Classification - PowerPoint PPT Presentation

About This Presentation
Title:

Classification

Description:

Classification Candidates should be able to: (a) define the terms classification, phylogeny and taxonomy; (b) explain the relationship between classification and ... – PowerPoint PPT presentation

Number of Views:104
Avg rating:3.0/5.0
Slides: 34
Provided by: Sta7155
Category:

less

Transcript and Presenter's Notes

Title: Classification


1
Classification
  • Candidates should be able to
  • (a) define the terms classification, phylogeny
    and taxonomy
  • (b) explain the relationship between
    classification and phylogeny
  • (c) describe the classification of species into
    the taxonomic hierarchy of domain, kingdom,
    phylum, class, order, family, genus and species
  • (d) outline the characteristic features of the
    following five kingdoms Prokaryotae (Monera),
    Protoctista, Fungi, Plantae, Animalia
  • (e) outline the binomial system of nomenclature
    and the use of scientific (Latin) names for
    species
  • (f) use a dichotomous key to identify a group of
    at least six plants, animals or microorganisms
  • (g) discuss the fact that classification systems
    were based originally on observable features but
    more recent approaches draw on a wider range of
    evidence to clarify relationships between
    organisms, including molecular evidence (HSW1,
    7a)
  • (h) compare and contrast the five kingdom and
    three domain classification systems (HSW4, 7a,
    7b).

2
Key Terms
  • Classification The process of placing living
    things into groups- the detailed study of the
    individuals in a species
  • Phylogeny the study of how closely different
    species are related
  • Taxonomy the study of the principles behind
    classification (the differences between species).
    These differences can be used to classify
    species.

3
Phylogeny
  • The more closely two species are related, the
    closer they appear on the evolutionary tree and
    the more recently they shared a common ancestor

4
The Current System of Classification
  • The current system uses eight taxa
  • Domain
  • Kingdom
  • Phylum
  • Class
  • Order
  • Family
  • Genus
  • Species

5
(No Transcript)
6
Five Kingdoms
  • Traditionally, all living things have been
    grouped into a number of kingdoms- this used to
    be two- plants and animals, but not all living
    things can fit into these two categories, so it
    is now 5
  • Prokaryotes, protoctists, fungi, plants, animals

7
Prokaryotes
  • No nucleus
  • Loop of DNA that is not arranged in linear
    proteins (not associated with histone proteins-
    Histones are the major structural proteins of
    chromosomes)
  • No membrane bound organelles
  • Small ribosomes
  • Carry out respiration in special membrane systems
    called mesosomes
  • Have smaller cells than eukaryotes
  • May be free living, parasitic, or cause disease

8
Protoctists
  • All are eukaryotes
  • Mostly single celled
  • Have a variety of forms
  • Show plant or animal like features
  • Mostly free living
  • Have autotrophic (photosynthesis) or
    heterotrophic (ingesting prey or extracellular
    enzymes) nutrition
  • It is sometimes referred to as the dustbin group
    as they have features that do not belong in any
    other kingdom

9
Fungi
  • Are eukaryotes
  • Have a mycelium (a network of strands called
    hyphae)
  • Have walls made of chitin (not cellulose)
  • Have a multinucleate cytoplasm (more than one
    nucleus)
  • Are mostly free living and saprophytic (cause
    decay of organic matter)

10
Plants
  • Eukaryotes
  • Multicellular
  • Have a cellulose cell wall
  • Produce multicellular embryos from fertilised
    eggs
  • Have autotrophic nutrition (carry out
    photosynthesis)

11
Animals
  • Are eukaryotes
  • Are multicellular
  • Have heterotrophic nutrition (eat other
    organisms, digest and absorb them)
  • Have fertilised eggs that develop into a ball of
    cells called a blastula
  • Can usually move around

12
Classifying a Species
  • A species means a group of organisms that can
    breed together to produce fertile offspring
  • Carl Linnaeus devised a system of naming living
    organisms that uses two names- called the
    binomial system
  • Before this, scientists used to use long,
    detailed descriptions or a common name, however
    this did not work well because
  • The same organisms had different names in
    different parts of the country
  • Translation of languages may give different names
  • The same common name may be used for different
    species in other parts of the world

13
The Binomial System
  • Latin is a universal language so species are
    given a universal name
  • All scientists around the world will use the same
    name
  • Binomial means two names, the first name is for
    the genus, the second is for the species e.g.
    Homo sapiens- Homo is the genus, sapiens is the
    species
  • The genus name always starts with a capital
    letter
  • It is always used in a way that makes it stand
    out- if typed, it is in italics, and if written
    it is underlined.

