206 CHAPTER 8
meadow appears, for example after a fire, it is colonized by butterflies that disperse
from neighboring patches. The colonizers are not a random sample of the popula-
tion: they are strong fliers that disperse well. Flight strength is strongly heritable,
so the population that is established in a new patch has strong fliers for the next
several generations. But in later generations, the population evolves toward weaker
and weaker flight. Why? Simply because the strongest fliers disperse, leaving the
weaker fliers at home [11].
The Glanville fritillary illustrates an interesting consequence of dispersal: it
sorts individuals according to how well they disperse. As a result, dispersal can
cause evolutionary change even without the help of natural selection. A dramatic
example of this effect comes from the cane toad (Rhinella marina) [27]. The toad
was introduced to Australia from South America in 1935 and has been rapidly
expanding its range ever since. Because of the sorting effect, we would predict that
toads at the leading edge of the invasion should disperse better than those from
older, established populations. That is exactly what is seen: frogs at the leading
edge have longer legs, and frogs with longer legs disperse faster than their short-
legged conspecifics (FIGURE 8.16).
Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_08.15.ai Date 11-17-2016
FIGURE 8.15 Roesel's bush-cricket
(Metrioptera roeselii) has two morphs,
one with normal wings (left) and one
with highly reduced wings (right). The
morph with normal wings can disperse
long distances by flying, but has lower
fecundity because of the energy it in-
vests in the growth and maintenance of
flight muscles.
Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_08.16.ai Date 03-16-17
Relative leg length
(^1200400600800)
Order of arrival
1.0
1.1
0.9
(A) (B)
Rate of spread (km/y)
1955–
1964
1965–
1974
1980–
1984
1945–
1954
Year
30
40
50
20
10
0
60
2001–
2005
FIGURE 8.16 When a species’ range expands, the most rapidly dispersing genotypes
automatically become more common at the range edge, causing the rate of spread
to increase. (A) During its range expansion in Australia, the first cane toads (Rhinella
marina) to arrive at a research station had the longest legs, while those that arrived later
had shorter legs. Toads with longer legs disperse faster because they jump farther.
(B) As a result of the sorting process, the advancing front of the cane toad invasion has
accelerated since the toad was introduced in 1935. (After [27].)
08_EVOL4E_CH08.indd 206 3/23/17 9:12 AM