Archaea
Domain: The domain this kingdom (Archaea) belongs in would be the Archaea Domain.
Type of Cell: The type of cell this kingdom is a Prokaryotic cell.
Number of Cells: The amount of cells the Archaea kingdom has is only one cell, which makes it Unicellular.
Nutrition: The Archaea kingdom could be either Autotroph or Heterotroph.
Cell Walls (Absent or Present): Yes, there is a cell wall present in the Archaea kingdom. The cell wall has no peptidoglycan, it contains pseudomurein, complex carbohydrates, or protein-glycoproteins.
When it Evolved on Earth (Approximately): The Archaea kingdom evolved approximately 3.5 billion years ago. On the Geological Time Scale, it evolved in the Eoarchaean period.
Two Adaptations: Can obtain energy from inorganic compounds, such as sulfur. Another thing is that Archaea also shares some metabolic pathways with other organisms, such as glycolysis and a citric acid cycle.
Cladogram or Phylogenetic Tree:
Type of Cell: The type of cell this kingdom is a Prokaryotic cell.
Number of Cells: The amount of cells the Archaea kingdom has is only one cell, which makes it Unicellular.
Nutrition: The Archaea kingdom could be either Autotroph or Heterotroph.
Cell Walls (Absent or Present): Yes, there is a cell wall present in the Archaea kingdom. The cell wall has no peptidoglycan, it contains pseudomurein, complex carbohydrates, or protein-glycoproteins.
When it Evolved on Earth (Approximately): The Archaea kingdom evolved approximately 3.5 billion years ago. On the Geological Time Scale, it evolved in the Eoarchaean period.
Two Adaptations: Can obtain energy from inorganic compounds, such as sulfur. Another thing is that Archaea also shares some metabolic pathways with other organisms, such as glycolysis and a citric acid cycle.
Cladogram or Phylogenetic Tree: