Organisms from all kingdoms (Animalia, Plantae, Fungi, Protista, and Prokaryotae) can use cellular respiration to generate ATP. This process occurs in the mitochondria of eukaryotic cells and in the cytoplasm of prokaryotic cells.
The five main kingdoms in nature are: Animalia (organisms with complex cells and tissues), Plantae (organisms that photosynthesize), Fungi (organisms that absorb nutrients), Protista (mostly single-celled organisms), and Monera (prokaryotic 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.
The kingdom that contains the smallest organisms is the Monera kingdom, which includes bacteria and archaea. These organisms are unicellular and have simple cellular structures compared to other kingdoms.
Organisms are classified into kingdoms based on their cell type (prokaryotic or eukaryotic), cell structure, nutritional requirements, and modes of reproduction. The main criteria for classification include differences in basic cellular structure, complexity of the organism, and evolutionary relationships.
Organisms are classified into domains based on their cellular structure and composition. The three main domains are Bacteria, Archaea, and Eukarya. Within the Eukarya domain, organisms are further classified into kingdoms based on shared characteristics such as cell type, nutrition, and reproduction methods.
All living organisms, including those belonging to the kingdoms of Animalia, Plantae, Fungi, and Protista, undergo cellular respiration to generate energy. This process involves breaking down organic molecules to produce ATP, the cell's energy currency.
Cellular respiration is utilized by organisms across multiple kingdoms, including Animalia, Plantae, Fungi, and some Protista. In these kingdoms, it serves as a crucial metabolic process for converting organic molecules into usable energy in the form of ATP. While plants also perform photosynthesis, they rely on cellular respiration, especially at night or in non-photosynthetic tissues. Additionally, certain bacteria and archaea have unique forms of cellular respiration adapted to their environments.
fungi and protists
The five main kingdoms in nature are: Animalia (organisms with complex cells and tissues), Plantae (organisms that photosynthesize), Fungi (organisms that absorb nutrients), Protista (mostly single-celled organisms), and Monera (prokaryotic organisms).
Unicellular organisms are organisms that have one cell. They are divided into two quite different types, from different classification kingdoms
The six kingdoms are Animalia (animals), Plantae (plants), Fungi, Protista (protists), Archaea, and Bacteria. Organisms are classified into these kingdoms based on their cellular organization, mode of nutrition, and other characteristics.
Cellular structure and mode of nutrition are two of the most important characteristics used to classify organisms into kingdoms. Cellular structure refers to whether an organism is composed of prokaryotic or eukaryotic cells, while mode of nutrition classifies organisms based on how they obtain and process nutrients.
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.
Monerans, primarily represented by bacteria and archaea, differ from organisms in the other four kingdoms (plants, animals, fungi, and protists) primarily in their cellular structure and organization. They are unicellular and prokaryotic, lacking a true nucleus and membrane-bound organelles, while the other kingdoms consist of eukaryotic organisms with complex cell structures. Additionally, monerans reproduce asexually through binary fission, whereas many organisms in the other kingdoms can reproduce sexually or asexually. These fundamental differences in cellular organization and reproductive methods set monerans apart from the other kingdoms.
The primary distinction between organisms in the kingdoms Archaebacteria and Eubacteria and those in other kingdoms lies in their cellular structure and genetic makeup. Archaebacteria have unique lipid membranes and distinct ribosomal RNA sequences, enabling them to thrive in extreme environments, while Eubacteria possess peptidoglycan in their cell walls. In contrast, organisms in other kingdoms, such as plants, animals, and fungi, are eukaryotic, characterized by membrane-bound organelles and a more complex cellular organization. These differences highlight the fundamental evolutionary divergence between prokaryotic and eukaryotic life forms.
Fungi and Protista.
The kingdom that contains the smallest organisms is the Monera kingdom, which includes bacteria and archaea. These organisms are unicellular and have simple cellular structures compared to other kingdoms.