1. Classification and Phylogeny

2. Learning Objectives
At the end of this unit, a student should be able to…
Justify the use of scientific binomials for species
Arrange the Linnaean categories from most to least inclusive
Distinguish between homologous and analogous characteristics and how they are applied to resolving phylogenies
Distinguish between ancestral and derived characteristics and how they are applied to resolving phylogenies
Interpret a cladogram and describe the relationships among organisms using proper phylogenetic terminology
Distinguish among monophyletic, paraphyletic, and polyphyletic groups
Distinguish ingroup and outgroups
Apply the principle of parsimony to the construction of a cladogram

3. Classification of Life
The grouping and naming of organisms goes by different, interrelated names
Systematics
Classification of organisms
Cladistics
Classification of organisms according to measurable characteristics they have in common
Phylogenetics
Classification of organisms according to measurable characteristics they have in common based on evolutionary history
Taxonomy
Application of names for organisms and groups
Classification based on evolutionary relationships (common decent) is
a)taxonomy b)Linnaean c)phylogeny d) divisions e)none of these
The aspect of classification concerning the application of names to groups of organisms
A scientist involved with the classification of organisms
a)systematist b)taxonomist c)phylogeneticist d)all these e)none of these

4. Classification
Our classification hierarchy and taxonomic system was introduced by Carl von Linné
aka Carl Linnaeus, Carolus Linnaeus
~ 1750 C.E.
Like all classification, it is a human construction to better understand the world around us
Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species
(this one is “new”)

5. Classification
Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species
Our classification hierarchy is arranged from large groups that are broadly defined, to smaller groups that are more narrowly defined

6. Largest (broadly defined) Smallest (narrowly defined)
DOMAIN
Largest
(broadly defined)
Eukarya
KINGDOM
Animalia
PHYLUM
Chordata
Figure 1.10: Classification of the chimpanzee (Pan troglodytes).
CLASS
Mammalia
ORDER
Primates
FAMILY
Pongidae
Smallest
(narrowly defined)
GENUS
Pan
SPECIES
Pan troglodytes

7. Catamount, mountain lion, panther, puma, SXU mascot
Classification
Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species
Eukarya
Animalia
Chordata
Mammalia
Carnivora
Felidae
Puma
Puma concolor
Cougar
(Common name)
Catamount, mountain lion, panther, puma, SXU mascot
Each species has only one scientific name or “binomial”, consisting of the genus and the specific epithet
(Many common names!)

8. Classification and Relationships
Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species
Eukarya
Animalia
Chordata
Mammalia
Carnivora
Felidae
Puma
Puma concolor
Eukarya
Animalia
Chordata
Mammalia
Carnivora
Felidae
Panthera
Panthera tigris
Eukarya
Animalia
Chordata
Mammalia
Carnivora
Felidae
Panthera
Panthera pardus
Eukarya
Animalia
Chordata
Mammalia
Carnivora
Felidae
Panthera
Panthera leo
Cougar
Tiger
Leopard
Lion

9. Biological species concept Ecological species concept
What is a species?
Whatever we say it is.
Lions and Tigers could be considered the same species based on which species concept?
biological b) ecological c) typological d) all these e)none of these
Example:
Biological species concept
vs.
Ecological species concept

10. Species Biological species concept Ecological species concept
if two individuals can produce viable offspring, then they are the same species.
What about asexual organisms like bacteria?
Ecological species concept
same as BSC, except individuals must occupy a similar ecological niche

11. Tigers and Lions
Panthera tigris
Panthera leo

12. Liger ♀ ♂
Panthera tigris
Panthera leo

13. Tiglon ♂ ♀
Panthera tigris
Panthera leo

14. naming branches and defining branch points in an evolutionary tree
Classification
Phylogenetics
Reconstructing the evolutionary relationships of organisms
Classification based on common descent
“Tree of Life”
naming branches and defining branch points in an evolutionary tree

