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2. Kingdoms and Domains. Section 1 Objectives. 3. Section 1 Objectives. Identify the characteristics used to classify kingdoms.Differentiate bacteria from archaebacteria.. 4. Kingdoms and Domains. The Six Kingdoms of Life. 5. Six Kingdoms of Life. Classification of living things into Kingdoms is la
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1. 1 Introduction to the Kingdoms of Life Chapter 19
2. 2 Kingdoms and Domains Section 1 Objectives
3. 3 Section 1 Objectives Identify the characteristics used to classify kingdoms.
Differentiate bacteria from archaebacteria.
4. 4 Kingdoms and Domains The Six Kingdoms of Life
5. 5 Six Kingdoms of Life Classification of living things into Kingdoms is largely based on a few fundamental characteristics:
Cell type
Cell walls
Body type
Nutrition
6. 6 Six Kingdoms of Life Cell Type
Prokaryotic or Eukaryotic
Two kingdoms of prokaryotes currently recognized
There are four kingdoms of eukaryotes
Cell Walls (present/absent, composition)
Present in 4 of 6 kingdoms
Absent in 1 kingdoms
In remaining kingdom, some have cell walls while others do not
7. 7 Six Kingdoms of Life Body type
Unicellular or multicellular
Nutrition
Heterotrophic or autotrophic
Heterotrophs obtain food by consuming other organisms by:
Ingestion then digestion
Digestion then absorption
Autotrophs make nutrients from inorganic molecules by:
Photosynthesis
Chemosynthesis
8. 8 Six Kingdoms of Life Today organisms are grouped into 6 kingdoms on the basis of their similarities.
The six kingdoms are:
Eubacteria
Archaebacteria
Protista
Fungi
Plantae
Animalia
9. 9 Kingdoms and Domains The Three Domains of Life
10. 10 The Domains of Life Prokaryotic organisms were once classified in a single kingdom, Monera.
On the basis of major difference in the DNA sequences of eubacteria and archaebacteria, scientists have adopted a classification system that divides all organisms into three superkingdoms or domains:
Bacteria—contains only eubacteria
Archaea—contains only archaebacteria
Eukarya—contains all eukaryotic kingdoms: protists, fungi, plants and animals.
11. 11 The Domains of Life The Domain Bacteria
Contains a single kingdom—Kingdom Eubacteria
Characteristics used to classify bacteria
Cell wall made of peptidoglycan, a weblike molecule made of carbohydrate strands cross-linked by short peptide bridges.
Amino acid sequences of ribosome proteins and RNA polymerase differ from those of Archaea and Eukaryotes and are used to infer relationships among groups of bacteria.
12. 12 The Domains of Life Kinds of bacteria
Most abundant organism on Earth
Important to humans because
Some cause disease
Some used to:
process foods (cheese, yogurt)
control agricultural pests,
produce chemicals,
perform genetic engineering
Nutrition
Autotrophic
Chemosynthetic—use hydrogen sulfide, ammonia or methane as source of energy
Photosynthetic
13. 13 The Domains of Life Heterotrophic
Aerobic
Anaerobic
Important as decomposers
The Domain Archaea
Prokaryotes more closely related to eukaryotes than to bacteria
Characteristics
Cells walls do not contain peptidoglycan
Cell membrane contains lipids very different from bacteria
14. 14 The Domains of Life Characteristics (cont.)
Ribosomal proteins very similar to eukaryotes, different from bacteria
Structure of genes is similar to that of eukaryotes.
Three kinds
Methanogens
Live deep in mud of swamps
Anaerobes that produce methane
Extremophiles
Thermophiles live in very hot places
Halophiles live in very salty water
Others live in very acidic environments
15. 15 The Domains of Life Nonextreme archaebacteria—grow in all the same environments that bacteria do.
The Domain Eukarya
Characteristics
Eukaryotic cell structure (nucleus and other internal compartments)
Multicellularity-occurs only in eukaryotes
Sexual reproduction
16. 16 Kingdoms of Eukaryotes Section 2 Objectives
17. 17 Section 2 Objectives List the characteristics of protists.
List the characteristics of fungi.
Name the characteristics of plants.
Identify the characteristics of animals.
Differentiate plants from animals.
18. 18 Kingdom Protista Originally formed to contain all unicellular organisms.
Prokaryotes removed and placed in their own kingdom(s).
As currently defined, represents the kinds of eukaryotic organisms that were first to evolve.
19. 19 Kingdom Protista The most diverse eukaryotic kingdom.
Eukaryotes that cannot be classified as plants, animals or fungi are classified as protists.
Characteristics
Unicellular or multicellular
Autotrophic or heterotrophic
Have cell walls or lack cell walls
20. 20 Kingdom Protista KINDS OF PROTISTS
Protozoa (animal-like protists)—classification based on means of locomotion
Use pseudopodia (means “false-feet”)
Amoeba is an example
Have flexible cell membranes
Move by using extensions of cytoplasm called pseudopodia.
Use flagella (called flagellates)
Have one or two whip-like organelles for locomotion.
21. 21