SUGGESTioNS foR fURTHER READiNG
Tree Thinking: An Introduction to Phylogenetic
Biology, by D. A. Baum and S. D. Smith (Rob-
erts and Company, Greenwood Village, Co,
2 012), is a comprehensive introduction to the
concepts, methods, and uses of phylogenetics
in biology, for non-specialists.
These journal articles provide introductions to
some of the topics in this chapter:
omland, K. E., L. G. Cook, and M. D. Crisp. 2008.
Tree thinking for all biology: The problem withreading phylogenies as ladders of progress.
BioEssays 30: 854–867.
Bromham, L., and D. Penny. 2003. The modern
molecular clock. Nat. Rev. Genet. 4: 216–224.
Pagel, M. 1999. inferring the historical patterns
of biological evolution. Philos. Trans. R. Soc., B
352: 519–529.PRoBLEMS AND DiSCUSSioN ToPiCS
- Suppose species 1, 2, and 3 are endemic to a
group of islands (such as the Galápagos) and are
all descended from species 4 on the mainland
(which will serve as an outgroup; its very large
population size means that no new mutations
have become fixed in its population in the time
since the islands were colonized). We sequence
a gene and find ten nucleotide sites that differ
among the four species (among many other loci
that do not vary). The nucleotide bases at these
sites are
Species 1: GCTGATGAGT
Species 2: ATCAATGAGT
Species 3: GTTGCAACGT
Species 4: GTCAATGACA
Estimate the phylogeny of these taxa by plot-
ting the changes on each of the three possible
unrooted trees and determining which tree
requires the fewest evolutionary changes. - Suppose the species in the previous question
are birds that differ in diet: species 1 and 3 are
insectivorous (they eat insects), and species 2
and 4 are frugivorous (they eat fruit). We also
happen to know that another frugivorous spe-
cies, species 5, is a mainland relative of species
4. Given your best estimate of the phylogenetic
history, what has been the probable history of
the evolution of diet in this clade of birds? - Phylogenetic information is the basis for describ-
ing patterns of evolution, yet some examples of
patterns were presented without phylogenetic
trees in the text. Consider the following exam-
ples and discuss what phylogenetic evidence
or inference was left unstated: (a) The fusion of
hindlimb bones during embryonic development
of birds is a derived trait, not an ancestral trait,
relative to the unfused condition in crocodiles.
(b) Pentadactyly (five digits) is homologous in
humans and crocodiles. (c) The sting of a wasp
is derived from an ovipositor but is modified in
both structure and function. (d) insects evolved
wings, but the character was lost for many wing-
less insect groups. (e) frogs have some traits that
are very similar to those of their deep ances-
tors (five toes on the hindlimb, multiple bones
in the lower jaw) but others that are relatively
advanced (lack of teeth in the lower jaw).- There is evidence that many of the differences in
DNA sequence among species are not adaptive.
other differences among species, both in DNA
and in morphology, are adaptive (as you will see
in Chapters 3, 5, and 7). Do adaptive and non-
adaptive variations differ in their usefulness for
phylogenetic inference? Can you think of ways in
which knowledge of a character’s adaptive func-
tion would influence your judgment of whether
or not that character provides evidence for rela-
tionships among taxa? - it is possible for two different genes to imply
different phylogenetic relationships among a
group of species. What are the possible reasons
for this? if there is only one true history of forma-
tion of these species, what might we do in order
to determine which (if either) gene accurately
portrays that history? is it possible for both phy-
logenetic trees to be accurate even if there has
been only one history of species divergence?
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