Monera
Protista
Fungi
Plantae
Animalia
they are divided based on a number of factors, none of which completely define the kingdom. for example, protists are eukaryotic single-cell organisms. but, some protists have qualities of fungi, animals, and plants, which starts to blurr the difference.
Organisms are placed into different kingdoms based on their cellular structures, modes of nutrition, and other defining characteristics. Taxonomists use a set of criteria, such as cell type, method of obtaining nutrition, and reproductive strategies, to classify organisms into distinct kingdoms such as Animalia, Plantae, Fungi, Protista, and Monera. Each kingdom represents a broad group of organisms that share similar characteristics.
Here are some of the criteria they use:
No. Organisms are grouped into one of the following six kingdoms: Plants, Animals, Protists, Fungi, Archaebacteria, or Eubacteria.
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Organisms that do not fit into any other kingdom are placed in the kingdom Protista. This kingdom includes a diverse group of eukaryotic organisms that do not belong to the Plantae, Animalia, or Fungi kingdoms.
There are currently five kingdoms of living things: Animalia, Plantae, Fungi, Protista, and Monera. Each kingdom is based on different characteristics and includes different groups of organisms.
The five kingdoms of life are Monera (single-celled prokaryotes), Protista (eukaryotic microorganisms), Fungi (multicellular organisms that absorb nutrients), Plantae (multicellular photosynthetic organisms), and Animalia (multicellular organisms that ingest food). These kingdoms categorize organisms based on their cellular structure, mode of nutrition, and complexity of organization.
No, not every living thing is in the kingdom Animalia. The kingdom Animalia includes multicellular, eukaryotic organisms that are heterotrophic and lack cell walls. Organisms in other kingdoms may have different characteristics, such as plants in the kingdom Plantae which are autotrophic and have cell walls.
Kingdoms and species are similar in that they both play a role in classifying and organizing living organisms based on shared characteristics. Kingdoms represent the broadest classification level, while species is the most specific level, representing individuals that can interbreed and produce fertile offspring. Both help scientists understand the diversity and relationships among different organisms in the natural world.
Organisms are placed in domains and kingdoms based on:their cell typetheir ability to make foodthe number of cells in their bodies
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
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Organisms that do not fit into any other kingdom are placed in the kingdom Protista. This kingdom includes a diverse group of eukaryotic organisms that do not belong to the Plantae, Animalia, or Fungi kingdoms.
The original first two kingdoms were animals and plants.
Unicellular organisms are organisms that have one cell. They are divided into two quite different types, from different classification kingdoms
All organisms under the kingdoms animalia, plantae, fungi, and the different protist kingdoms.
the different domains and kingdoms specify the phylums of different organisms
scientists use taxonomy to classify and separate them into different groups
The two kingdom model placed everything in either animal of plant kingdoms. The discovery of fungi challenged this, as they had features of both kingdoms.
Not all kingdoms include unicellular organisms. The kingdoms that do not have unicellular organisms include the plantae and animalia kingdom.
If you are referring to the taxonomic Kingdom Animalia, the remaining Kingdoms have no animals. If you are referring to political kingdoms, there are a wide variety of different animals scattered across the globe.