Species selection
Selection among groups of organisms is called species selection when the groups
involved are species and there is a correlation between some characteristic and the
rate of speciation or extinction [19, 28, 42]. Species selection does not shape adapta-
tions of organisms, but it does affect the disparity—the diversity of biological charac-
teristics—of the world’s organisms. The consequence of species selection is that the
proportion of species that have one character state rather than another changes over
time (FIGURE 3.11). A likely example of the effects of species selection is the preva-
lence of sexual species compared with closely related asexual forms. Many groups of
plants and animals have given rise to asexually reproducing lineages, but with some
interesting exceptions, asexual lineages tend to be young, as indicated by their close
genetic similarity to sexual forms. This observation implies that asexual forms have a
higher rate of extinction than sexual populations, since few asexual forms that arose
long ago have persisted (see Chapter 10) [35].
Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_03.10.ai Date 12-01-2016XXXX(A)
1Time2 3 4(B)
1 2 3 4Altruistic genotype
Sel sh genotypePopulation PopulationWynne-Edwards: Altruistic behavior
will evolve because group selection
favors it (i.e., more “sel sh”
populations go extinct).Williams: Within-population selection favors
the “sel sh” allele and increases it more
rapidly than whole-population selection can
act, so the “sel sh” allele will become xed.FIGURE 3.10 Conflict between group and individual selection.
The rectangles represent four populations of a species (1–4), traced
through four time intervals; each circle is an individual organism in a
population: open if the individual is an altruistic genotype, filled if it is
a selfish genotype. Some new populations are founded by colonists
from established populations (shown by diagonal arrows), and some
populations become extinct (marked by X). Individuals with the selfish
genotype are assumed to have higher fitness than altruistic individu-als. (A) An altruistic trait may evolve by group selection if the rate of
extinction of populations of the selfish genotype is very high. (B) Wil-
liams’s argument: Because individual selection operates so much more
rapidly than group selection, the selfish genotype increases rapidly
within populations and may spread by gene flow into populations
of altruists, and replaces them. Thus the selfish genotype becomes
fixed, even if it increases the chance of population extinction.Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_03.11.ai Date 12-01-2016Body size (degree of difference
from ancestral form)Timet 2t 1FIGURE 3.11 Species selection caused by a correlation between speciation rate and a
morphological character, such as body size (x-axis). Larger-bodied species persist longer
before becoming extinct, and so give rise to large-bodied species more often than
small-bodied species produce other small-bodied species. The lower extinction rate of
lineages with large body sizes is analogous to a lower mortality rate of individual organ-
isms in individual selection. The character value, averaged across species (red dots), is
greater at time t 2 (upper dashed line) than at time t 1 (lower dashed line). (After [18].)03_EVOL4E_CH03.indd 65 3/22/17 1:19 PM