Kingdom Monera is divided into Archaea and Bacteria. Archaea consists of prokaryotic organisms that can survive in extreme environments, while Bacteria includes a wide variety of prokaryotic organisms found in diverse habitats.
The kingdom Archaebacteria is divided into several phyla, including Euryarchaeota, Crenarchaeota, and Thaumarchaeota. These phyla are further divided into classes, orders, families, and genera based on genetic and biochemical characteristics. The specific order of the kingdom Archaebacteria depends on the classification system being used.
Archaebacteria are classified into four main phyla: Euryarchaeota, Crenarchaeota, Thaumarchaeota, and Korarchaeota. These phyla are further divided into various classes, orders, families, and genera based on their genetic and physiological characteristics.
protista
The three domains of organisms are Bacteria, Archaea, and Eukarya. Each domain is further divided into kingdoms, such as Animalia, Plantae, Fungi, Protista, etc., based on certain characteristics and evolutionary relationships.
Monera is a kingdom that contains unicellular life. It is split into the two domains of Archaea and Bacteria.
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Kingdom is a classification within the eukaryotes domain. Bacteria is a domain itself, previously called eubacteria (true bacteria). The other domain of prokaryotes is now called archaea. Previously this also was considered a kind of bacteria: archeabacteria. The third domain of living beings is the eukarya, where kingdoms plantae, fungi and animalia etc. belong.
Kingdom Monera is divided into Archaea and Bacteria. Archaea consists of prokaryotic organisms that can survive in extreme environments, while Bacteria includes a wide variety of prokaryotic organisms found in diverse habitats.
The Animal Kingdom (Animalia) is shared by both humans and dogs. In 1993, Thomas Cavalier-Smith divided the living world into eight kingdoms: Plantae, Animalia, Protozoa, Fungi, Eubacteria, Archaebacteria, Chromista, and Archezoa. In 2004, he removed the kingdoms Archaebacteria and Archezoa in favor of a six kingdom model.
Scientists divided the monera into eubacteria and archaebacteria based on genetic differences and biochemical characteristics. These differences were identified through molecular studies, which revealed distinct evolutionary lineages and unique biological properties in the two groups.
Woese, in 1990, divided the prokaryotes (previously classified as the Kingdom Monera) into two groups, called Eubacteria and Archaebacteria or Archaea.
The classification system has evolved over time, leading to changes in how organisms are organized. Monera was once a kingdom that included bacteria and archaea, but advancements in technology and genetic research revealed significant differences between the two groups. As a result, monera was divided into separate domains, Bacteria and Archaea, leading to the current classification system which includes six kingdoms.
Monera is a biological kingdom that includes simple, single-celled organisms like bacteria. It is divided into two main groups: Eubacteria and Archaebacteria. Eubacteria are commonly found in various environments, while Archaebacteria live in extreme conditions like hot springs and deep-sea vents.
In the years around 1980, there was an emphasis on phylogeny and redefining the kingdoms to be monophyletic groups, groups made up of relatively closely related organisms. The Animalia, Plantae, and Fungi were generally reduced to core groups of closely related forms, and the others placed into the Protista. Based on RNA studies, Carl Woese divided the prokaryotes (Kingdom Monera) into two kingdoms, called Eubacteria and Archaebacteria. Carl Woese attempted to establish a Three Primary Kingdom (or Urkingdom) system in which Plants, Animals, Protista, and Fungi were lumped into one primary kingdom of all eukaryotes. The Eubacteria and Archaebacteria made up the other two urkingdoms. The initial use of "six Kingdom systems" represents a blending of the classic Five Kingdom system and Woese's Three Kingdom system. Such six Kingdom systems have become standard in many works. (Wikipedia) For the source and more detailed information concerning your request, click on the related links section (Wikipedia) indicated directly below this answer section.
Domains are divided into kingdoms.
Bacteria belong to the kingdom Bacteria, which is one of the five kingdoms in the classification system. They are prokaryotic, single-celled organisms that lack a nucleus and membrane-bound organelles.