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Transcript 
Classification
1
Aristotle 384 BC
• Classified organisms
as either plants or
animals
2
Carolus Linnaeus 1707-1778
• Classification system
• Taxonomic groups of
related organisms
• Binomial nomenclature
(two names)
• Homo sapiens
• Dermacentor andersoni
3
Taxonomic Groups
4
5
Species
• “Species are groups
of actually or
potentially
interbreeding
populations, which
are reproductively
isolated from other
such groups.”
• Reproductively
isolated group
Ernst Mayr
6
Different Species
7
8
*
* Archaea
9
Kingdom Eubacteria
• Single celled (unicellular)
• Prokaryotic
• Make or absorb food;
autotroph & heterotroph
• Cell wall
• Reproduction – asexual binary
fission, conjugation, spores
• Method of Locomotion –
none/passive ; some of
flagellum
• Examples: E.coli, salmonella
10
Kingdom Archaea
•
•
•
•
Single celled (uni-cellular)
Prokaryotic
Autotroph & Heterotroph
Cell wall; three shapes – rod,
spherical, curved
• Reproduction – asexual binary
fission, conjugation, spores
• Method of Locomotion –
none/passive
• Additional Info – ancient
bacteria, found in extreme
environments
11
Kingdom Protista
•
•
•
•
•
•
•
Single celled
Eukaryotic
Ingest or produce food –
heterotroph & autotroph
Cell wall and/or chloroplasts in
some groups
Reproduction – sexual & asexual
Method of Locomotion – passive,
cilia, flagella, pseudopod
Examples – algae, amoeba,
euglena, slime molds, protozoan
• Additional Info – live in moist
environments, very diverse
group
12
Kingdom Fungi
•
•
•
•
•
Multicellular & unicellular
Eukaryotic
Cell wall
Heterotroph
Reproduction – sexual,
asexual, budding
• Method of Locomotion –
none/passive
• Examples: mold, mushrooms,
yeast
13
Kingdom Plantae
•
•
•
•
•
Multicellular
Eukaryotic
Cell wall & chloroplasts
Produce food (autotrophs)
Reproduction – sexual &
asexual
• Method of Locomotion –
none/passive use of wind or
pollinators for reproduction
• Examples – fern, moss, rose,
pine tree
14
Kingdom Animalia
•
•
•
•
•
•
Multicellular
Eukaryotic
No cell wall
Heterotroph
Most sexual; some asexual
Method of Locomotion –
various – walk, swim, fly,
crawl, etc.
• Examples – sponge, crayfish,
platypus, dog, frog, etc.
• Additional Information – most
complex group
15
Terminology
• Classification
– Assigning organisms to
different catagories based
on their relationship
• Taxonomy
– The science of naming
organisms
• Systematics
– Determining evolutionary
relationships of organisms
• Phylogeny
– Evolutionary history
16
Cladogram
• Evolutionary
relationship of a
group of organisms
• Each clad (group)
share something in
common
• Ancestral traits are
the oldest
• Derived traits evolved
later
17
Cladogram for Transportation
• Wheels are the most
ancestral
• Wings are the most
derived
18
Construct a Cladogram
19
Gorilla
• Four limbs
• Fur
• Lost tail
20
Tiger
• Four limbs
• Fur
• Tail
21
Lizard
• Four limbs
• Tail
22
Fish
• Tail
23
Chimpanzee
• Four limbs
• Fur
• Lost tail
24
Clad With 4 Limbs
25
Clad With Fur
26
Clad With No Tail
27
Characteristics for Constructing
Cladogram
•
•
•
•
Tail is the most ancestral
Four limbs is the oldest derived trait
Fur is a later derived trait
Loss of tail is the most derived trait
28
Gorilla
Chimpanzee
Tiger
Lizard
Fish
Tail Lost
Fur
Four Limbs
29
Gorilla Tail?
• How do we know the
gorilla lost its tail?
30
Gorilla’s Vestigial Tail
Gorilla
Human
31
Synapomorphy
• A derived character shared by two or more
groups.
– Fur is a synapomorphy for the various groups
of mammals.
– Synapomorphies are used to determine
evolutionary relationships
32
Phylogenetic Tree
• Shows evolutionary
relationships
• More historical than
cladogram
33
Uniramia
Echinodermata
Chordata
Lophophorates Chelicerata
Crustacea
Protochordates
Arthropoda
Annelida
Hemichordata
Other
pseudocoelomates
Nematoda
Mesozoa
Sarcomastigophora
Ciliophora
Apicomplexa
Microspora
Mollusca
Nemertea
Platyhelminthes
Ctenophora
Cnidaria
Placozoa
Porifera
Myxozoa
34
Mammals
Birds
Reptiles
Amphibians
Fish
35
Fish
•
•
•
•
Fins
Vertebrae
Simple egg
Homodont teeth
36
Amphibian
•
•
•
•
4 limbs
Vertebrae
Simple egg
Homodont teeth
37
Reptile
•
•
•
•
4 limbs
Vertebrae
Amniotic egg
Homodont teeth
38
Bird
•
•
•
•
•
•
4 limbs
Vertebrae
Amniotic egg
No teeth
Feathers
Endothermic
39
Mammal
•
•
•
•
•
•
4 limbs
Vertebrae
Amniotic egg
Heterodont teeth
Fur or hair
Endothermic
40
Birds
Mammals
Reptile
Feathers
Amphibian
Fish
Fur
Endothermic
Amniotic Egg
Four Limbs
Vertebrae
41
Birds
Reptile
Mammals
Feathers
Amphibian
Fish
Fur
Endothermic
Amniotic Egg
Four Limbs
Vertebrae
• Synapomorphies
– Four limbs for amphibians,
reptiles, birds & mammals
– Amniotic egg for reptiles, birds
& mammals
42
Symplesiomorphy
• Character shared by a number of groups
• Inherited from ancestors older than the
last common ancestor.
– Symplesiomorphies are not helpful in
determining evolutionary relationships
43
Birds
Reptile
Mammals
Feathers
Amphibian
Fish
Fur
Endothermic
Amniotic Egg
Four Limbs
Vertebrae
• Symplesiomorphies
– Vertebrae for amphibians,
reptiles, birds & mammals
– Four limbs for reptiles, birds &
mammals
44
Monophyletic
• A group of all the
descendants of a
common ancestor
• The common
ancestor is in the
group
• Example: Mammalia
– Ancestor was a
mammal like reptile
45
Paraphyletic
• A group of
descendants of a
common ancestor
• Common ancestor is
in the group
• Not all descendants
are included
• Example: Reptiles
– Does not include birds
and mammals
46
Polyphyletic
• A group that has
some similarities
• Common ancestor is
in not in the group
• Not all descendants
are included
• Example: Flying
vertebrates
47
Tree of Life
48
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Bilateral Symmetry
Fig. 7.9
Sagittal plane
7-9
49
Anatomical Terms
• Anterior
– Head end (front side in upright man)
• Posterior
– Tail end (back side in upright man)
• Dorsal
– Back side
• Ventral
– Belly side
50
Anatomical Terms (cont)
• Medial
– Close to the middle
• Lateral
– Close to the side
• Distal
– Away from the main part
• Proximal
– Close to the main part
51
Anatomical Terms (cont)
• Oral
– End with the mouth
• Aboral
– Opposite end of the mouth
• Cephalic
– Toward head
• Caudal
– Toward tail
52
Bilateral Symmetry
53
Radial Symmetry
54
Asymmetry
55
The End
56
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