16. Classification
Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species
Today, systematists do their best to taxonomic names to the actual evolutionary history
The individual most responsible for our current classification system is
a) Louis Pasteur b)Anton Van Leeuwenhoek c)Carl Linnaeus d) Kanye West e) none of these
Other scientists propose a new classification system, more like a barcode for each branch
“The Phylocode”

17. Phylogeny Reconstructing evolutionary history
Terminology (learn the definitions)
homologous, analogous
clade (monophyletic, paraphyletic, polyphyletic)
parsimony
ingroup, outgroup
branch, node
cladogram, phylogram

18. Amniote Evolution

19. Amniote Evolution Vertebrate “ingroup” non-vertebrate “outgroup”
The organism that is defined as a close relative that doesn’t belong to the organisms of interest is called an
a) monophyly b) ingroup c) outgroup d) paraphyly e) all these

20. Data matrix Lancelet A Chimpanzee P Sunfish Lizard Frog Bear Lamprey
jaws
amniotic egg
tetrapod
opposable thumb
mammary glands
vertebrae
upright posture
Lancelet A
Chimpanzee P
Sunfish
Lizard
Frog
Bear
Lamprey
Human

21. Data matrix Lancelet A Lamprey P Sunfish Frog Lizard Bear Chimpanzee
vertebrae
jaws
tetrapod
amniotic egg
mammary glands
opposable thumb
upright posture
Lancelet A
Lamprey P
Sunfish
Frog
Lizard
Bear
Chimpanzee
Human

22. Data matrix Vertebrate “ingroup” Lancelet A Lamprey P Sunfish Frog
vertebrae
jaws
tetrapod
amniotic egg
mammary glands
opposable thumb
upright posture
Lancelet A
Lamprey P
Sunfish
Frog
Lizard
Bear
Chimpanzee
Human
Vertebrate
“ingroup”

23. Data matrix non-vertebrate “outgroup” Lancelet A Lamprey P Sunfish
vertebrae
jaws
tetrapod
amniotic egg
mammary glands
opposable thumb
upright posture
Lancelet A
Lamprey P
Sunfish
Frog
Lizard
Bear
Chimpanzee
Human
non-vertebrate
“outgroup”

24. Trees and Clades Taxon “H” Taxon “G” Taxon “F” Taxon “E” Taxon “D”
Taxon “C”
Taxon “B”
Taxon “A”

25. Trees and Clades clade branch node Taxon “H” Taxon “G” Taxon “F”
Taxon “E”
Taxon “D”
Taxon “C”
Taxon “B”
Taxon “A”
clade
branch
node

26. Amniote Evolution
clade
node

27. Amniote Evolution
Limbs

28. Amniote Evolution
Amniotic egg

29. Amniote Evolution Nodes are defined by shared derived characters
A clade in an evolutionary (phylogenetic) tree is defined by one or more
a) analogies b) plesiomorphies c) synapomorphies d) paramorphies
Nodes are defined by shared derived characters
“synapomorphies”
Amniotic egg

30. (Branch lengths are not meaningful)
Trees and Clades
clade
Taxon “A”
node
Taxon “B”
Taxon “C”
branch
Taxon “D”
In an evolutionary tree, organisms grouped together after one branch point are a
a) clade b) node c) taxon d) phylogram e) cladogram
In an evolutionary tree, a shared derived character typically defines a
a) paraphyly b) cladogram c) phylogram d) plant e) clade
In an evolutionary tree, a shared common ancestor is depicted by a
a) cladogram b) node c) phylogram d) tree e) clade
Taxon “E”
Taxon “F”
Taxon “G”
Taxon “H”
Outgroup Taxon
Cladogram
(Branch lengths are not meaningful)

31. Homology

32. Homology Vestigial characters
A homologous characteristic that has been reduced or non-functional is
a) analogous b) not evolved c) vestigial d) paraphyletic e) none of these
Vestigial characters

33. Convergent evolution
Similarities exist between distantly related taxa because of selective forces
Homoplasy: non homologous similarity
Similarities between distantly related organisms can arise from
a) convergent evolution b) will power c) co-evolution d) parsimony e) none of these