)
But may occur via matings with multiple
males and possibly cryptic female choice
(female sperm storage) 26
 Intrasexual selection in males
Most basic form of male-male competition is to
fight and drive other males away
Winners have advantage in mating opportunities
= higher RS
Intrasexual selection favours traits that enable
males to be effective fighters

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 Intrasexual selection in males
Increased male body size and canine size are
common targets of intrasexual selection
Often leads to sexual dimorphism (SD)

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 Intrasexual selection in males
SD should be most pronounced in groups where
males compete most = single-male/multi-female

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 Reproductive Strategies: Single-
male groups
A male tries to establish residence in an
unrelated group of females, and then restricts
access to other males
Other males constantly try to take over
e.g. baboons, geladas, Hanuman langurs

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Reproductive Strategies: Multi-
male groups
In most primates, females
have estrus
In multi-male/multi female
groups, estrous females
can mate with several
males in group
Less direct competition
over access to females
Here, intrasexual selection
favours increased sperm
production – “sperm
competition”
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Repro Strategies: Multi-male groups
In multi-male/multi-female groups, dominance
hierarchies may also form among males
– Determine access to estrous females

Dominance hierarchy
reflects competitive
ability (threats, etc.)

Younger males have
higher ranks – better
physical condition?

RS related to age

Rank and RS in baboons 32
 Reproductive Strategies: Pair-
bonded males
In pair-bonded species (e.g. gibbons), males
don’t compete for access to females
RS depends more on finding mates, defending
territory, and rearing surviving offspring
Mate guarding is a common rep. strategy

Grooming in white-handed
gibbons
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 Reproductive Strategies:
Infanticide
Adaptive strategy for males
After group takeovers, males kill dependent offspring
Females return to estrus allowing infanticidal male to
reproduce more quickly (before they are ousted)
Infanticide is costly for females
– So expect counter-strategies such as false estrus,
female coalitions, spontaneous abortions, male
“friendships”, etc.
Observations have been made in a large number of
primate species, in the wild and in provisioned
populations. 34
Infanticide Counterstrategies

Concealed ovulation
Regularly sexually
receptive – with
multiple males
Terminate pregnancy
after takeover
(spontaneous
abortion)
Social
supports/friendships
to try to avoid
infanticide
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