For centuries, scientists have attempted to classify living organisms in various ways. In fact, Aristotle classified living organisms based on whether they lived on land, in water, or in the air. However, biologists desired a more comprehensive system for classifying living organisms. As a result, the five kingdom classification was born. Let’s take a closer look at it.
Five kingdom classification
Scientists began classifying living organisms into different categories very early on.The Plants and the animals that are the two classifications used by biologists. Some biologists who attempted a broader system include Ernst Haeckel, Robert Whittaker, and Carl Woese. Among these, Robert Whittaker’s Five Kingdom Classification stood out and is widely used.
Whitaker proposed that organisms be classified into kingdoms based on characteristics such as cell structure, mode of nutrition, source of nutrition, interrelationship, body organisation, and reproduction. There are five major kingdoms in this system. They are as follows:
- Kingdom Monera
- Kingdom Protista
- Kingdom Fungi
- Kingdom Animalia
- Kingdom Plantae
Kingdom Monera
These organisms are unicellular and prokaryotic. They lack a well-defined nucleus as well as cell organelles. Some organisms exhibit the presence of a cell wall, while others do not. As a result, some organisms are autotrophic, while others are heterotrophic. Bacteria, Cyanobacteria, and Mycoplasma are a few examples.
Features of Monera
- They are typically single-celled organisms (but one group is mycelial).
- Sap vacuoles don’t exist. A gas vacuole, on the other hand, could be present.
- The absorptive mode of nutrition is the most common, but some groups are photosynthetic (holophytic) and chemosynthetic.
- The organisms are either non-motile or move by gliding or beating simple flagella.
- The naked circular DNA that is the genetic material there is in these organisms.
- There is no nuclear envelope. Ribosomes and simple chromatophores are the cytoplasm’s only subcellular organelles.
Types of Monerans
The Kingdom of Monera is divided into three sub-kingdoms:
- Archaebacteria
- Eubacteria
- Cyanobacteria
Kingdom Protista
The organisms classified as Kingdom Protista are all unicellular, eukaryotic organisms. These are the most basic eukaryotes, with either an autotrophic or a heterotrophic mode of nutrition. To move around, some organisms have appendages such as cilia, flagella, or pseudopodia. Diatoms, Protozoans such as Amoeba, and Paramoecium are a few examples.
Features of Kingdom Protista
- They are mostly aquatic.
- They are linked to those who work with plants, animals, and fungi.
- They also have a distinct nucleus and other membrane-bound organelles.
- Some of them have flagella or cilia.
- They have the ability to reproduce both asexually and sexually.
Sub-groups of Protists
- Chrysophytes
- Dinoflagellates
- Euglenoids
- Slime Moulds
- Protozoans
Kingdom Fungi
Kingdom Fungi includes heterotrophic, multicellular, and eukaryotic organisms. Their diet is saprophytic, as they feed on decaying organic matter. They have cell walls made of a substance known as chitin. Fungi also have a symbiotic relationship with some blue-green algae. Fungi include yeast, mushrooms, and aspergillus.
Features of Fungi
- A thallus is the plant body of true fungi. It could be either non-mycelial or mycelial.
- Fungi cell walls are primarily composed of chitin and cellulose.
- Fungi are a type of achlorophyllous organism. As a result, they are unable to prepare their meals. They are heterotrophs, which means they are parasites and saprophytes. Some forms coexist with other green forms in a symbiotic relationship.
- Fungi reproduce either vegetatively, asexually, or sexually.
Kingdom Plantae
These are Eukaryotic, multicellular organisms with cellulose-based cell walls. They are autotrophs, meaning they produce their own food through photosynthesis. All plants that are included in this kingdom.
Kingdom Plantae is divided into five divisions based on body differentiation and the presence or absence of specialised vascular tissue: Thallophyta, Bryophyta, Pteridophyta, Gymnosperms, and Angiosperms. Spirogyra, Ferns, Pines, and Mango Plants are a few examples.
Features of plantae
- They have chloroplasts, which are special organelles.
- The Asexual and the sexual reproduction are the both possible.
- They demonstrate generational change.
Kingdom Animalia
This Kingdom contains organisms that are multicellular, eukaryotic, and lack a cell wall. They feed in a heterotrophic manner. They are also extremely diverse. Some organisms have simple bodies, whereas others have complex bodies with specialised tissue differentiation and body organs.
There are numerous phyla and classes in the Animal Kingdom. Porifera, Coelenterata, Arthropoda, Echinodermata, Chordata, and other phyla are examples. Hydra, starfish, earthworms, monkeys, birds, and other organisms are examples.
Features of Animalia
- They are multicellular organisms that lack chlorophyll.
- The mode of nutrition is heterotrophic, which means they rely on food from other organisms.
- They have muscle cells, which allow them to contract and relax their body parts.
- The Reproduction is are a sexual process. Asexual reproduction is found in lower forms as well.
- The zygote develops into a multicellular embryo during development.
- Aerobic respiration necessitates the use of oxygen.
Conclusion
The Plants and the animals that are the two classifications used by biologists.They are as follows: Kingdom Monera, Kingdom Protista, Kingdom Fungi, Kingdom Animalia and Kingdom Plantae Kingdom. Monera: These organisms are unicellular and prokaryotic. As a result, some organisms are autotrophic, while others are heterotrophic. The absorptive mode of nutrition is the most common, but some groups are photosynthetic and chemosynthetic. The Kingdom of Monera is divided into three sub-kingdoms: Archaebacteria, Eubacteria, Cyanobacteria. Kingdom Protista: The organisms classified as Kingdom Protista are all unicellular, eukaryotic organisms. Kingdom Animalia: This Kingdom contains organisms that are multicellular, eukaryotic, and lack a cell wall.