1.) Bacteria
2.) Archaebacteria
3.) Protist
4.) Fungi
5.) Plants
6.) Animals
Modern scientist use five kingdom in there classification system
1. Archae bacteria
2. Eubacteria
3. Eukarya
Those are domains, not kingdoms
Animalia, Plantae, Fungi, Protista, Monera
animals, plants, protists
bacteria;archae and euba
The two kingdom system was initially fined by Carl Linnaeus in 1735. It was originally based upon morphology and other physical characteristics. Modern scientists have altered the classification to a new system of six kingdoms based upon modern science's ability to better compare and define the genetic structures of living things. A new rDNA comparison analysis led to the development of the three domain and six kingdom classification.The two kingdoms in the original system defined by Linnaeus were:Animalia (animal)Vegetabilia (vegetable or plant)The five kingdoms were defined in 1969 by Robert Whittaker. Called the binomial nomenclature, it is no longer in use:Animalia (animal)Plantae (plant)Fungi (fungi)Protista (comprised by various one-celled animals)MoneraThe modern classification uses the following six Kingdoms:ProtistaAnimaliaFungiPlantaeArchaebacteriaEubacteriaMonera was split into the Kingdoms above listed as #5 and #6.The modern system has also expanded to three domains instead of the original two:ArchaeaProkaryaEukaryaPotential future systems of classification:Modern scientific technologies have aided the design of the newest classification of six Kingdoms using gene sequencing, and it is predicted that eventually the system may expand to as many as 30 or more Kingdoms.See related questions below for additional information on taxonomy.
Advantages of the Three domain system: - based on evolutionary relationships, which also show how kingdoms are related - determines relationships with DNA sequencing and phylogenetics - broadly classifies biodiversity into Eubacteria, Archaeabacteria and Eukarya allowing for kingdom changes Advanatges of the Five kingdom system: - classifies Eukaryotes correctly (Plantae, Fungi, Protista, Animalia, Monera) - based on the three prinicipal means of nutition- photosynthesis, absorption and ingestion - Seperates Kingdom Fungi, which previously had been part of the Kingdom Plantae Disadvantages of Three domain system: - classifies organisms too generally Disadvantages of Five Kingdom system: - No significant distinction between the bacteria types in Kingdom Monera (Eubacteria and Archaebacteria)
The kingdoms eubacteria and kingdom archaebacteria are bacteria kingdoms, which are unicellular.
animals, plants, protists
The three-domain system is the most widely accepted method of classification, dividing organisms into Bacteria, Archaea, and Eukarya based on genetic relationships. The five kingdom and six kingdom systems are older classification systems that group organisms based on morphological and ecological characteristics, but they are not as widely used or accepted in modern taxonomy.
bacteria;archae and euba
animals, plants, and protists
the nutritional modes they employ
animals, plants, and protists
Archaezoa, Protista, and Chromista
Yes, the recognized kingdom in Linnaeus' early classification system was "Regnum Animale" for animals. He also classified organisms into the kingdoms "Regnum Vegetabile" for plants and "Regnum Lapideum" for minerals.
The three most general levels in classification are domain, kingdom, and phylum. These levels categorize organisms based on broad characteristics such as cell type, body organization, and reproductive methods.
The six taxonomic kingdoms are Archaebacteria, Eubacteria, Protista, Fungi, Plantae, and Animalia. Each kingdom represents a different group of organisms with specific characteristics and evolutionary relationships.
The five kingdom system of classification was based on characteristics such as cell structure, mode of nutrition, and reproduction. The addition of the sixth kingdom, Archaea, was based on genetic and molecular differences from bacteria. This expanded the classification system to better reflect evolutionary relationships among organisms.
The two kingdom system was initially fined by Carl Linnaeus in 1735. It was originally based upon morphology and other physical characteristics. Modern scientists have altered the classification to a new system of six kingdoms based upon modern science's ability to better compare and define the genetic structures of living things. A new rDNA comparison analysis led to the development of the three domain and six kingdom classification.The two kingdoms in the original system defined by Linnaeus were:Animalia (animal)Vegetabilia (vegetable or plant)The five kingdoms were defined in 1969 by Robert Whittaker. Called the binomial nomenclature, it is no longer in use:Animalia (animal)Plantae (plant)Fungi (fungi)Protista (comprised by various one-celled animals)MoneraThe modern classification uses the following six Kingdoms:ProtistaAnimaliaFungiPlantaeArchaebacteriaEubacteriaMonera was split into the Kingdoms above listed as #5 and #6.The modern system has also expanded to three domains instead of the original two:ArchaeaProkaryaEukaryaPotential future systems of classification:Modern scientific technologies have aided the design of the newest classification of six Kingdoms using gene sequencing, and it is predicted that eventually the system may expand to as many as 30 or more Kingdoms.See related questions below for additional information on taxonomy.