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total lifetime fitness. That optimal value of the trait shifts if the strength of natu-
ral or sexual selection changes. Increased predation, for example, can select for
decreased male traits. Male crickets (Teleogryllus oceanicus) scrape together their
wings to make a song that attracts females. The song also attracts a fly (Ormia
ochracea) that parasitizes the crickets. After the arrival of the fly on the island of
Kauai in the Hawaiian Islands, the crickets evolved modified wings that do not
produce song after only 20 generations [51].
Attracting females is one way that males increase their mating success. Darwin
pointed out there is a second way: males can directly interfere with other males’
access to females. We will explore these two modes of sexual selection shortly. But
before doing that, we will first consider the basic question of why sexual selection
acts more frequently on males than females.
Why are males sexually selected?
Widowbirds and túngara frogs illustrate a very general pattern. In most cases, it
is the male’s secondary sexual traits that are exaggerated. This shows that sexual
selection is more common and intense on males than females. Why should that be?
The solution to this puzzle comes from considering the fundamental differences
in the reproductive biology of males and females [3]. Because a male makes a large
number of sperm, he is often capable of fertilizing a large number of females. A
trait that increases the number of mates that he can acquire is favored by selection
and so will spread. This creates the opportunity for selection on traits that increase
male mating success. In contrast, a female can often fertilize all her eggs with a
single mating. A trait that increases the number of mates she acquires therefore
has no fitness advantage.
This logic is called Bateman’s principle in honor of the geneticist who dem-
onstrated it experimentally with Drosophila melanogaster [7]. Bateman put several
males and females together in bottles for several days. These individuals carried
genetic markers that allowed Bateman to determine how many of the offspring
that later hatched were produced by each parent. He concluded that the num-
ber of offspring sired by a male increased in proportion to the number of females
he mated. In contrast, the number of offspring produced by a female did not
increase with the number of males she mated. Bateman also observed that there
was greater variance in reproductive success among males than among females.
That suggests there is greater opportunity for sexual selection on males than on
females.
Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_10.07.ai Date 12-20-2016 01-30-17
Mean female mating preference
Mean male trait
Survival
Mating
success
Lifetime
tness
FIGURE 10.7 Selection favors mating displays that maximize
a male’s lifetime fitness, which is a compromise between what
maximizes survival and what maximizes mating success. In this
schematic, male survival is maximized by a tail length that optimizes
aerodynamics, resulting in stabilizing selection for tails of interme-
diate length. Male mating success depends on the mean female
mating preference (on the x-axis). If most females prefer long tails,
then males with long tails will have the greatest mating success (at
right). Tails will evolve to an equilibrium that is longer than what
maximizes survival. If females prefer very short tails (at left), tails will
evolve to a length shorter than what maximizes survival. (After [27].)
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