14
(No Transcript)
15
Identifying Organisms
  • Before you collect a species sample, you must
    check it will not harm the environment
  • You would first have to carry out an EIA-
    Environmental impact assessment
  • Scientists need to know what species are present,
    if they are rare, and if habitat destruction
    would have a large impact
  • For example a pond that contains great crested
    newts must not be harmed, as it is protected
    under the wildlife and countryside act 1981- it
    is illegal to catch, possess handle, cause death,
    harm or disturb them

16
Using a Key
  • A dichotomous key is a way of identifying
    organisms you have found
  • It is based on questions and answers- usually yes
    or no
  • The answer to each question leads to a different
    question and finally the name of the specimen
  • A good dichotomous key has one question fewer
    than the number of species it can identify

17
(No Transcript)
18
You must make sure you know how to use a
dichotomous key to identify a group of at least
six plants, animals or microorganisms
19
Ancient Classification
  • Early classification was based on observable
    features, so was limited to what you could see
  • In the 17th century (1600s), they had microscopes
    to help so they could see cells
  • Aristotle (384BC) based his observation on
    appearance and anatomy he said organisms were
    either plant or animal, then he further
    classified them into three groups, those that
    live and move in water, live and move on land and
    move through the air
  • Unfortunately, this meant that he grouped fish
    with turtles, birds with insects and mammals with
    frogs.
  • Classification is now more accurate as more
    research has been carried out.

20
Modern Classification
  • Originally, one celled organisms that were plant
    like were classified with plants and animal like
    ones classified with animals, but some
    unicellular organisms have features of both
    animal and plant, also there was the problem with
    fungi having hyphae and not carrying out
    photosynthesis.
  • This is why we now have the 5 kingdom
    classification, however there are now even more
    ways of classifying organisms

21
Biochemistry
  • Certain large biochemical molecules are found in
    all living things, but they may not be identical
    in all living things
  • This can be used to show evolutionary
    relationships and how closely related species are
    to one another

22
Cytochrome C
  • Cytochrome C is a protein used in respiration
  • All living organisms except chemosynthetic
    prokaryotes must respire, so must have Cytochrome
    C
  • Cytochrome C is not identical in all species- it
    is a protein made from amino acids, and some of
    the amino acid sequences differ between species.
  • If the amino acid sequence is the same, the two
    species must be closely related, the more
    differences there are, the less the species is
    related

23
DNA
  • All organisms use DNA or RNA
  • Comparisons of DNA sequences provides a way to
    classify species
  • The more similar the sequence, the more closely
    related the species
  • We can use this to clarify or correct
    evolutionary relationships that we are unsure
    about

24
Three Domains
  • In 1990, Carl Woese suggested a new
    classification system based on RNA
  • He divided the kingdom Prokaryote into two the
    bacteria (Eubacteria) and the Archaeae
    (Archaebacteria)
  • He said that Bacteria have a different cell
    membrane structure, different flagella, different
    enzymes for building RNA, no proteins bound to
    their genetic material and different DNA
    replication mechanisms
  • He also said Archaea share features with
    eukaryotes e.g. similar enzymes for building RNA,
    similar DNA replication mechanisms and production
    of the same proteins that bind to DNA
  • Woese suggested that the differences between
    Archaeae and Eubacteria are greater than the
    differences between Eukaryotes and bacteria- this
    is now widely accepted by biologists

25
Questions
26
Total 4 marks
27
(No Transcript)
28
(No Transcript)
29
(No Transcript)
30
(No Transcript)
31
(No Transcript)
32
(No Transcript)
33
Task
  • Now complete the end of chapter test as an open
    book activity
Write a Comment
User Comments (0)
About PowerShow.com