Download presentation
1
Chapter 11 The evolution of mating systems
Monogamy: one male one female Polygamy Polygyny: one male, multiple females. Polyandry: one female, multiple males. Polygynandry: multiple males, multiple females.
2
Monogamy Prolonged, essentially exclusive bond maintained with one member of opposite sex. Generally a rare system. Rare in mammals (except for some rodents, primates and dogs). However, is commonest avian mating system.
3
Monogamy armed compromise rather than
happy collaboration. Males would generally like to seek extra mates. Why don’t they?
4
Several hypotheses: Mate-guarding hypothesis Mate assistance hypothesis Female enforced monogamy
5
Mate guarding hypothesis (MGH)
Monogamy may be best choice if female would mate again if male deserted her and if 2nd male would fertilize eggs.
6
Example: Clown shrimp. Mate guarding should pay off when females:
Scarce and hard to find. 2. Remain receptive after mating. Example: Clown shrimp.
7
Mate assistance hypothesis (MAH)
Male stays with partner because male assistance increases young’s survival. Increased survival of young outweighs extra young gained by seeking extra mate
8
In seahorses, males carry brood in pouch during 3 week “pregnancy.” Pair stays together for series of matings.
9
Male can hold only one clutch, so no benefit
in courting extra females. Females choose monogamy because males are scarce and because females are poor swimmers and thus vulnerable to predators.
10
Female enforced monogamy hypothesis (FEMH)
In some species females actively prevent males obtaining extra mates.
11
A female burying beetles will attack her mate if
he tries to release pheromones to attract other females to a carcass the pair have buried.
12
In experiment, males whose female had been
tethered so she could not attack him released pheromones for longer period than males whose mate wasn’t tethered.
14
Monogamy in birds
15
Male birds can feed young as well as females
(unlike most mammals). Male assistance essential to rearing young. Probably explains why > 90% of birds are monogamous.
16
Male assistance in Snow Buntings essential
to rearing young. Females whose males were removed reared fewer than 3 young. Those with males reared 4 or more.
17
In many birds raising young so hard, it takes a
pair to rear even one young (e.g. albatrosses).
18
In Tree Swallows polygynous males father
fewer surviving young (0.8 fledglings) than monogamous males (3.0 fledglings).
19
More offspring of polygynous males die
because male can’t help both females (MAH). Females also mate with other males because male cannot guard two females effectively (MGH). Monogamy best for both male and female Tree Swallows.
20
Extra-pair copulations (EPC’s) in birds.
Even though monogamous males assist one primary female, males also seek EPC’s. DNA fingerprinting has shown EPC’s very common.
21
DNA fingerprints * * ** * Right: Beta (**) male unique band occurs in
offspring D, E, and F. Alpha male (*) and offspring G share unique band. * * ** * Above: * indicates unique alpha bands Alpha fathered all young.
22
Male benefits of EPC’s are obvious
(increased offspring at low cost). Why would females seek EPC’s?
23
Female may gain by : Increasing chances of her eggs being fertilized. Female red-winged blackbirds who mate with multiple males have higher egg hatching rates.
24
Similarly, female adders who mate with
multiple males have fewer stillborn young.
25
2. Obtaining better genes for her offspring
Many female Blue Tits mate with neighboring males whose mates don’t seek out other males.
26
These males survive better and produce more
young than males with unfaithful mates. Suggests they have better genes.
27
3. Obtaining resources from male
Female red-winged blackbirds that copulate with neighboring males are allowed to forage on the males territory. Males RWB’s also assist in attacking predators in vicinity of those females nests.
28
Polygamy Any mating system involving mating with and, in many cases, forming pair bonds with multiple members of the opposite sex. Three kinds: Polygyny Polyandry Polygynandry
29
Marsh Wren Polygyny: One male mates with two or more females.
Examples : Birds: Lark Bunting, Red-winged Blackbird, Dunnock, Marsh Wren. Marsh Wren
30
Mammals: Lions, Gorillas, Bats.
Also found in many fish, insects, etc.
31
Three basic types of Polygyny
1. Resource defense Polygyny 2. Female defense Polygyny 3. Lek Polygyny
32
1. Resource defense polygyny.
Male defends resources that females need to produce young (food, nesting sites).
33
Resource defense polygyny in an African cichlid
34
African cichlid fish Lamprologus callipterus
exhibits extreme sexual dimorphism (males 13X times larger than females). Females lay eggs inside empty snail shells and remain inside shell until eggs hatch.
35
Males collect suitable shells and steal them
from other males.
36
Males gather shells into large collections and
defend them from rival males.
37
Up to 86 shells have been recorded in one
collection and up to 14 females at once. Males with good territories obtain high reproductive success. Extremely large male body size has been selected for because it enables males to collect shells and to defend their territories.
