Taxonomy

This lesson covers: 

  1. The purpose of classification
  2. The hierarchical taxonomic system
  3. Binomial nomenclature
  4. The five kingdom classification system
  5. The three domain classification system

The purpose of classification

A species is a group of organisms that are able to breed to produce fertile living offspring. Classification organises organisms into groups based on similarities.


This allows scientists to:

  • Identify new species.
  • Study evolutionary relationships.
  • Understand shared traits and adaptations.
  • Share research globally to identify links with organisms on other continents.


This hierarchical system from general to specific makes research and identification more manageable across the millions of global species.

The hierarchical taxonomic system

There are eight major taxonomic ranks used to classify organisms.


Ranked from largest and broadest to smallest and most specific, these are:

  1. Domain
  2. Kingdom
  3. Phylum
  4. Class
  5. Order
  6. Family
  7. Genus
  8. Species


The broadest groups contain the most species, and narrower groups have fewer species but are more closely related.

Using binomial nomenclature

The binomial naming system gives each species a two-part ‘binomial’ Latin name. This binomial name is italicised when typed and underlined when written down.


The name consists of:

  1. The genus - This has an uppercase first letter.
  2. The species - This is all lowercase.


For example:

  • The binomial name for humans is Homo sapiens.
  • The binomial name for dogs is Canis familiaris.


This avoids confusion from regional common names for organisms.

The five kingdom system

Illustration showing the five kingdom system with representations of Plantae, Animalia, Prokaryotae, Protoctista, and Fungi.

We generally classify organisms into five different kingdoms:

  1. Plantae (plants)
  2. Animalia (animals)
  3. Prokaryotae (prokaryotes)
  4. Protoctista (unicellular eukaryotes)
  5. Fungi (such as yeasts)

The three domain system

Older classification systems become outdated when new molecular and genetic data arise. This means that taxonomy is periodically updated and reorganised to reflect progressing scientific knowledge, as reflected by the new three domain system.

Diagram showing the five kingdom classification system including Prokaryotae, Protoctista, Plantae, Fungi, and Animalia.
Diagram showing the three domain system classification with Bacteria, Archaea, and Eukarya, and the six kingdoms Eubacteria, Archaebacteria, Protoctista, Plantae, Fungi, Animalia.

The three domain system proposes six kingdoms instead of five, because there is evidence for splitting the kingdom Prokaryotae into two separate kingdoms: Eubacteria and Archaebacteria. It recognises differences between Bacteria, Archaea, and Eukarya (all eukaryotic organisms). 

Domain Bacteria

  • Contains the kingdom Eubacteria only, found in all environments.
  • Prokaryotic unicellular organisms.
  • Distinct cell membrane lipids.
  • Have peptidogylcan (murein) in their cell walls.
  • Unique RNA polymerase enzyme.

Domain Archaea

  • Contains the kingdom Archaebacteria only, typically found in extreme environments.
  • Prokaryotic unicellular organisms.
  • Have histones so gene and protein synthesis is more similar to Eukarya than Bacteria.
  • No peptidogylcan in their cell walls.
  • Different cell membranes that contain fatty acids bound to glycerol by ether linkages.
  • Have a more complex form of RNA polymerase than Bacteria.

Domain Eukarya

  • Contains four kingdoms from the five kingdom system: Animalia, Plantae, Fungi, Protoctista.
  • All have nuclei and membrane-bound organelles.