THE GENETiCAl THEoRy of NATuRAl SElECTioN 125
Selection That favors the Most Common
Balancing selection preserves genetic variation, and in most cases the population
will evolve to the same allele frequency no matter where it begins. A different pic-
ture emerges from two kinds of selection that favor whichever allele is most com-
mon. Here variation is eliminated, and which allele spreads to fixation depends
on the initial allele frequency in the population. These next two kinds of selection
therefore lead to historical contingency: the outcome of evolution is determined by
where the population begins.Underdominance: When heterozygotes suffer
The familiar sunflower is just one of about 70 species of sunflowers found across
North America. They differ in many ways, for example in their growth forms and
the habitats where they grow. Their chromosomes also show differences: closely
related species differ in the number of chromosomes they have and in the order of
genes along the chromosomes (FIGURE 5.23). These differences are the result of
chromosomal inversions and translocations (discussed in Chapter 4) that became
fixed during the evolution of these species.
Did these chromosomal changes become established because they increased fit-
ness and spread as advantageous mutations? Surprisingly, many of them decreased
fitness when they first appeared. Sunflower species can be hybridized, which
allows measurement of the fitness of individuals with different combinations of
chromosomes. Heterozygotes for some chromosome rearrangements have lower
fertility than either homozygote because their chromosomes fail to pair correctly
during meiosis, leading to infertility [25]. When a new rearrangement is still at
low frequency, almost all of its copies are in these low fitness heterozygotes. Thus
selection acts to eliminate a new chromosome rearrangement when it is still rare.
The situation in which heterozygotes have lowest fitness is called underdomi-
nance. As its name implies, underdominance is the opposite of overdominance:
it eliminates rather than preserves genetic variation. The evolutionary outcomeFutuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_05.23.ai Date 12-28-2016 01-06-17Recommend silhouetting the sun ower photo with a zoom arrow to two chromosomes.
I spelled out chromosome. Plenty of space to do that.Chromosome 12 Chromosome 16H. argophyllusH. argophyllus1 2 3 4H. annuaFIGURE 5.23 Comparing the chromosomes of sunflower species
reveals chromosome translocations. After Helianthus argophyllus
speciated from H. annua, chromosomes 12 and 16 exchanged pieces
(translocations). Arrows show how the pieces were rearranged. The
green and blue lines join homologous genes on the chromosomes
of H. annua (above) and H. agrophyllus (below). The left-hand piece
of chromosome 12 was joined with the left-hand end of chromosome
16 (segments 1 and 2 on the H. argophyllus chromosome). The piece
from chromosome 16 also flipped end to end (segment 2). The right-
hand piece of chromosome 12 was joined with the right-hand piece
of chromosome 16 (segments 3 and 4). Experimental crosses show that
heterozygotes for these translocations have low fitness. (After [3].)05_EVOL4E_CH05.indd 125 3/23/17 9:01 AM