38
Male Red-winged Blackbirds hold territory
on marshes. Males with the best territories attract harems of up to 15 females. Females choose males on the basis of territory quality. Male’s red epaulettes are essential in male-male competition.
39
Polygyny threshold model
Some females choose to mate with already mated males who will not help them feed their chicks even though unmated males with territories are available. Why would a female do this?
40
Polygyny threshold model: predicts that
female will accept role of 2nd mate (polygyny) when superior resources on males territory mean that female would do better there than as 1st mate on a poor territory
41
Polygyny threshold model
Curves represent payoffs to female. Female can choose between males A and B. A has a mate, B is unmated. Polygyny threshold model
42
Example of polygyny threshold.
Male Lark Buntings establish territories in grassy, open habitats. Mate with > 1 female but assist only first female to settle on their territory.
43
Some female LB’s accept secondary female role
on good territory to obtain a high quality nesting site. In bad nest sites young die from exposure to the sun.
44
Some male Pied Flycatchers establish two
territories. Sing to attract a female.
45
Males provide little help to female on 2nd
territory, so female has low reproductive success.
46
Each female mated to a polygynous male has
lower reproductive success than a monogamous female. However, males r.s. is higher than that of a monogamous male
47
Male Pied Flycatchers clearly try deceive
females into polygyny. Not clear yet if females really fooled or have no better alternative.
48
2. Female defense Polygyny.
Common when females cluster in groups that are defensible. Males then defend clusters against other males.
49
E.g. Elephant seals, lion prides, elk and deer
herds.
50
In some marine siphonoecetine amphipods,
which build protective cases out of gravel and shells, males collect females and glue their houses to their own.
51
In general, female defense polygyny possible
because females cluster for their own reasons and males exploit this. E.g. Lionesses cluster to defend feeding territories. Deer gather for protection. Elephant seals gather on the few suitable nursery beaches.
52
3. Lek Polygyny Examples: Grouse, Ruffs, manakins. Cock-of-the-rock.
Males do not help in raising the young. Variance in male mating success is greatest in this system. Examples: Grouse, Ruffs, manakins. Cock-of-the-rock.
53
In lekking species males display for females
at a predictable location (a lek) and females come to the site to choose mates. Males provide no resources except sperm.
54
Sage Grouse displaying on a lek.
Males display for females. Females choose males on basis of appearance and displays (sexual selection). Sage Grouse displaying on a lek.
55
Highly skewed mating success is normal in
lekking systems. A few males obtain most of the matings. By mating with best possible male, females obtain the best available genes for their offspring.
56
In well-studied Black Grouse and Sage
Grouse lekking systems < 10% of males obtain 70-80% of the copulations.
57
Why do males gather in leks?
Gathering in leks may reduce predation risk. Open country birds display in groups whereas forest species usually display solitarily. Birds-of-paradise that display in leks are edge or second-growth species (where predation risk is high) whereas primary forest species display solitarily.
58
Three most favored hypotheses for
evolution of lekking are: 1.“Hot-spots” hypothesis 2. “Hot-shots” hypothesis 3. Female preference hypothesis.
59
Hot-spots Hypothesis: males gather at sites
where they are likely to encounter females.
60
Lekking bees, wasps and other insects often
use same locations for leks. Territories of lekking flycatchers, manakins and hummingbirds also often overlap. Gather along streams or ridgelines that act as highways for female movement. Convergence of different species on same location supports hot-spot hypothesis.
61
Hot-shots Hypothesis: subordinate males
cluster around most attractive males -- “hot-shots” -- in order to be seen by or to intercept females attracted to these males.
62
In Great Snipe (a bird) removing central
dominant bird caused neighbors to leave territories. Removal of subordinates resulted in their territories being refilled.
63
In Black Grouse on long-lasting leks location
of most popular territory shifts from year to year. Suggests male quality more important than location in lek.
64
Female Preference Hypothesis: females prefer
to choose from groups of males because comparisons are easier to make.
65
The mating behavior of the Ruff appears
consistent with all three hypotheses. Male ruffs are named for their well-developed ruffs, which they use to display to females (reeves).
66
Ruffs are polymorphic with ruffs
occurring in a variety of colors.
67
Male ruffs use a variety of mating
strategies. They pursue females (followers), wait for them at rich feeding ground (interceptors) or wait at classic leks (lekkers).
68
White-ruffed males appear to have evolved
as specialist Followers skilled at tracking the movements of females between neighboring leks.
69
Male ruffs may switch tactics but
committed lekkers have the highest mating success.
70
Dark morph ruff displaying to a female.
