Used a hierarchical system - PowerPoint PPT Presentation

1 / 42
About This Presentation
Title:

Used a hierarchical system

Description:

... Lizard Fish Four Limbs Fur Tail Lost One Possible Cladogram Chimpanzee A Vertebrate Cladogram Birds Mammals Reptile Amphibian Fish ... Animal Classification, ... – PowerPoint PPT presentation

Number of Views:67
Avg rating:3.0/5.0
Slides: 43
Provided by: RickKn1
Category:

less

Transcript and Presenter's Notes

Title: Used a hierarchical system


1
Linnaeus System of Taxonomy
  • Used a hierarchical system
  • Kingdom, Phylum, Class, Order, Family, Genus,
    Species (later Domain was added)
  • Based on molecular evidence (DNA and protein
    sequences) its accepted to have 6 Kingdoms and
    have added 3 Domains

2
  • Latinized descriptive names of organisms
    -Binomial Nomenclature 2 word scientific
    naming system
  • First part of binomial Genus Always
    capitalized
  • Second part species - always lower case.
  • Latin scientific names are always italicized (if
    word processing) or underlined (if hand written)
  • Ex. Homo sapiens, wise man
  • species specific group of 1 type of organism
    that may interbreed and produce viable, fertile
    offspring.

3
Binomial Nomenclature Who cares?
  • What do you call this?
  • Crawdad?
  • Crawfish?
  • Crayfish?
  • Prairie crayfish-Procambarus gracilis

4
Why use Binomial Nomenclature?
  • Problems with common names
  • Varies from area to area, therefore, no
    commonality.
  • Does not specify a particular species.
  • Each animal has an unique binomial name.
  • Required for all animals by International Code of
    Zoological Nomenclature.

5
(No Transcript)
6
(No Transcript)
7
Domain Archaea Domain Eubacteria
  • Prokaryotic microbes, tiny
  • Live in extreme environments high temps, salts,
    acids (tough)
  • Anaerobic
  • Most primitive
  • Prokaryotic microbes
  • Often called the true bacteria
  • Live in most environments
  • Anaerobic or aerobic

8
(No Transcript)
9
Domain Eukarya
  • Eukaryotic
  • Mainly aerobic but can be anaerobic
  • Includes all other kingdoms (Protista, Plant,
    Fungi, Animal)

10
6 Kingdoms
11
Common Animal Phylum
12
What is this?
13
Most recently described Phylum - Cycliophora
  • 36th found Phylum in 1995
  • In the Animal Kingdom
  • Symbion pandora
  • Found in mouthparts of Norwegian lobsters
  • 0.3 mm long 300 µm

14
  • Currently we use
  • Morphological, biochemical, fossil, and molecular
    comparisons to infer evolutionary relationships

15
  • Though sedimentary fossils are the most common
  • Paleontologists study a wide variety of fossils

16
Morphological and Molecular Homologies
  • In general, organisms that share very similar
    morphologies or similar DNA sequences
  • Are likely to be more closely related than
    organisms with vastly different structures or
    sequences.
  • Not always true! Analogy vs. Homology

17
Homology
  • Homologous Structures structures in different
    species that are similar because of commons
    ancestry.

18
Analogy
  • Analogous Structures similarity in structures
    due to adaptations and not a common ancestor.

19
Cladograms
20
Cladistics
  • a method that applies the scientific method to
    the construction of evolutionary relationships.

21
Cladogram
  • Diagram showing how organisms are related based
    on shared, derived characteristics
  • such as
  • vertebrae
  • jaw bones
  • four legs
  • amniotic eggs
  • hair

22
Cladogram Vocabulary
  • Branch point
  • 2 species differ in shared derived characters
  • Ingroup
  • monophyletic group we are interested in
  • Outgroup
  • species or group of species that is most closely
    related to an ingroup

23
Primate Cladogram
24
  • Each branch point
  • Represents the divergence (separation) of two
    species

25
(No Transcript)
26
  • What shared derived character is common to
  • salmon
  • lizard
  • rabbit
  • but not the lamprey?

27
Constructing a cladogram
  • Choose species
  • Choose characters
  • Each character has different character states
    (example tail or no tail)
  • Determine order of character states
  • primitive or derived?
  • Use the fossil record
  • Many simple parts came before fewer, more
    specialized parts
  • Vestigial organs not functioning but present)
  • Mutation rate of DNA nucleotides
  • Group species (or higher taxa) based on shared
    derived characteristics

28
Constructing a cladogram
  • Build a cladogram based on
  • All species are placed on tips in the
    phylogenetic tree, not at branch points
  • Each cladogram branch point should have a list of
    one or more shared derived characters that are
    common to all species above the branch point
    unless the character is later modified
  • All shared derived characters appear together
    only once in a cladogram unless they arose
    independently during evolution more than once
  • Choose the most likely cladogram among possible
    options

29
Construct a Cladogram for Us! Lets use the
characters of tail, fur, and of limbs
30
Gorilla
  • Four limbs
  • Fur
  • No tail

31
Tiger
  • Four limbs
  • Fur
  • Tail

32
Lizard
  • Four limbs
  • Tail

33
Fish
  • Tail

34
Chimpanzee
  • Four limbs
  • Fur
  • No tail

35
Clade With 4 Limbs
36
Clade With Fur
37
Clade With No Tail
38
Characteristics (Traits) for Constructing this
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

39
One Possible Cladogram
Gorilla
Chimpanzee
Tiger
Lizard
Fish
40
A Vertebrate Cladogram
41
  • The outgroup comparison
  • Enables us to focus on just those characters that
    were derived at the various branch points in the
    evolution of a clade.

42
(No Transcript)
Write a Comment
User Comments (0)
About PowerShow.com