Biology Now, 2e

(Ben Green) #1

234 ■ CHAPTER 13 Adaptation and Species


EVOLUTION


its environment. In many cases, animals fail to
adapt successfully. In fact, scientists estimate that
99 percent of all species that have ever lived are
now extinct. Every extinct species is a silent testa-
ment to a failure to adapt in the face of adversity.
It’s tempting to label the descendant lizards
as a new species, but Irschick is hesitant to do so
without more testing. Most commonly, the term
species is used to refer to members of a group
that can mate with one another to produce
fertile offspring. According to the biological
species concept, a species is a group of natu-
ral populations that can interbreed to produce
fertile offspring and cannot breed with other
such groups; that is, they are reproductively
isolated from other populations (Figure 13.4).
Irschick and Herrel have yet to test whether the
Pod Mrcˇaru lizards can still mate with their
cousins back on Pod Kopište. According to the

The new traits were the result of the lizards
adapting to a different food source, says Irschick:
on Pod Kopište, they ate insects, but on Pod
Mrcˇaru, they began to feast on plants. Flushing
the stomachs of a few lizards revealed that the
lizards’ diet was made up of two-thirds plant
material. Over time, the lizards that had evolved a
new head shape and digestive structures survived
and reproduced better than those that had not,
because these traits enabled them to take advan-
tage of the new food sources on Pod Mrcˇaru.
The lizards evolved not only physical adapta-
tions, but behavioral ones too. They became less
territorial and less aggressive and were mating
more often, probably because more space and
food were available. Adaptations, whether behav-
ioral, physical, or biochemical, have three import-
ant characteristics. First, they closely match an
organism with its environment; in this case, the
lizards evolved to match the ecosystem on Pod
Mrcˇaru. Second, adaptations are often complex,
such as the lizards’ new gut structure. Finally,
adaptations help the organism accomplish
important functions, such as feeding and mating.
The lizards on Pod Mrcˇaru show that evolu-
tion by natural selection can improve the adap-
tive fit of organisms to their environment not only
over long periods of time, as with the evolution
of whales described in Chapter 11, but also over
surprisingly short periods of time. In just 33 years,
the P. sic ula lizard population evolved both physi-
cal and behavioral traits that helped it flourish on
the new island. “It was really, truly rapid evolu-
tion across multiple facets,” says Irschick.

What Makes a Species?


Despite how impressive the lizards’ quick adap-
tation may be, natural selection does not always
result in a perfect match between an organism and

Figure 13.4


A male and a female South Pacific
rattlesnake confirm that they are the
same species
After performing this mating ritual, these snakes
successfully mated, producing viable offspring.

Q1: How do we know that these
rattlesnakes are members of the same
species?

Q2: How would you design an experiment
to determine whether two populations of
snakes are distinct species according to the
biological species concept?

Q3: For which types of populations does
the biological species concept not work as a
way of determining how they are related?

Anthony Herrel worked as a research fellow in Duncan
Irschick’s lab before starting his own lab at the French
National Centre for Scientific Research in Paris, where
he studies the evolution of feeding and locomotion in
vertebrates.

ANTHONY HERREL

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