71
Controlled experiments suggest that female
ruffs prefer larger leks. This preference increases the mating success of males at large leks and favors that breeding strategy.
72
Female ruffs prefer groups of at least five
males and visit such groups more often.
73
Leks with >5 males do not attract
more females, thus satellite males reduce success of dominant males by intercepting some of the females.
74
Hot-spots and hot-shots hypotheses also
relevant to ruff mating system. Leks tend to be located by ponds where females come to feed (Hot-spots). Satellite males gather around most successful males (Hot-shots).
75
The clustering of males on leks may in part be
due to a tendency of young or inexperienced males to gather near older or successful males. Such satellite males may get occasional matings and perhaps gradually improve their status. Such associations are most extremely developed in the Central and South American manakins.
76
Cooperative leks displays.
In many manakins males perform cooperative displays. Three or four males may cooperate to display but usually only the alpha male gets to mate. Round-tailed Manakin
77
Cooperative display of Swallow-tailed Manakins.
78
In Long-tailed Mankin males may take 8 years
to move up to alpha position. Four year study: in 117 observed copulations only 8 of 85 males copulated. 90% of copulations by 4 males and 67% by one alpha male.
79
Long-tailed Manakin
80
Manakin mating system works because
birds are long-lived and females tend to return to where they mated before. As a result, the beta and lower-ranking males can expect to inherit a high-quality display ground and can afford to delay mating.
81
Polyandry: One female forms pair bonds
with two or more males. Female reproductive success is more variable than male reproductive success in polyandrous mating systems. There are two forms: classic polyandry and cooperative polyandry.
82
Classic Polyandry: Females lay clutches for
multiple males and compete for males. Examples : Jacanas, Phalaropes, Spotted Sandpiper. Cooperative Polyandry: Two or more males cooperate to assist a female at one nest. Examples: Acorn Woodpeckers, Dunnock.
83
In classic polyandry females brightly
colored and compete for territories and males. Males incubate eggs and care for young. Female Red Phalarope.
84
Male Jacanas (lilytrotters) defend small
territories against other males. Females defend larger territories that include several male territories.
85
Female jacana lays clutch of eggs for each
male in her territory. Male alone incubates eggs and cares for the young. Losses of eggs and chicks to predators and nest flooding may be high.
86
Clutch of jacana eggs.
87
Male Pheasant-tailed Jacana incubating.
88
If female jacana loses her territory or dies
and another female takes over the territory, the new female destroys the eggs and kills young of any male on territory. This behavior frees the male to incubate a replacement clutch, which new female provides.
89
Female Spotted Sandpipers are 25% larger
than males. Female will lay clutches for a primary male and from 1-3 secondary males.
90
Only the last secondary male is assisted by
the female in caring for the young. However, later males are likely to have lower reproductive success because sperm from earlier males may fertilize some of eggs.
91
Not clear how classic polyandry has evolved.
May be a result of heavy losses of eggs which favor females maximizing egg output (Jacanas).
92
Alternatively, in Spotted Sandpipers cause may
be phylogenetic constraints that limit females to four egg clutches. Females can produce more eggs because food sources are rich, but must lay more clutches not bigger ones. Hence, need males to incubate. Rare case of females being limited by access to mates rather than by gamete production.
93
Cooperative Polyandry also occurs in which
more than one male assists a female. Appears to be result of shortage of breeding opportunities because there are few territories available.
94
Groups of Acorn Woodpeckers compete for territories that contain granary trees. Cooperative Polyandry may arise when a multiple male coalition controls a territory with only one breeding female.
95
In Dunnocks cooperative polyandry occurs when two males partition a females territory.
96
Polygynandry: Two or more females form
pair bonds with two or more males. Examples : Ratites (i.e. Rheas and Ostriches), Dunnocks, Acorn Woodpeckers. Arises in similar circumstances to those just described for Cooperative Polyandry.
97
The mating system of the Dunnock
98
“Unobtrusive, quiet and retiring, without being shy,
humble and homely in its deportment and habits, sober and unpretending in its dress, while still neat and graceful, the dunnock exhibits a pattern which many of a higher grade might imitate, with advantage to themselves and benefit to others through an improved example.” The Reverend F.O. Morris (1856) encouraging his parishioners to emulate the humble life of the Dunnock. Little did he know!
99
The Dunnock is an unobtrusive brown and gray bird
that is common in woodlands, hedgerows, and urban areas in Europe. The Dunnocks breeding in the Cambridge University Botanical Gardens have been the subject of long-term research by Nick Davies and colleagues. These studies have revealed a mating system that the Reverend Morris might have hesitated to recommend to his parishioners.
