Archea-1.cell wall made up of proteins and polysaccharides 2.Hydrocarbonds in cytoplasm are branched 3.Not sensitive to antibiotics like streptomycin 4.Protein synthesis begins with methionine 5.Several types of RNA polymerase available Eubacteria-.Cell wall made up of Peptidoglycan 2.hydrocarbons unbranched 3.sensitive to antibiotics 4.Protein synthesis phenyle methionine 6.only one type of RNApolymerase
Because they are genetically different enough to warrant their own Kingdoms.
Archaebacteria and Eubacteria are placed in separate kingdoms because eubacteria has a different chemical makeup than archaebacteria.
because they are different
Modern taxonomists have added new kingdoms because recent molecular studies using DNA and protein analysis has enabled biologists to better understand evolutionary relationships. Therefore, they now recognize that bacteria must be placed into two separate kingdoms- Archaebacteria and Eubacteria
They are placed in separate Domains on basis of presence and absence of peptidoglycan .
In the five kingdom classification scheme archaea are placed in their own kingdom called archaea. This is a kingdom of single celled organisms.
Plants have chlorophyll and make energy from light; fungi don't.
because there is a true nucleus in the protists Monera do not have a true nucleus other organism have nucleus
The kingdoms Eubacteria and Archaebacteria (aka domains Bacteria and Archaea) contain prokaryotic organisms, or organisms without a true nucleus. The kingdom Monera was used to include all the organisms of both kingdoms but was split once taxonomists realized that archaebacteria are more closely related to eukaryotes than eubacteria.
Modern taxonomists have added new kingdoms because recent molecular studies using DNA and protein analysis has enabled biologists to better understand evolutionary relationships. Therefore, they now recognize that bacteria must be placed into two separate kingdoms- Archaebacteria and Eubacteria
They are placed in separate Domains on basis of presence and absence of peptidoglycan .
Eubacteria
In the five kingdom classification scheme archaea are placed in their own kingdom called archaea. This is a kingdom of single celled organisms.
Plants have chlorophyll and make energy from light; fungi don't.
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.
because there is a true nucleus in the protists Monera do not have a true nucleus other organism have nucleus
Organisms are placed into domains and kingdoms based on their cell type ,their ability to make food ,and the number of cells in their bodies
Organisms are placed in domains and kingdoms based on:their cell typetheir ability to make foodthe number of cells in their bodies
The original first two kingdoms were animals and plants.
I guess the "sixth kingdom" would refer to archibacteria. The reason these are often placed into a separate kingdom is because they have considerable differences from the living beings in any of the other kingdoms.