Bacteria, and blue-green algae.
Bacteria are classified into the Kingdom Bacteria, also known as Monera. This kingdom consists of single-celled organisms with prokaryotic cells, lacking a nucleus and membrane-bound organelles. Bacteria are one of the three domains of life, along with Archaea and Eukarya.
The Monera kingdom was formerly a group in biological classification and included most organisms without a nucleus (prokaryotic cells). Under the three-domain system that was established in 1991, the organisms that were in the Monera kingdom were moved to two different domains, Archaea and Bacteria.
The three-domain system of classification made the traditional kingdom Monera obsolete. Monera used to include all prokaryotic organisms, but with the advent of the three-domain system, prokaryotes were split into two separate domains: Bacteria and Archaea.
Organisms are classified into domains based on their cellular structure and composition. The three main domains are Bacteria, Archaea, and Eukarya. Within the Eukarya domain, organisms are further classified into kingdoms based on shared characteristics such as cell type, nutrition, and reproduction methods.
The scheme most often used currently divides all living organisms into fivekingdoms: Monera (bacteria), Protista, Fungi, Plantae, and Animalia. This coexisted with a scheme dividing life into two main divisions: the Prokaryotae (bacteria, etc.) and the Eukaryotae (animals, plants, fungi, and protists).
No, Lactobacillus is not classified as Monera. It belongs to the domain Bacteria, which is part of the kingdom Bacteria, specifically within the phylum Firmicutes. The Monera kingdom, which traditionally included all prokaryotic organisms, has largely been replaced by the three-domain system (Bacteria, Archaea, and Eukarya) in modern classifications.
Bacteria are classified into the Kingdom Bacteria, also known as Monera. This kingdom consists of single-celled organisms with prokaryotic cells, lacking a nucleus and membrane-bound organelles. Bacteria are one of the three domains of life, along with Archaea and Eukarya.
The Monera kingdom was formerly a group in biological classification and included most organisms without a nucleus (prokaryotic cells). Under the three-domain system that was established in 1991, the organisms that were in the Monera kingdom were moved to two different domains, Archaea and Bacteria.
The three-domain system of classification made the traditional kingdom Monera obsolete. Monera used to include all prokaryotic organisms, but with the advent of the three-domain system, prokaryotes were split into two separate domains: Bacteria and Archaea.
It actually is it's own kingdom. Its a kingdom that consists of cells that are single celled, microscopic, have a cell wall, and have no nucleus. Some can make their food others cannot. If you know about prokaryotic cells then you already know a lot about this kingdom.
Unicellular, Monera and Prokaryotes
No, Carl Linnaeus did not propose the five-kingdom system of classification. The five-kingdom system was proposed by Robert Whittaker in 1969, which classified organisms into five kingdoms: Monera, Protista, Fungi, Plantae, and Animalia.
binary fission
The kingdoms eubacteria and kingdom archaebacteria are bacteria kingdoms, which are unicellular.
Organisms are classified into domains based on their cellular structure and composition. The three main domains are Bacteria, Archaea, and Eukarya. Within the Eukarya domain, organisms are further classified into kingdoms based on shared characteristics such as cell type, nutrition, and reproduction methods.
An organism that can survive without oxygen belongs to the kingdom Monera, specifically in the domain Archaea. These organisms are known as extremophiles and are capable of thriving in extreme environments such as deep-sea vents.
Kingdom Monera: the most primitive of the five kingdoms that includes all the bacteria, also called monerans, which are single-celled prokaryotic organisms. (In six-kingdom system, Kingdom Monera is split into two kingdoms: (1) the Eubacteria, which are all bacteria apart from the archaebacteria, and (2) the Archaebacteria, which are single-celled organisms that live under extreme environmental conditions and have distinctive biochemical features)