100
Dunnocks feed on small arthropods and
establish and defend exclusive territories, which they retain year-round. Subject of long-term studies by Nick Davies and colleagues in Cambridge University Botanic Gardens
101
Females establish and defend their territories
against other females. Females choose their nesting territories independently of males and compete for space with other females.
102
Territory size is a function of food availability.
The more food is available the smaller territories are.
103
Dunnock 1990 female territories
104
Male Dunnocks also defend territories but as
is the case for females, only against members of their own sex.
105
Males impose themselves on the female
distribution and attempt to monopolize access to the females territories.
106
Dunnock 1990 male territories
107
Female territories 1990 Male territories 1990
108
Monogamy arises when a male can control all of a
females territory. In spring, males pursue females around their territories thus learning the territory’s boundaries and singing to stake their claim. A male who can control a single territory is monogamous. A male who can control more than one territory is polygynous.
110
Polyandry usually arises when a
female’s territory lies between the territories of two males. Each male attempts to pursue the female into the other males territory.
111
At first each male is dominant in its own
territory, but eventually one male (the alpha) establishes dominance and the two males (alpha and beta) defend the females territory together. Polyandry may also arise when a young male persistently intrudes onto an older males territory until he eventually is accepted as a beta male.
113
Polygynandry may occur when in
adjacent monogamous pairs one male invades the adjacent territory and eventually becomes the alpha male in a two female territory.
115
Female territory size is crucial in determining
the mating system. The larger the female territories are the harder it is for any mating system other than monogamy or polyandry to arise because males cannot defend very large territories.
116
Territory size is a function of food availability.
The more food available the smaller female territories are. If food is added, female territory size is reduced and this facilitates polygyny and polygynandry
118
Males are larger than females and dominant over
them in aggressive interactions. When food is scarce, females lose out to males. female
119
As a result of male dominance, female mortality
is higher in severe winters.
120
As a consequence of differential mortality the
population sex-ratio is male-biased after severe winters.
121
A shortage of females leads to an increase in
polyandry.
122
Males and females both try to maximize their
reproductive output. Male and female payoffs differ in different mating systems.
123
Payoffs For male For female Polyandry Share one Sole access
female to multiple males Monogamy Sole access to Sole access to one female one male Polygynandry Share several Share several females males Polygyny Sole access to Share one male several females
125
When more than one male feeds a brood
more young are fledged and they are bigger. The larger young are at fledging the better their chance of surviving to independence.
127
A male’s payoff is highest when he can
mate with multiple females. A female’s reproductive success is highest when she can obtain the assistance of more than one male to care for her brood. These aims are in opposition in polyandrous and polygynandrous mating systems.
128
In a polyandrous or polygynandrous
mating system a female dunnock tries to encourage both males to feed the young. She does this by mating with both males and giving them paternity in the brood. The alpha male, however, wishes to control mating access to the female because although more young are reared when both males feed the brood, the number of young he fathers is reduced.
130
Male Dunnocks try to maximize their reproductive
success by engaging in sperm competition and mate guarding.
131
Sperm Competition In Dunnocks sperm competition is intense. Male Dunnocks produce > 1000 times the amount of sperm that the comparably sized Zebra Finch does. Females store sperm in special sperm storage glands.
132
Sperm Competition Both males mate with the female as often as they
can to maximize the amount of their sperm in the female’s sperm storage glands. Both males also engage in cloacal pecking. In this behavior the male before mating pecks the females cloaca and she ejects stored sperm from her sperm storage glands.
134
Mate Guarding The alpha male guards the female and tries to
prevent her from mating with the beta male. If the beta male attempts to mate, the alpha male intervenes and drives him away from the female. The female encourages the beta male to mate and attempts to escape from the alpha male and mate with the beta male.
135
Mate Guarding
136
The alpha male intervenes in copulation attempts
made by the beta male.
137
Both males frequently inspect the nest to
see if eggs have been laid and value copulations during the egg-laying period particularly highly as these are most likely to produce offspring.
138
After the eggs have been hatched beta males base
their decision on whether to feed the brood or not on the amount of mating access they have had to the female.
139
The greater the mating access a beta male has had
the more often he feeds the young.
140
DNA fingerprinting results have been very
useful in teasing apart the mating success of males and females in these complex mating systems.
141
* * ** * Right: Beta (**) male unique band occurs in offspring
D, E, and F. Alpha male (*) and offspring G share unique band. * * ** * Above: * indicates unique alpha bands Alpha fathered all young.
143
The Dunnock’s mating system results from the
interaction of multiple factors both ecological and behavioral. Food supplies and winter conditions affect female territory size which determines how many female territories a male can defend. This in turn leads to complex behavioral maneuvering as both sexes attempt to maximize their reproductive success. Hardly, the picture of domestic tranquility that the Reverend Morris had in mind!
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.