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Transcript 
Unit 6: Classification and Diversity
KEY CONCEPT
Organisms can be classified based on physical
similarities.
Unit 6: Classification and Diversity
Linnaeus developed the scientific naming system still
used today.
• Taxonomy is the science of naming and classifying
organisms.
White oak:
Quercus alba
• A taxon is a group of organisms in a classification system.
Unit 6: Classification and Diversity
• Binomial nomenclature is a two-part scientific naming
system.
– uses Latin words
– scientific names always written in italics
– two parts are the genus name and species descriptor
Unit 6: Classification and Diversity
• A genus includes one or more physically similar species.
– Species in the same genus are thought to be closely
related.
– Genus name is always capitalized.
• A species descriptor is the second part of a scientific name.
– always lowercase
– always follows genus
name; never written alone
Tyto alba
Unit 6: Classification and Diversity
• Scientific names help scientists to communicate.
– Some species have very similar common names.
– Some species have many common names.
Unit 6: Classification and Diversity
Linnaeus’ classification system has seven levels.
• Each level is
included in the
level above it.
• Levels get
increasingly
specific from
kingdom to
species.
Unit 6: Classification and Diversity
KEY CONCEPT
The current tree of life has three domains.
Unit 6: Classification and Diversity
Classification is always a work in progress.
• The tree of life shows our most current understanding.
• New discoveries can lead to changes in classification.
– Until 1866: only two kingdoms,
Plantae
Animalia and Plantae
Animalia
Unit 6: Classification and Diversity
Classification is always a work in progress.
• The tree of life shows our most current understanding.
• New discoveries can lead to changes in classification.
– Until 1866: only two kingdoms,
Plantae
Animalia and Plantae
Animalia
– 1866: all single-celled
Protista
organisms moved to
kingdom Protista
Unit 6: Classification and Diversity
Classification is always a work in progress.
• The tree of life shows our most current understanding.
• New discoveries can lead to changes in classification.
– Until 1866: only two kingdoms,
Plantae
Animalia and Plantae
Animalia
– 1866: all single-celled
Protista
organisms moved to
kingdom Protista
– 1938: prokaryotes moved
to kingdom Monera
Monera
Unit 6: Classification and Diversity
Classification is always a work in progress.
• The tree of life shows our most current understanding.
• New discoveries can lead to changes in classification.
– Until 1866: only two kingdoms,
Plantae
Animalia and Plantae
Animalia
– 1866: all single-celled
Protista
organisms moved to
kingdom Protista
– 1938: prokaryotes moved
to kingdom Monera
– 1959: fungi moved to
own kingdom
Monera
Fungi
Unit 6: Classification and Diversity
Classification is always a work in progress.
• The tree of life shows our most current understanding.
• New discoveries can lead to changes in classification.
– Until 1866: only two kingdoms,
Plantae
Animalia and Plantae
Animalia
– 1866: all single-celled
Protista
organisms moved to
kingdom Protista
– 1938: prokaryotes moved
to kingdom Monera
– 1959: fungi moved to
own kingdom
Archea
Fungi
Bacteria
– 1977: kingdom Monera
split into kingdoms Bacteria and Archaea
Unit 6: Classification and Diversity
The three domains in the tree of life are Bacteria, Archaea,
and Eukarya.
• Domains are above the kingdom level.
– proposed by Carl Woese based on rRNA studies of
prokaryotes
– domain model more clearly shows prokaryotic diversity
Unit 6: Classification and Diversity
• Domain Bacteria includes prokaryotes in the kingdom
Bacteria.
– one of largest groups
on Earth
– classified by shape,
need for oxygen, and
diseases caused
Unit 6: Classification and Diversity
• Domain Archaea includes prokaryotes in the kingdom
Archaea.
– cell walls chemically
different from bacteria
– differences discovered by
studying RNA
– known for living in extreme
environments
Unit 6: Classification and Diversity
• Domain Eukarya includes all eukaryotes.
– kingdom Protista
Unit 6: Classification and Diversity
• Domain Eukarya includes all eukaryotes.
– kingdom Protista
– kingdom Plantae
Unit 6: Classification and Diversity
• Domain Eukarya includes all eukaryotes.
– kingdom Protista
– kingdom Plantae
– kingdom Fungi
Unit 6: Classification and Diversity
• Domain Eukarya includes all eukaryotes.
–
–
–
–
kingdom Protista
kingdom Plantae
kingdom Fungi
kingdom Animalia
Unit 6: Classification and Diversity
• Bacteria and archaea can be difficult to classify.
– transfer genes among themselves outside of
reproduction
bridge to transfer DNA
– blurs the line
between “species”
– more research
needed to
understand
prokaryotes
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